diff options
Diffstat (limited to 'fw/hid-dials/Drivers/CMSIS/Core_A/Include/core_ca.h')
| -rw-r--r-- | fw/hid-dials/Drivers/CMSIS/Core_A/Include/core_ca.h | 2614 |
1 files changed, 0 insertions, 2614 deletions
diff --git a/fw/hid-dials/Drivers/CMSIS/Core_A/Include/core_ca.h b/fw/hid-dials/Drivers/CMSIS/Core_A/Include/core_ca.h deleted file mode 100644 index c7b451f..0000000 --- a/fw/hid-dials/Drivers/CMSIS/Core_A/Include/core_ca.h +++ /dev/null @@ -1,2614 +0,0 @@ -/**************************************************************************//**
- * @file core_ca.h
- * @brief CMSIS Cortex-A Core Peripheral Access Layer Header File
- * @version V1.0.1
- * @date 07. May 2018
- ******************************************************************************/
-/*
- * Copyright (c) 2009-2017 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.
- */
-
-#if defined ( __ICCARM__ )
- #pragma system_include /* treat file as system include file for MISRA check */
-#elif defined (__clang__)
- #pragma clang system_header /* treat file as system include file */
-#endif
-
-#ifdef __cplusplus
- extern "C" {
-#endif
-
-#ifndef __CORE_CA_H_GENERIC
-#define __CORE_CA_H_GENERIC
-
-
-/*******************************************************************************
- * CMSIS definitions
- ******************************************************************************/
-
-/* CMSIS CA definitions */
-#define __CA_CMSIS_VERSION_MAIN (1U) /*!< \brief [31:16] CMSIS-Core(A) main version */
-#define __CA_CMSIS_VERSION_SUB (1U) /*!< \brief [15:0] CMSIS-Core(A) sub version */
-#define __CA_CMSIS_VERSION ((__CA_CMSIS_VERSION_MAIN << 16U) | \
- __CA_CMSIS_VERSION_SUB ) /*!< \brief CMSIS-Core(A) version number */
-
-#if defined ( __CC_ARM )
- #if defined __TARGET_FPU_VFP
- #if (__FPU_PRESENT == 1)
- #define __FPU_USED 1U
- #else
- #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
- #define __FPU_USED 0U
- #endif
- #else
- #define __FPU_USED 0U
- #endif
-
-#elif defined (__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
- #if defined __ARM_PCS_VFP
- #if defined (__FPU_PRESENT) && (__FPU_PRESENT == 1U)
- #define __FPU_USED 1U
- #else
- #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
- #define __FPU_USED 0U
- #endif
- #else
- #define __FPU_USED 0U
- #endif
-
-#elif defined ( __ICCARM__ )
- #if defined __ARMVFP__
- #if (__FPU_PRESENT == 1)
- #define __FPU_USED 1U
- #else
- #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
- #define __FPU_USED 0U
- #endif
- #else
- #define __FPU_USED 0U
- #endif
-
-#elif defined ( __TMS470__ )
- #if defined __TI_VFP_SUPPORT__
- #if (__FPU_PRESENT == 1)
- #define __FPU_USED 1U
- #else
- #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
- #define __FPU_USED 0U
- #endif
- #else
- #define __FPU_USED 0U
- #endif
-
-#elif defined ( __GNUC__ )
- #if defined (__VFP_FP__) && !defined(__SOFTFP__)
- #if (__FPU_PRESENT == 1)
- #define __FPU_USED 1U
- #else
- #warning "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
- #define __FPU_USED 0U
- #endif
- #else
- #define __FPU_USED 0U
- #endif
-
-#elif defined ( __TASKING__ )
- #if defined __FPU_VFP__
- #if (__FPU_PRESENT == 1)
- #define __FPU_USED 1U
- #else
- #error "Compiler generates FPU instructions for a device without an FPU (check __FPU_PRESENT)"
- #define __FPU_USED 0U
- #endif
- #else
- #define __FPU_USED 0U
- #endif
-#endif
-
-#include "cmsis_compiler.h" /* CMSIS compiler specific defines */
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* __CORE_CA_H_GENERIC */
-
-#ifndef __CMSIS_GENERIC
-
-#ifndef __CORE_CA_H_DEPENDANT
-#define __CORE_CA_H_DEPENDANT
-
-#ifdef __cplusplus
- extern "C" {
-#endif
-
- /* check device defines and use defaults */
-#if defined __CHECK_DEVICE_DEFINES
- #ifndef __CA_REV
- #define __CA_REV 0x0000U
- #warning "__CA_REV not defined in device header file; using default!"
- #endif
-
- #ifndef __FPU_PRESENT
- #define __FPU_PRESENT 0U
- #warning "__FPU_PRESENT not defined in device header file; using default!"
- #endif
-
- #ifndef __GIC_PRESENT
- #define __GIC_PRESENT 1U
- #warning "__GIC_PRESENT not defined in device header file; using default!"
- #endif
-
- #ifndef __TIM_PRESENT
- #define __TIM_PRESENT 1U
- #warning "__TIM_PRESENT not defined in device header file; using default!"
- #endif
-
- #ifndef __L2C_PRESENT
- #define __L2C_PRESENT 0U
- #warning "__L2C_PRESENT not defined in device header file; using default!"
- #endif
-#endif
-
-/* IO definitions (access restrictions to peripheral registers) */
-#ifdef __cplusplus
- #define __I volatile /*!< \brief Defines 'read only' permissions */
-#else
- #define __I volatile const /*!< \brief Defines 'read only' permissions */
-#endif
-#define __O volatile /*!< \brief Defines 'write only' permissions */
-#define __IO volatile /*!< \brief Defines 'read / write' permissions */
-
-/* following defines should be used for structure members */
-#define __IM volatile const /*!< \brief Defines 'read only' structure member permissions */
-#define __OM volatile /*!< \brief Defines 'write only' structure member permissions */
-#define __IOM volatile /*!< \brief Defines 'read / write' structure member permissions */
-#define RESERVED(N, T) T RESERVED##N; // placeholder struct members used for "reserved" areas
-
- /*******************************************************************************
- * Register Abstraction
- Core Register contain:
- - CPSR
- - CP15 Registers
- - L2C-310 Cache Controller
- - Generic Interrupt Controller Distributor
- - Generic Interrupt Controller Interface
- ******************************************************************************/
-
-/* Core Register CPSR */
-typedef union
-{
- struct
- {
- uint32_t M:5; /*!< \brief bit: 0.. 4 Mode field */
- uint32_t T:1; /*!< \brief bit: 5 Thumb execution state bit */
- uint32_t F:1; /*!< \brief bit: 6 FIQ mask bit */
- uint32_t I:1; /*!< \brief bit: 7 IRQ mask bit */
- uint32_t A:1; /*!< \brief bit: 8 Asynchronous abort mask bit */
- uint32_t E:1; /*!< \brief bit: 9 Endianness execution state bit */
- uint32_t IT1:6; /*!< \brief bit: 10..15 If-Then execution state bits 2-7 */
- uint32_t GE:4; /*!< \brief bit: 16..19 Greater than or Equal flags */
- RESERVED(0:4, uint32_t)
- uint32_t J:1; /*!< \brief bit: 24 Jazelle bit */
- uint32_t IT0:2; /*!< \brief bit: 25..26 If-Then execution state bits 0-1 */
- uint32_t Q:1; /*!< \brief bit: 27 Saturation condition flag */
- uint32_t V:1; /*!< \brief bit: 28 Overflow condition code flag */
- uint32_t C:1; /*!< \brief bit: 29 Carry condition code flag */
- uint32_t Z:1; /*!< \brief bit: 30 Zero condition code flag */
- uint32_t N:1; /*!< \brief bit: 31 Negative condition code flag */
- } b; /*!< \brief Structure used for bit access */
- uint32_t w; /*!< \brief Type used for word access */
-} CPSR_Type;
-
-
-
-/* CPSR Register Definitions */
-#define CPSR_N_Pos 31U /*!< \brief CPSR: N Position */
-#define CPSR_N_Msk (1UL << CPSR_N_Pos) /*!< \brief CPSR: N Mask */
-
-#define CPSR_Z_Pos 30U /*!< \brief CPSR: Z Position */
-#define CPSR_Z_Msk (1UL << CPSR_Z_Pos) /*!< \brief CPSR: Z Mask */
-
-#define CPSR_C_Pos 29U /*!< \brief CPSR: C Position */
-#define CPSR_C_Msk (1UL << CPSR_C_Pos) /*!< \brief CPSR: C Mask */
-
-#define CPSR_V_Pos 28U /*!< \brief CPSR: V Position */
-#define CPSR_V_Msk (1UL << CPSR_V_Pos) /*!< \brief CPSR: V Mask */
-
-#define CPSR_Q_Pos 27U /*!< \brief CPSR: Q Position */
-#define CPSR_Q_Msk (1UL << CPSR_Q_Pos) /*!< \brief CPSR: Q Mask */
-
-#define CPSR_IT0_Pos 25U /*!< \brief CPSR: IT0 Position */
-#define CPSR_IT0_Msk (3UL << CPSR_IT0_Pos) /*!< \brief CPSR: IT0 Mask */
-
-#define CPSR_J_Pos 24U /*!< \brief CPSR: J Position */
-#define CPSR_J_Msk (1UL << CPSR_J_Pos) /*!< \brief CPSR: J Mask */
-
-#define CPSR_GE_Pos 16U /*!< \brief CPSR: GE Position */
-#define CPSR_GE_Msk (0xFUL << CPSR_GE_Pos) /*!< \brief CPSR: GE Mask */
-
-#define CPSR_IT1_Pos 10U /*!< \brief CPSR: IT1 Position */
-#define CPSR_IT1_Msk (0x3FUL << CPSR_IT1_Pos) /*!< \brief CPSR: IT1 Mask */
-
-#define CPSR_E_Pos 9U /*!< \brief CPSR: E Position */
-#define CPSR_E_Msk (1UL << CPSR_E_Pos) /*!< \brief CPSR: E Mask */
-
-#define CPSR_A_Pos 8U /*!< \brief CPSR: A Position */
-#define CPSR_A_Msk (1UL << CPSR_A_Pos) /*!< \brief CPSR: A Mask */
-
-#define CPSR_I_Pos 7U /*!< \brief CPSR: I Position */
-#define CPSR_I_Msk (1UL << CPSR_I_Pos) /*!< \brief CPSR: I Mask */
-
-#define CPSR_F_Pos 6U /*!< \brief CPSR: F Position */
-#define CPSR_F_Msk (1UL << CPSR_F_Pos) /*!< \brief CPSR: F Mask */
-
-#define CPSR_T_Pos 5U /*!< \brief CPSR: T Position */
-#define CPSR_T_Msk (1UL << CPSR_T_Pos) /*!< \brief CPSR: T Mask */
-
-#define CPSR_M_Pos 0U /*!< \brief CPSR: M Position */
-#define CPSR_M_Msk (0x1FUL << CPSR_M_Pos) /*!< \brief CPSR: M Mask */
-
-#define CPSR_M_USR 0x10U /*!< \brief CPSR: M User mode (PL0) */
-#define CPSR_M_FIQ 0x11U /*!< \brief CPSR: M Fast Interrupt mode (PL1) */
-#define CPSR_M_IRQ 0x12U /*!< \brief CPSR: M Interrupt mode (PL1) */
-#define CPSR_M_SVC 0x13U /*!< \brief CPSR: M Supervisor mode (PL1) */
-#define CPSR_M_MON 0x16U /*!< \brief CPSR: M Monitor mode (PL1) */
-#define CPSR_M_ABT 0x17U /*!< \brief CPSR: M Abort mode (PL1) */
-#define CPSR_M_HYP 0x1AU /*!< \brief CPSR: M Hypervisor mode (PL2) */
-#define CPSR_M_UND 0x1BU /*!< \brief CPSR: M Undefined mode (PL1) */
-#define CPSR_M_SYS 0x1FU /*!< \brief CPSR: M System mode (PL1) */
-
-/* CP15 Register SCTLR */
-typedef union
-{
- struct
- {
- uint32_t M:1; /*!< \brief bit: 0 MMU enable */
- uint32_t A:1; /*!< \brief bit: 1 Alignment check enable */
- uint32_t C:1; /*!< \brief bit: 2 Cache enable */
- RESERVED(0:2, uint32_t)
- uint32_t CP15BEN:1; /*!< \brief bit: 5 CP15 barrier enable */
- RESERVED(1:1, uint32_t)
- uint32_t B:1; /*!< \brief bit: 7 Endianness model */
- RESERVED(2:2, uint32_t)
- uint32_t SW:1; /*!< \brief bit: 10 SWP and SWPB enable */
- uint32_t Z:1; /*!< \brief bit: 11 Branch prediction enable */
- uint32_t I:1; /*!< \brief bit: 12 Instruction cache enable */
- uint32_t V:1; /*!< \brief bit: 13 Vectors bit */
- uint32_t RR:1; /*!< \brief bit: 14 Round Robin select */
- RESERVED(3:2, uint32_t)
- uint32_t HA:1; /*!< \brief bit: 17 Hardware Access flag enable */
- RESERVED(4:1, uint32_t)
- uint32_t WXN:1; /*!< \brief bit: 19 Write permission implies XN */
- uint32_t UWXN:1; /*!< \brief bit: 20 Unprivileged write permission implies PL1 XN */
- uint32_t FI:1; /*!< \brief bit: 21 Fast interrupts configuration enable */
- uint32_t U:1; /*!< \brief bit: 22 Alignment model */
- RESERVED(5:1, uint32_t)
- uint32_t VE:1; /*!< \brief bit: 24 Interrupt Vectors Enable */
- uint32_t EE:1; /*!< \brief bit: 25 Exception Endianness */
- RESERVED(6:1, uint32_t)
- uint32_t NMFI:1; /*!< \brief bit: 27 Non-maskable FIQ (NMFI) support */
- uint32_t TRE:1; /*!< \brief bit: 28 TEX remap enable. */
- uint32_t AFE:1; /*!< \brief bit: 29 Access flag enable */
- uint32_t TE:1; /*!< \brief bit: 30 Thumb Exception enable */
- RESERVED(7:1, uint32_t)
- } b; /*!< \brief Structure used for bit access */
- uint32_t w; /*!< \brief Type used for word access */
-} SCTLR_Type;
-
-#define SCTLR_TE_Pos 30U /*!< \brief SCTLR: TE Position */
-#define SCTLR_TE_Msk (1UL << SCTLR_TE_Pos) /*!< \brief SCTLR: TE Mask */
-
-#define SCTLR_AFE_Pos 29U /*!< \brief SCTLR: AFE Position */
-#define SCTLR_AFE_Msk (1UL << SCTLR_AFE_Pos) /*!< \brief SCTLR: AFE Mask */
-
-#define SCTLR_TRE_Pos 28U /*!< \brief SCTLR: TRE Position */
-#define SCTLR_TRE_Msk (1UL << SCTLR_TRE_Pos) /*!< \brief SCTLR: TRE Mask */
-
-#define SCTLR_NMFI_Pos 27U /*!< \brief SCTLR: NMFI Position */
-#define SCTLR_NMFI_Msk (1UL << SCTLR_NMFI_Pos) /*!< \brief SCTLR: NMFI Mask */
-
-#define SCTLR_EE_Pos 25U /*!< \brief SCTLR: EE Position */
-#define SCTLR_EE_Msk (1UL << SCTLR_EE_Pos) /*!< \brief SCTLR: EE Mask */
-
-#define SCTLR_VE_Pos 24U /*!< \brief SCTLR: VE Position */
-#define SCTLR_VE_Msk (1UL << SCTLR_VE_Pos) /*!< \brief SCTLR: VE Mask */
-
-#define SCTLR_U_Pos 22U /*!< \brief SCTLR: U Position */
-#define SCTLR_U_Msk (1UL << SCTLR_U_Pos) /*!< \brief SCTLR: U Mask */
-
-#define SCTLR_FI_Pos 21U /*!< \brief SCTLR: FI Position */
-#define SCTLR_FI_Msk (1UL << SCTLR_FI_Pos) /*!< \brief SCTLR: FI Mask */
-
-#define SCTLR_UWXN_Pos 20U /*!< \brief SCTLR: UWXN Position */
-#define SCTLR_UWXN_Msk (1UL << SCTLR_UWXN_Pos) /*!< \brief SCTLR: UWXN Mask */
-
-#define SCTLR_WXN_Pos 19U /*!< \brief SCTLR: WXN Position */
-#define SCTLR_WXN_Msk (1UL << SCTLR_WXN_Pos) /*!< \brief SCTLR: WXN Mask */
-
-#define SCTLR_HA_Pos 17U /*!< \brief SCTLR: HA Position */
-#define SCTLR_HA_Msk (1UL << SCTLR_HA_Pos) /*!< \brief SCTLR: HA Mask */
-
-#define SCTLR_RR_Pos 14U /*!< \brief SCTLR: RR Position */
-#define SCTLR_RR_Msk (1UL << SCTLR_RR_Pos) /*!< \brief SCTLR: RR Mask */
-
-#define SCTLR_V_Pos 13U /*!< \brief SCTLR: V Position */
-#define SCTLR_V_Msk (1UL << SCTLR_V_Pos) /*!< \brief SCTLR: V Mask */
-
-#define SCTLR_I_Pos 12U /*!< \brief SCTLR: I Position */
-#define SCTLR_I_Msk (1UL << SCTLR_I_Pos) /*!< \brief SCTLR: I Mask */
-
-#define SCTLR_Z_Pos 11U /*!< \brief SCTLR: Z Position */
-#define SCTLR_Z_Msk (1UL << SCTLR_Z_Pos) /*!< \brief SCTLR: Z Mask */
-
-#define SCTLR_SW_Pos 10U /*!< \brief SCTLR: SW Position */
-#define SCTLR_SW_Msk (1UL << SCTLR_SW_Pos) /*!< \brief SCTLR: SW Mask */
-
-#define SCTLR_B_Pos 7U /*!< \brief SCTLR: B Position */
-#define SCTLR_B_Msk (1UL << SCTLR_B_Pos) /*!< \brief SCTLR: B Mask */
-
-#define SCTLR_CP15BEN_Pos 5U /*!< \brief SCTLR: CP15BEN Position */
-#define SCTLR_CP15BEN_Msk (1UL << SCTLR_CP15BEN_Pos) /*!< \brief SCTLR: CP15BEN Mask */
-
-#define SCTLR_C_Pos 2U /*!< \brief SCTLR: C Position */
-#define SCTLR_C_Msk (1UL << SCTLR_C_Pos) /*!< \brief SCTLR: C Mask */
-
-#define SCTLR_A_Pos 1U /*!< \brief SCTLR: A Position */
-#define SCTLR_A_Msk (1UL << SCTLR_A_Pos) /*!< \brief SCTLR: A Mask */
-
-#define SCTLR_M_Pos 0U /*!< \brief SCTLR: M Position */
-#define SCTLR_M_Msk (1UL << SCTLR_M_Pos) /*!< \brief SCTLR: M Mask */
-
-/* CP15 Register ACTLR */
-typedef union
-{
-#if __CORTEX_A == 5 || defined(DOXYGEN)
- /** \brief Structure used for bit access on Cortex-A5 */
- struct
- {
- uint32_t FW:1; /*!< \brief bit: 0 Cache and TLB maintenance broadcast */
- RESERVED(0:5, uint32_t)
- uint32_t SMP:1; /*!< \brief bit: 6 Enables coherent requests to the processor */
- uint32_t EXCL:1; /*!< \brief bit: 7 Exclusive L1/L2 cache control */
- RESERVED(1:2, uint32_t)
- uint32_t DODMBS:1; /*!< \brief bit: 10 Disable optimized data memory barrier behavior */
- uint32_t DWBST:1; /*!< \brief bit: 11 AXI data write bursts to Normal memory */
- uint32_t RADIS:1; /*!< \brief bit: 12 L1 Data Cache read-allocate mode disable */
- uint32_t L1PCTL:2; /*!< \brief bit:13..14 L1 Data prefetch control */
- uint32_t BP:2; /*!< \brief bit:16..15 Branch prediction policy */
- uint32_t RSDIS:1; /*!< \brief bit: 17 Disable return stack operation */
- uint32_t BTDIS:1; /*!< \brief bit: 18 Disable indirect Branch Target Address Cache (BTAC) */
- RESERVED(3:9, uint32_t)
- uint32_t DBDI:1; /*!< \brief bit: 28 Disable branch dual issue */
- RESERVED(7:3, uint32_t)
- } b;
-#endif
-#if __CORTEX_A == 7 || defined(DOXYGEN)
- /** \brief Structure used for bit access on Cortex-A7 */
- struct
- {
- RESERVED(0:6, uint32_t)
- uint32_t SMP:1; /*!< \brief bit: 6 Enables coherent requests to the processor */
- RESERVED(1:3, uint32_t)
- uint32_t DODMBS:1; /*!< \brief bit: 10 Disable optimized data memory barrier behavior */
- uint32_t L2RADIS:1; /*!< \brief bit: 11 L2 Data Cache read-allocate mode disable */
- uint32_t L1RADIS:1; /*!< \brief bit: 12 L1 Data Cache read-allocate mode disable */
- uint32_t L1PCTL:2; /*!< \brief bit:13..14 L1 Data prefetch control */
- uint32_t DDVM:1; /*!< \brief bit: 15 Disable Distributed Virtual Memory (DVM) transactions */
- RESERVED(3:12, uint32_t)
- uint32_t DDI:1; /*!< \brief bit: 28 Disable dual issue */
- RESERVED(7:3, uint32_t)
- } b;
-#endif
-#if __CORTEX_A == 9 || defined(DOXYGEN)
- /** \brief Structure used for bit access on Cortex-A9 */
- struct
- {
- uint32_t FW:1; /*!< \brief bit: 0 Cache and TLB maintenance broadcast */
- RESERVED(0:1, uint32_t)
- uint32_t L1PE:1; /*!< \brief bit: 2 Dside prefetch */
- uint32_t WFLZM:1; /*!< \brief bit: 3 Cache and TLB maintenance broadcast */
- RESERVED(1:2, uint32_t)
- uint32_t SMP:1; /*!< \brief bit: 6 Enables coherent requests to the processor */
- uint32_t EXCL:1; /*!< \brief bit: 7 Exclusive L1/L2 cache control */
- uint32_t AOW:1; /*!< \brief bit: 8 Enable allocation in one cache way only */
- uint32_t PARITY:1; /*!< \brief bit: 9 Support for parity checking, if implemented */
- RESERVED(7:22, uint32_t)
- } b;
-#endif
- uint32_t w; /*!< \brief Type used for word access */
-} ACTLR_Type;
-
-#define ACTLR_DDI_Pos 28U /*!< \brief ACTLR: DDI Position */
-#define ACTLR_DDI_Msk (1UL << ACTLR_DDI_Pos) /*!< \brief ACTLR: DDI Mask */
-
-#define ACTLR_DBDI_Pos 28U /*!< \brief ACTLR: DBDI Position */
-#define ACTLR_DBDI_Msk (1UL << ACTLR_DBDI_Pos) /*!< \brief ACTLR: DBDI Mask */
-
-#define ACTLR_BTDIS_Pos 18U /*!< \brief ACTLR: BTDIS Position */
-#define ACTLR_BTDIS_Msk (1UL << ACTLR_BTDIS_Pos) /*!< \brief ACTLR: BTDIS Mask */
-
-#define ACTLR_RSDIS_Pos 17U /*!< \brief ACTLR: RSDIS Position */
-#define ACTLR_RSDIS_Msk (1UL << ACTLR_RSDIS_Pos) /*!< \brief ACTLR: RSDIS Mask */
-
-#define ACTLR_BP_Pos 15U /*!< \brief ACTLR: BP Position */
-#define ACTLR_BP_Msk (3UL << ACTLR_BP_Pos) /*!< \brief ACTLR: BP Mask */
-
-#define ACTLR_DDVM_Pos 15U /*!< \brief ACTLR: DDVM Position */
-#define ACTLR_DDVM_Msk (1UL << ACTLR_DDVM_Pos) /*!< \brief ACTLR: DDVM Mask */
-
-#define ACTLR_L1PCTL_Pos 13U /*!< \brief ACTLR: L1PCTL Position */
-#define ACTLR_L1PCTL_Msk (3UL << ACTLR_L1PCTL_Pos) /*!< \brief ACTLR: L1PCTL Mask */
-
-#define ACTLR_RADIS_Pos 12U /*!< \brief ACTLR: RADIS Position */
-#define ACTLR_RADIS_Msk (1UL << ACTLR_RADIS_Pos) /*!< \brief ACTLR: RADIS Mask */
-
-#define ACTLR_L1RADIS_Pos 12U /*!< \brief ACTLR: L1RADIS Position */
-#define ACTLR_L1RADIS_Msk (1UL << ACTLR_L1RADIS_Pos) /*!< \brief ACTLR: L1RADIS Mask */
-
-#define ACTLR_DWBST_Pos 11U /*!< \brief ACTLR: DWBST Position */
-#define ACTLR_DWBST_Msk (1UL << ACTLR_DWBST_Pos) /*!< \brief ACTLR: DWBST Mask */
-
-#define ACTLR_L2RADIS_Pos 11U /*!< \brief ACTLR: L2RADIS Position */
-#define ACTLR_L2RADIS_Msk (1UL << ACTLR_L2RADIS_Pos) /*!< \brief ACTLR: L2RADIS Mask */
-
-#define ACTLR_DODMBS_Pos 10U /*!< \brief ACTLR: DODMBS Position */
-#define ACTLR_DODMBS_Msk (1UL << ACTLR_DODMBS_Pos) /*!< \brief ACTLR: DODMBS Mask */
-
-#define ACTLR_PARITY_Pos 9U /*!< \brief ACTLR: PARITY Position */
-#define ACTLR_PARITY_Msk (1UL << ACTLR_PARITY_Pos) /*!< \brief ACTLR: PARITY Mask */
-
-#define ACTLR_AOW_Pos 8U /*!< \brief ACTLR: AOW Position */
-#define ACTLR_AOW_Msk (1UL << ACTLR_AOW_Pos) /*!< \brief ACTLR: AOW Mask */
-
-#define ACTLR_EXCL_Pos 7U /*!< \brief ACTLR: EXCL Position */
-#define ACTLR_EXCL_Msk (1UL << ACTLR_EXCL_Pos) /*!< \brief ACTLR: EXCL Mask */
-
-#define ACTLR_SMP_Pos 6U /*!< \brief ACTLR: SMP Position */
-#define ACTLR_SMP_Msk (1UL << ACTLR_SMP_Pos) /*!< \brief ACTLR: SMP Mask */
-
-#define ACTLR_WFLZM_Pos 3U /*!< \brief ACTLR: WFLZM Position */
-#define ACTLR_WFLZM_Msk (1UL << ACTLR_WFLZM_Pos) /*!< \brief ACTLR: WFLZM Mask */
-
-#define ACTLR_L1PE_Pos 2U /*!< \brief ACTLR: L1PE Position */
-#define ACTLR_L1PE_Msk (1UL << ACTLR_L1PE_Pos) /*!< \brief ACTLR: L1PE Mask */
-
-#define ACTLR_FW_Pos 0U /*!< \brief ACTLR: FW Position */
-#define ACTLR_FW_Msk (1UL << ACTLR_FW_Pos) /*!< \brief ACTLR: FW Mask */
-
-/* CP15 Register CPACR */
-typedef union
-{
- struct
- {
- uint32_t CP0:2; /*!< \brief bit: 0..1 Access rights for coprocessor 0 */
- uint32_t CP1:2; /*!< \brief bit: 2..3 Access rights for coprocessor 1 */
- uint32_t CP2:2; /*!< \brief bit: 4..5 Access rights for coprocessor 2 */
- uint32_t CP3:2; /*!< \brief bit: 6..7 Access rights for coprocessor 3 */
- uint32_t CP4:2; /*!< \brief bit: 8..9 Access rights for coprocessor 4 */
- uint32_t CP5:2; /*!< \brief bit:10..11 Access rights for coprocessor 5 */
- uint32_t CP6:2; /*!< \brief bit:12..13 Access rights for coprocessor 6 */
- uint32_t CP7:2; /*!< \brief bit:14..15 Access rights for coprocessor 7 */
- uint32_t CP8:2; /*!< \brief bit:16..17 Access rights for coprocessor 8 */
- uint32_t CP9:2; /*!< \brief bit:18..19 Access rights for coprocessor 9 */
- uint32_t CP10:2; /*!< \brief bit:20..21 Access rights for coprocessor 10 */
- uint32_t CP11:2; /*!< \brief bit:22..23 Access rights for coprocessor 11 */
- uint32_t CP12:2; /*!< \brief bit:24..25 Access rights for coprocessor 11 */
- uint32_t CP13:2; /*!< \brief bit:26..27 Access rights for coprocessor 11 */
- uint32_t TRCDIS:1; /*!< \brief bit: 28 Disable CP14 access to trace registers */
- RESERVED(0:1, uint32_t)
- uint32_t D32DIS:1; /*!< \brief bit: 30 Disable use of registers D16-D31 of the VFP register file */
- uint32_t ASEDIS:1; /*!< \brief bit: 31 Disable Advanced SIMD Functionality */
- } b; /*!< \brief Structure used for bit access */
- uint32_t w; /*!< \brief Type used for word access */
-} CPACR_Type;
-
-#define CPACR_ASEDIS_Pos 31U /*!< \brief CPACR: ASEDIS Position */
-#define CPACR_ASEDIS_Msk (1UL << CPACR_ASEDIS_Pos) /*!< \brief CPACR: ASEDIS Mask */
-
-#define CPACR_D32DIS_Pos 30U /*!< \brief CPACR: D32DIS Position */
-#define CPACR_D32DIS_Msk (1UL << CPACR_D32DIS_Pos) /*!< \brief CPACR: D32DIS Mask */
-
-#define CPACR_TRCDIS_Pos 28U /*!< \brief CPACR: D32DIS Position */
-#define CPACR_TRCDIS_Msk (1UL << CPACR_D32DIS_Pos) /*!< \brief CPACR: D32DIS Mask */
-
-#define CPACR_CP_Pos_(n) (n*2U) /*!< \brief CPACR: CPn Position */
-#define CPACR_CP_Msk_(n) (3UL << CPACR_CP_Pos_(n)) /*!< \brief CPACR: CPn Mask */
-
-#define CPACR_CP_NA 0U /*!< \brief CPACR CPn field: Access denied. */
-#define CPACR_CP_PL1 1U /*!< \brief CPACR CPn field: Accessible from PL1 only. */
-#define CPACR_CP_FA 3U /*!< \brief CPACR CPn field: Full access. */
-
-/* CP15 Register DFSR */
-typedef union
-{
- struct
- {
- uint32_t FS0:4; /*!< \brief bit: 0.. 3 Fault Status bits bit 0-3 */
- uint32_t Domain:4; /*!< \brief bit: 4.. 7 Fault on which domain */
- RESERVED(0:1, uint32_t)
- uint32_t LPAE:1; /*!< \brief bit: 9 Large Physical Address Extension */
- uint32_t FS1:1; /*!< \brief bit: 10 Fault Status bits bit 4 */
- uint32_t WnR:1; /*!< \brief bit: 11 Write not Read bit */
- uint32_t ExT:1; /*!< \brief bit: 12 External abort type */
- uint32_t CM:1; /*!< \brief bit: 13 Cache maintenance fault */
- RESERVED(1:18, uint32_t)
- } s; /*!< \brief Structure used for bit access in short format */
- struct
- {
- uint32_t STATUS:5; /*!< \brief bit: 0.. 5 Fault Status bits */
- RESERVED(0:3, uint32_t)
- uint32_t LPAE:1; /*!< \brief bit: 9 Large Physical Address Extension */
- RESERVED(1:1, uint32_t)
- uint32_t WnR:1; /*!< \brief bit: 11 Write not Read bit */
- uint32_t ExT:1; /*!< \brief bit: 12 External abort type */
- uint32_t CM:1; /*!< \brief bit: 13 Cache maintenance fault */
- RESERVED(2:18, uint32_t)
- } l; /*!< \brief Structure used for bit access in long format */
- uint32_t w; /*!< \brief Type used for word access */
-} DFSR_Type;
-
-#define DFSR_CM_Pos 13U /*!< \brief DFSR: CM Position */
-#define DFSR_CM_Msk (1UL << DFSR_CM_Pos) /*!< \brief DFSR: CM Mask */
-
-#define DFSR_Ext_Pos 12U /*!< \brief DFSR: Ext Position */
-#define DFSR_Ext_Msk (1UL << DFSR_Ext_Pos) /*!< \brief DFSR: Ext Mask */
-
-#define DFSR_WnR_Pos 11U /*!< \brief DFSR: WnR Position */
-#define DFSR_WnR_Msk (1UL << DFSR_WnR_Pos) /*!< \brief DFSR: WnR Mask */
-
-#define DFSR_FS1_Pos 10U /*!< \brief DFSR: FS1 Position */
-#define DFSR_FS1_Msk (1UL << DFSR_FS1_Pos) /*!< \brief DFSR: FS1 Mask */
-
-#define DFSR_LPAE_Pos 9U /*!< \brief DFSR: LPAE Position */
-#define DFSR_LPAE_Msk (1UL << DFSR_LPAE_Pos) /*!< \brief DFSR: LPAE Mask */
-
-#define DFSR_Domain_Pos 4U /*!< \brief DFSR: Domain Position */
-#define DFSR_Domain_Msk (0xFUL << DFSR_Domain_Pos) /*!< \brief DFSR: Domain Mask */
-
-#define DFSR_FS0_Pos 0U /*!< \brief DFSR: FS0 Position */
-#define DFSR_FS0_Msk (0xFUL << DFSR_FS0_Pos) /*!< \brief DFSR: FS0 Mask */
-
-#define DFSR_STATUS_Pos 0U /*!< \brief DFSR: STATUS Position */
-#define DFSR_STATUS_Msk (0x3FUL << DFSR_STATUS_Pos) /*!< \brief DFSR: STATUS Mask */
-
-/* CP15 Register IFSR */
-typedef union
-{
- struct
- {
- uint32_t FS0:4; /*!< \brief bit: 0.. 3 Fault Status bits bit 0-3 */
- RESERVED(0:5, uint32_t)
- uint32_t LPAE:1; /*!< \brief bit: 9 Large Physical Address Extension */
- uint32_t FS1:1; /*!< \brief bit: 10 Fault Status bits bit 4 */
- RESERVED(1:1, uint32_t)
- uint32_t ExT:1; /*!< \brief bit: 12 External abort type */
- RESERVED(2:19, uint32_t)
- } s; /*!< \brief Structure used for bit access in short format */
- struct
- {
- uint32_t STATUS:6; /*!< \brief bit: 0.. 5 Fault Status bits */
- RESERVED(0:3, uint32_t)
- uint32_t LPAE:1; /*!< \brief bit: 9 Large Physical Address Extension */
- RESERVED(1:2, uint32_t)
- uint32_t ExT:1; /*!< \brief bit: 12 External abort type */
- RESERVED(2:19, uint32_t)
- } l; /*!< \brief Structure used for bit access in long format */
- uint32_t w; /*!< \brief Type used for word access */
-} IFSR_Type;
-
-#define IFSR_ExT_Pos 12U /*!< \brief IFSR: ExT Position */
-#define IFSR_ExT_Msk (1UL << IFSR_ExT_Pos) /*!< \brief IFSR: ExT Mask */
-
-#define IFSR_FS1_Pos 10U /*!< \brief IFSR: FS1 Position */
-#define IFSR_FS1_Msk (1UL << IFSR_FS1_Pos) /*!< \brief IFSR: FS1 Mask */
-
-#define IFSR_LPAE_Pos 9U /*!< \brief IFSR: LPAE Position */
-#define IFSR_LPAE_Msk (0x1UL << IFSR_LPAE_Pos) /*!< \brief IFSR: LPAE Mask */
-
-#define IFSR_FS0_Pos 0U /*!< \brief IFSR: FS0 Position */
-#define IFSR_FS0_Msk (0xFUL << IFSR_FS0_Pos) /*!< \brief IFSR: FS0 Mask */
-
-#define IFSR_STATUS_Pos 0U /*!< \brief IFSR: STATUS Position */
-#define IFSR_STATUS_Msk (0x3FUL << IFSR_STATUS_Pos) /*!< \brief IFSR: STATUS Mask */
-
-/* CP15 Register ISR */
-typedef union
-{
- struct
- {
- RESERVED(0:6, uint32_t)
- uint32_t F:1; /*!< \brief bit: 6 FIQ pending bit */
- uint32_t I:1; /*!< \brief bit: 7 IRQ pending bit */
- uint32_t A:1; /*!< \brief bit: 8 External abort pending bit */
- RESERVED(1:23, uint32_t)
- } b; /*!< \brief Structure used for bit access */
- uint32_t w; /*!< \brief Type used for word access */
-} ISR_Type;
-
-#define ISR_A_Pos 13U /*!< \brief ISR: A Position */
-#define ISR_A_Msk (1UL << ISR_A_Pos) /*!< \brief ISR: A Mask */
-
-#define ISR_I_Pos 12U /*!< \brief ISR: I Position */
-#define ISR_I_Msk (1UL << ISR_I_Pos) /*!< \brief ISR: I Mask */
-
-#define ISR_F_Pos 11U /*!< \brief ISR: F Position */
-#define ISR_F_Msk (1UL << ISR_F_Pos) /*!< \brief ISR: F Mask */
-
-/* DACR Register */
-#define DACR_D_Pos_(n) (2U*n) /*!< \brief DACR: Dn Position */
-#define DACR_D_Msk_(n) (3UL << DACR_D_Pos_(n)) /*!< \brief DACR: Dn Mask */
-#define DACR_Dn_NOACCESS 0U /*!< \brief DACR Dn field: No access */
-#define DACR_Dn_CLIENT 1U /*!< \brief DACR Dn field: Client */
-#define DACR_Dn_MANAGER 3U /*!< \brief DACR Dn field: Manager */
-
-/**
- \brief Mask and shift a bit field value for use in a register bit range.
- \param [in] field Name of the register bit field.
- \param [in] value Value of the bit field. This parameter is interpreted as an uint32_t type.
- \return Masked and shifted value.
-*/
-#define _VAL2FLD(field, value) (((uint32_t)(value) << field ## _Pos) & field ## _Msk)
-
-/**
- \brief Mask and shift a register value to extract a bit filed value.
- \param [in] field Name of the register bit field.
- \param [in] value Value of register. This parameter is interpreted as an uint32_t type.
- \return Masked and shifted bit field value.
-*/
-#define _FLD2VAL(field, value) (((uint32_t)(value) & field ## _Msk) >> field ## _Pos)
-
-
-/**
- \brief Union type to access the L2C_310 Cache Controller.
-*/
-#if (__L2C_PRESENT == 1U) || defined(DOXYGEN)
-typedef struct
-{
- __IM uint32_t CACHE_ID; /*!< \brief Offset: 0x0000 (R/ ) Cache ID Register */
- __IM uint32_t CACHE_TYPE; /*!< \brief Offset: 0x0004 (R/ ) Cache Type Register */
- RESERVED(0[0x3e], uint32_t)
- __IOM uint32_t CONTROL; /*!< \brief Offset: 0x0100 (R/W) Control Register */
- __IOM uint32_t AUX_CNT; /*!< \brief Offset: 0x0104 (R/W) Auxiliary Control */
- RESERVED(1[0x3e], uint32_t)
- __IOM uint32_t EVENT_CONTROL; /*!< \brief Offset: 0x0200 (R/W) Event Counter Control */
- __IOM uint32_t EVENT_COUNTER1_CONF; /*!< \brief Offset: 0x0204 (R/W) Event Counter 1 Configuration */
- __IOM uint32_t EVENT_COUNTER0_CONF; /*!< \brief Offset: 0x0208 (R/W) Event Counter 1 Configuration */
- RESERVED(2[0x2], uint32_t)
- __IOM uint32_t INTERRUPT_MASK; /*!< \brief Offset: 0x0214 (R/W) Interrupt Mask */
- __IM uint32_t MASKED_INT_STATUS; /*!< \brief Offset: 0x0218 (R/ ) Masked Interrupt Status */
- __IM uint32_t RAW_INT_STATUS; /*!< \brief Offset: 0x021c (R/ ) Raw Interrupt Status */
- __OM uint32_t INTERRUPT_CLEAR; /*!< \brief Offset: 0x0220 ( /W) Interrupt Clear */
- RESERVED(3[0x143], uint32_t)
- __IOM uint32_t CACHE_SYNC; /*!< \brief Offset: 0x0730 (R/W) Cache Sync */
- RESERVED(4[0xf], uint32_t)
- __IOM uint32_t INV_LINE_PA; /*!< \brief Offset: 0x0770 (R/W) Invalidate Line By PA */
- RESERVED(6[2], uint32_t)
- __IOM uint32_t INV_WAY; /*!< \brief Offset: 0x077c (R/W) Invalidate by Way */
- RESERVED(5[0xc], uint32_t)
- __IOM uint32_t CLEAN_LINE_PA; /*!< \brief Offset: 0x07b0 (R/W) Clean Line by PA */
- RESERVED(7[1], uint32_t)
- __IOM uint32_t CLEAN_LINE_INDEX_WAY; /*!< \brief Offset: 0x07b8 (R/W) Clean Line by Index/Way */
- __IOM uint32_t CLEAN_WAY; /*!< \brief Offset: 0x07bc (R/W) Clean by Way */
- RESERVED(8[0xc], uint32_t)
- __IOM uint32_t CLEAN_INV_LINE_PA; /*!< \brief Offset: 0x07f0 (R/W) Clean and Invalidate Line by PA */
- RESERVED(9[1], uint32_t)
- __IOM uint32_t CLEAN_INV_LINE_INDEX_WAY; /*!< \brief Offset: 0x07f8 (R/W) Clean and Invalidate Line by Index/Way */
- __IOM uint32_t CLEAN_INV_WAY; /*!< \brief Offset: 0x07fc (R/W) Clean and Invalidate by Way */
- RESERVED(10[0x40], uint32_t)
- __IOM uint32_t DATA_LOCK_0_WAY; /*!< \brief Offset: 0x0900 (R/W) Data Lockdown 0 by Way */
- __IOM uint32_t INST_LOCK_0_WAY; /*!< \brief Offset: 0x0904 (R/W) Instruction Lockdown 0 by Way */
- __IOM uint32_t DATA_LOCK_1_WAY; /*!< \brief Offset: 0x0908 (R/W) Data Lockdown 1 by Way */
- __IOM uint32_t INST_LOCK_1_WAY; /*!< \brief Offset: 0x090c (R/W) Instruction Lockdown 1 by Way */
- __IOM uint32_t DATA_LOCK_2_WAY; /*!< \brief Offset: 0x0910 (R/W) Data Lockdown 2 by Way */
- __IOM uint32_t INST_LOCK_2_WAY; /*!< \brief Offset: 0x0914 (R/W) Instruction Lockdown 2 by Way */
- __IOM uint32_t DATA_LOCK_3_WAY; /*!< \brief Offset: 0x0918 (R/W) Data Lockdown 3 by Way */
- __IOM uint32_t INST_LOCK_3_WAY; /*!< \brief Offset: 0x091c (R/W) Instruction Lockdown 3 by Way */
- __IOM uint32_t DATA_LOCK_4_WAY; /*!< \brief Offset: 0x0920 (R/W) Data Lockdown 4 by Way */
- __IOM uint32_t INST_LOCK_4_WAY; /*!< \brief Offset: 0x0924 (R/W) Instruction Lockdown 4 by Way */
- __IOM uint32_t DATA_LOCK_5_WAY; /*!< \brief Offset: 0x0928 (R/W) Data Lockdown 5 by Way */
- __IOM uint32_t INST_LOCK_5_WAY; /*!< \brief Offset: 0x092c (R/W) Instruction Lockdown 5 by Way */
- __IOM uint32_t DATA_LOCK_6_WAY; /*!< \brief Offset: 0x0930 (R/W) Data Lockdown 5 by Way */
- __IOM uint32_t INST_LOCK_6_WAY; /*!< \brief Offset: 0x0934 (R/W) Instruction Lockdown 5 by Way */
- __IOM uint32_t DATA_LOCK_7_WAY; /*!< \brief Offset: 0x0938 (R/W) Data Lockdown 6 by Way */
- __IOM uint32_t INST_LOCK_7_WAY; /*!< \brief Offset: 0x093c (R/W) Instruction Lockdown 6 by Way */
- RESERVED(11[0x4], uint32_t)
- __IOM uint32_t LOCK_LINE_EN; /*!< \brief Offset: 0x0950 (R/W) Lockdown by Line Enable */
- __IOM uint32_t UNLOCK_ALL_BY_WAY; /*!< \brief Offset: 0x0954 (R/W) Unlock All Lines by Way */
- RESERVED(12[0xaa], uint32_t)
- __IOM uint32_t ADDRESS_FILTER_START; /*!< \brief Offset: 0x0c00 (R/W) Address Filtering Start */
- __IOM uint32_t ADDRESS_FILTER_END; /*!< \brief Offset: 0x0c04 (R/W) Address Filtering End */
- RESERVED(13[0xce], uint32_t)
- __IOM uint32_t DEBUG_CONTROL; /*!< \brief Offset: 0x0f40 (R/W) Debug Control Register */
-} L2C_310_TypeDef;
-
-#define L2C_310 ((L2C_310_TypeDef *)L2C_310_BASE) /*!< \brief L2C_310 register set access pointer */
-#endif
-
-#if (__GIC_PRESENT == 1U) || defined(DOXYGEN)
-
-/** \brief Structure type to access the Generic Interrupt Controller Distributor (GICD)
-*/
-typedef struct
-{
- __IOM uint32_t CTLR; /*!< \brief Offset: 0x000 (R/W) Distributor Control Register */
- __IM uint32_t TYPER; /*!< \brief Offset: 0x004 (R/ ) Interrupt Controller Type Register */
- __IM uint32_t IIDR; /*!< \brief Offset: 0x008 (R/ ) Distributor Implementer Identification Register */
- RESERVED(0, uint32_t)
- __IOM uint32_t STATUSR; /*!< \brief Offset: 0x010 (R/W) Error Reporting Status Register, optional */
- RESERVED(1[11], uint32_t)
- __OM uint32_t SETSPI_NSR; /*!< \brief Offset: 0x040 ( /W) Set SPI Register */
- RESERVED(2, uint32_t)
- __OM uint32_t CLRSPI_NSR; /*!< \brief Offset: 0x048 ( /W) Clear SPI Register */
- RESERVED(3, uint32_t)
- __OM uint32_t SETSPI_SR; /*!< \brief Offset: 0x050 ( /W) Set SPI, Secure Register */
- RESERVED(4, uint32_t)
- __OM uint32_t CLRSPI_SR; /*!< \brief Offset: 0x058 ( /W) Clear SPI, Secure Register */
- RESERVED(5[9], uint32_t)
- __IOM uint32_t IGROUPR[32]; /*!< \brief Offset: 0x080 (R/W) Interrupt Group Registers */
- __IOM uint32_t ISENABLER[32]; /*!< \brief Offset: 0x100 (R/W) Interrupt Set-Enable Registers */
- __IOM uint32_t ICENABLER[32]; /*!< \brief Offset: 0x180 (R/W) Interrupt Clear-Enable Registers */
- __IOM uint32_t ISPENDR[32]; /*!< \brief Offset: 0x200 (R/W) Interrupt Set-Pending Registers */
- __IOM uint32_t ICPENDR[32]; /*!< \brief Offset: 0x280 (R/W) Interrupt Clear-Pending Registers */
- __IOM uint32_t ISACTIVER[32]; /*!< \brief Offset: 0x300 (R/W) Interrupt Set-Active Registers */
- __IOM uint32_t ICACTIVER[32]; /*!< \brief Offset: 0x380 (R/W) Interrupt Clear-Active Registers */
- __IOM uint32_t IPRIORITYR[255]; /*!< \brief Offset: 0x400 (R/W) Interrupt Priority Registers */
- RESERVED(6, uint32_t)
- __IOM uint32_t ITARGETSR[255]; /*!< \brief Offset: 0x800 (R/W) Interrupt Targets Registers */
- RESERVED(7, uint32_t)
- __IOM uint32_t ICFGR[64]; /*!< \brief Offset: 0xC00 (R/W) Interrupt Configuration Registers */
- __IOM uint32_t IGRPMODR[32]; /*!< \brief Offset: 0xD00 (R/W) Interrupt Group Modifier Registers */
- RESERVED(8[32], uint32_t)
- __IOM uint32_t NSACR[64]; /*!< \brief Offset: 0xE00 (R/W) Non-secure Access Control Registers */
- __OM uint32_t SGIR; /*!< \brief Offset: 0xF00 ( /W) Software Generated Interrupt Register */
- RESERVED(9[3], uint32_t)
- __IOM uint32_t CPENDSGIR[4]; /*!< \brief Offset: 0xF10 (R/W) SGI Clear-Pending Registers */
- __IOM uint32_t SPENDSGIR[4]; /*!< \brief Offset: 0xF20 (R/W) SGI Set-Pending Registers */
- RESERVED(10[5236], uint32_t)
- __IOM uint64_t IROUTER[988]; /*!< \brief Offset: 0x6100(R/W) Interrupt Routing Registers */
-} GICDistributor_Type;
-
-#define GICDistributor ((GICDistributor_Type *) GIC_DISTRIBUTOR_BASE ) /*!< \brief GIC Distributor register set access pointer */
-
-/** \brief Structure type to access the Generic Interrupt Controller Interface (GICC)
-*/
-typedef struct
-{
- __IOM uint32_t CTLR; /*!< \brief Offset: 0x000 (R/W) CPU Interface Control Register */
- __IOM uint32_t PMR; /*!< \brief Offset: 0x004 (R/W) Interrupt Priority Mask Register */
- __IOM uint32_t BPR; /*!< \brief Offset: 0x008 (R/W) Binary Point Register */
- __IM uint32_t IAR; /*!< \brief Offset: 0x00C (R/ ) Interrupt Acknowledge Register */
- __OM uint32_t EOIR; /*!< \brief Offset: 0x010 ( /W) End Of Interrupt Register */
- __IM uint32_t RPR; /*!< \brief Offset: 0x014 (R/ ) Running Priority Register */
- __IM uint32_t HPPIR; /*!< \brief Offset: 0x018 (R/ ) Highest Priority Pending Interrupt Register */
- __IOM uint32_t ABPR; /*!< \brief Offset: 0x01C (R/W) Aliased Binary Point Register */
- __IM uint32_t AIAR; /*!< \brief Offset: 0x020 (R/ ) Aliased Interrupt Acknowledge Register */
- __OM uint32_t AEOIR; /*!< \brief Offset: 0x024 ( /W) Aliased End Of Interrupt Register */
- __IM uint32_t AHPPIR; /*!< \brief Offset: 0x028 (R/ ) Aliased Highest Priority Pending Interrupt Register */
- __IOM uint32_t STATUSR; /*!< \brief Offset: 0x02C (R/W) Error Reporting Status Register, optional */
- RESERVED(1[40], uint32_t)
- __IOM uint32_t APR[4]; /*!< \brief Offset: 0x0D0 (R/W) Active Priority Register */
- __IOM uint32_t NSAPR[4]; /*!< \brief Offset: 0x0E0 (R/W) Non-secure Active Priority Register */
- RESERVED(2[3], uint32_t)
- __IM uint32_t IIDR; /*!< \brief Offset: 0x0FC (R/ ) CPU Interface Identification Register */
- RESERVED(3[960], uint32_t)
- __OM uint32_t DIR; /*!< \brief Offset: 0x1000( /W) Deactivate Interrupt Register */
-} GICInterface_Type;
-
-#define GICInterface ((GICInterface_Type *) GIC_INTERFACE_BASE ) /*!< \brief GIC Interface register set access pointer */
-#endif
-
-#if (__TIM_PRESENT == 1U) || defined(DOXYGEN)
-#if ((__CORTEX_A == 5U) || (__CORTEX_A == 9U)) || defined(DOXYGEN)
-/** \brief Structure type to access the Private Timer
-*/
-typedef struct
-{
- __IOM uint32_t LOAD; //!< \brief Offset: 0x000 (R/W) Private Timer Load Register
- __IOM uint32_t COUNTER; //!< \brief Offset: 0x004 (R/W) Private Timer Counter Register
- __IOM uint32_t CONTROL; //!< \brief Offset: 0x008 (R/W) Private Timer Control Register
- __IOM uint32_t ISR; //!< \brief Offset: 0x00C (R/W) Private Timer Interrupt Status Register
- RESERVED(0[4], uint32_t)
- __IOM uint32_t WLOAD; //!< \brief Offset: 0x020 (R/W) Watchdog Load Register
- __IOM uint32_t WCOUNTER; //!< \brief Offset: 0x024 (R/W) Watchdog Counter Register
- __IOM uint32_t WCONTROL; //!< \brief Offset: 0x028 (R/W) Watchdog Control Register
- __IOM uint32_t WISR; //!< \brief Offset: 0x02C (R/W) Watchdog Interrupt Status Register
- __IOM uint32_t WRESET; //!< \brief Offset: 0x030 (R/W) Watchdog Reset Status Register
- __OM uint32_t WDISABLE; //!< \brief Offset: 0x034 ( /W) Watchdog Disable Register
-} Timer_Type;
-#define PTIM ((Timer_Type *) TIMER_BASE ) /*!< \brief Timer register struct */
-#endif
-#endif
-
- /*******************************************************************************
- * Hardware Abstraction Layer
- Core Function Interface contains:
- - L1 Cache Functions
- - L2C-310 Cache Controller Functions
- - PL1 Timer Functions
- - GIC Functions
- - MMU Functions
- ******************************************************************************/
-
-/* ########################## L1 Cache functions ################################# */
-
-/** \brief Enable Caches by setting I and C bits in SCTLR register.
-*/
-__STATIC_FORCEINLINE void L1C_EnableCaches(void) {
- __set_SCTLR( __get_SCTLR() | SCTLR_I_Msk | SCTLR_C_Msk);
- __ISB();
-}
-
-/** \brief Disable Caches by clearing I and C bits in SCTLR register.
-*/
-__STATIC_FORCEINLINE void L1C_DisableCaches(void) {
- __set_SCTLR( __get_SCTLR() & (~SCTLR_I_Msk) & (~SCTLR_C_Msk));
- __ISB();
-}
-
-/** \brief Enable Branch Prediction by setting Z bit in SCTLR register.
-*/
-__STATIC_FORCEINLINE void L1C_EnableBTAC(void) {
- __set_SCTLR( __get_SCTLR() | SCTLR_Z_Msk);
- __ISB();
-}
-
-/** \brief Disable Branch Prediction by clearing Z bit in SCTLR register.
-*/
-__STATIC_FORCEINLINE void L1C_DisableBTAC(void) {
- __set_SCTLR( __get_SCTLR() & (~SCTLR_Z_Msk));
- __ISB();
-}
-
-/** \brief Invalidate entire branch predictor array
-*/
-__STATIC_FORCEINLINE void L1C_InvalidateBTAC(void) {
- __set_BPIALL(0);
- __DSB(); //ensure completion of the invalidation
- __ISB(); //ensure instruction fetch path sees new state
-}
-
-/** \brief Invalidate the whole instruction cache
-*/
-__STATIC_FORCEINLINE void L1C_InvalidateICacheAll(void) {
- __set_ICIALLU(0);
- __DSB(); //ensure completion of the invalidation
- __ISB(); //ensure instruction fetch path sees new I cache state
-}
-
-/** \brief Clean data cache line by address.
-* \param [in] va Pointer to data to clear the cache for.
-*/
-__STATIC_FORCEINLINE void L1C_CleanDCacheMVA(void *va) {
- __set_DCCMVAC((uint32_t)va);
- __DMB(); //ensure the ordering of data cache maintenance operations and their effects
-}
-
-/** \brief Invalidate data cache line by address.
-* \param [in] va Pointer to data to invalidate the cache for.
-*/
-__STATIC_FORCEINLINE void L1C_InvalidateDCacheMVA(void *va) {
- __set_DCIMVAC((uint32_t)va);
- __DMB(); //ensure the ordering of data cache maintenance operations and their effects
-}
-
-/** \brief Clean and Invalidate data cache by address.
-* \param [in] va Pointer to data to invalidate the cache for.
-*/
-__STATIC_FORCEINLINE void L1C_CleanInvalidateDCacheMVA(void *va) {
- __set_DCCIMVAC((uint32_t)va);
- __DMB(); //ensure the ordering of data cache maintenance operations and their effects
-}
-
-/** \brief Calculate log2 rounded up
-* - log(0) => 0
-* - log(1) => 0
-* - log(2) => 1
-* - log(3) => 2
-* - log(4) => 2
-* - log(5) => 3
-* : :
-* - log(16) => 4
-* - log(32) => 5
-* : :
-* \param [in] n input value parameter
-* \return log2(n)
-*/
-__STATIC_FORCEINLINE uint8_t __log2_up(uint32_t n)
-{
- if (n < 2U) {
- return 0U;
- }
- uint8_t log = 0U;
- uint32_t t = n;
- while(t > 1U)
- {
- log++;
- t >>= 1U;
- }
- if (n & 1U) { log++; }
- return log;
-}
-
-/** \brief Apply cache maintenance to given cache level.
-* \param [in] level cache level to be maintained
-* \param [in] maint 0 - invalidate, 1 - clean, otherwise - invalidate and clean
-*/
-__STATIC_FORCEINLINE void __L1C_MaintainDCacheSetWay(uint32_t level, uint32_t maint)
-{
- uint32_t Dummy;
- uint32_t ccsidr;
- uint32_t num_sets;
- uint32_t num_ways;
- uint32_t shift_way;
- uint32_t log2_linesize;
- int32_t log2_num_ways;
-
- Dummy = level << 1U;
- /* set csselr, select ccsidr register */
- __set_CSSELR(Dummy);
- /* get current ccsidr register */
- ccsidr = __get_CCSIDR();
- num_sets = ((ccsidr & 0x0FFFE000U) >> 13U) + 1U;
- num_ways = ((ccsidr & 0x00001FF8U) >> 3U) + 1U;
- log2_linesize = (ccsidr & 0x00000007U) + 2U + 2U;
- log2_num_ways = __log2_up(num_ways);
- if ((log2_num_ways < 0) || (log2_num_ways > 32)) {
- return; // FATAL ERROR
- }
- shift_way = 32U - (uint32_t)log2_num_ways;
- for(int32_t way = num_ways-1; way >= 0; way--)
- {
- for(int32_t set = num_sets-1; set >= 0; set--)
- {
- Dummy = (level << 1U) | (((uint32_t)set) << log2_linesize) | (((uint32_t)way) << shift_way);
- switch (maint)
- {
- case 0U: __set_DCISW(Dummy); break;
- case 1U: __set_DCCSW(Dummy); break;
- default: __set_DCCISW(Dummy); break;
- }
- }
- }
- __DMB();
-}
-
-/** \brief Clean and Invalidate the entire data or unified cache
-* Generic mechanism for cleaning/invalidating the entire data or unified cache to the point of coherency
-* \param [in] op 0 - invalidate, 1 - clean, otherwise - invalidate and clean
-*/
-__STATIC_FORCEINLINE void L1C_CleanInvalidateCache(uint32_t op) {
- uint32_t clidr;
- uint32_t cache_type;
- clidr = __get_CLIDR();
- for(uint32_t i = 0U; i<7U; i++)
- {
- cache_type = (clidr >> i*3U) & 0x7UL;
- if ((cache_type >= 2U) && (cache_type <= 4U))
- {
- __L1C_MaintainDCacheSetWay(i, op);
- }
- }
-}
-
-/** \brief Clean and Invalidate the entire data or unified cache
-* Generic mechanism for cleaning/invalidating the entire data or unified cache to the point of coherency
-* \param [in] op 0 - invalidate, 1 - clean, otherwise - invalidate and clean
-* \deprecated Use generic L1C_CleanInvalidateCache instead.
-*/
-CMSIS_DEPRECATED
-__STATIC_FORCEINLINE void __L1C_CleanInvalidateCache(uint32_t op) {
- L1C_CleanInvalidateCache(op);
-}
-
-/** \brief Invalidate the whole data cache.
-*/
-__STATIC_FORCEINLINE void L1C_InvalidateDCacheAll(void) {
- L1C_CleanInvalidateCache(0);
-}
-
-/** \brief Clean the whole data cache.
- */
-__STATIC_FORCEINLINE void L1C_CleanDCacheAll(void) {
- L1C_CleanInvalidateCache(1);
-}
-
-/** \brief Clean and invalidate the whole data cache.
- */
-__STATIC_FORCEINLINE void L1C_CleanInvalidateDCacheAll(void) {
- L1C_CleanInvalidateCache(2);
-}
-
-/* ########################## L2 Cache functions ################################# */
-#if (__L2C_PRESENT == 1U) || defined(DOXYGEN)
-/** \brief Cache Sync operation by writing CACHE_SYNC register.
-*/
-__STATIC_INLINE void L2C_Sync(void)
-{
- L2C_310->CACHE_SYNC = 0x0;
-}
-
-/** \brief Read cache controller cache ID from CACHE_ID register.
- * \return L2C_310_TypeDef::CACHE_ID
- */
-__STATIC_INLINE int L2C_GetID (void)
-{
- return L2C_310->CACHE_ID;
-}
-
-/** \brief Read cache controller cache type from CACHE_TYPE register.
-* \return L2C_310_TypeDef::CACHE_TYPE
-*/
-__STATIC_INLINE int L2C_GetType (void)
-{
- return L2C_310->CACHE_TYPE;
-}
-
-/** \brief Invalidate all cache by way
-*/
-__STATIC_INLINE void L2C_InvAllByWay (void)
-{
- unsigned int assoc;
-
- if (L2C_310->AUX_CNT & (1U << 16U)) {
- assoc = 16U;
- } else {
- assoc = 8U;
- }
-
- L2C_310->INV_WAY = (1U << assoc) - 1U;
- while(L2C_310->INV_WAY & ((1U << assoc) - 1U)); //poll invalidate
-
- L2C_Sync();
-}
-
-/** \brief Clean and Invalidate all cache by way
-*/
-__STATIC_INLINE void L2C_CleanInvAllByWay (void)
-{
- unsigned int assoc;
-
- if (L2C_310->AUX_CNT & (1U << 16U)) {
- assoc = 16U;
- } else {
- assoc = 8U;
- }
-
- L2C_310->CLEAN_INV_WAY = (1U << assoc) - 1U;
- while(L2C_310->CLEAN_INV_WAY & ((1U << assoc) - 1U)); //poll invalidate
-
- L2C_Sync();
-}
-
-/** \brief Enable Level 2 Cache
-*/
-__STATIC_INLINE void L2C_Enable(void)
-{
- L2C_310->CONTROL = 0;
- L2C_310->INTERRUPT_CLEAR = 0x000001FFuL;
- L2C_310->DEBUG_CONTROL = 0;
- L2C_310->DATA_LOCK_0_WAY = 0;
- L2C_310->CACHE_SYNC = 0;
- L2C_310->CONTROL = 0x01;
- L2C_Sync();
-}
-
-/** \brief Disable Level 2 Cache
-*/
-__STATIC_INLINE void L2C_Disable(void)
-{
- L2C_310->CONTROL = 0x00;
- L2C_Sync();
-}
-
-/** \brief Invalidate cache by physical address
-* \param [in] pa Pointer to data to invalidate cache for.
-*/
-__STATIC_INLINE void L2C_InvPa (void *pa)
-{
- L2C_310->INV_LINE_PA = (unsigned int)pa;
- L2C_Sync();
-}
-
-/** \brief Clean cache by physical address
-* \param [in] pa Pointer to data to invalidate cache for.
-*/
-__STATIC_INLINE void L2C_CleanPa (void *pa)
-{
- L2C_310->CLEAN_LINE_PA = (unsigned int)pa;
- L2C_Sync();
-}
-
-/** \brief Clean and invalidate cache by physical address
-* \param [in] pa Pointer to data to invalidate cache for.
-*/
-__STATIC_INLINE void L2C_CleanInvPa (void *pa)
-{
- L2C_310->CLEAN_INV_LINE_PA = (unsigned int)pa;
- L2C_Sync();
-}
-#endif
-
-/* ########################## GIC functions ###################################### */
-#if (__GIC_PRESENT == 1U) || defined(DOXYGEN)
-
-/** \brief Enable the interrupt distributor using the GIC's CTLR register.
-*/
-__STATIC_INLINE void GIC_EnableDistributor(void)
-{
- GICDistributor->CTLR |= 1U;
-}
-
-/** \brief Disable the interrupt distributor using the GIC's CTLR register.
-*/
-__STATIC_INLINE void GIC_DisableDistributor(void)
-{
- GICDistributor->CTLR &=~1U;
-}
-
-/** \brief Read the GIC's TYPER register.
-* \return GICDistributor_Type::TYPER
-*/
-__STATIC_INLINE uint32_t GIC_DistributorInfo(void)
-{
- return (GICDistributor->TYPER);
-}
-
-/** \brief Reads the GIC's IIDR register.
-* \return GICDistributor_Type::IIDR
-*/
-__STATIC_INLINE uint32_t GIC_DistributorImplementer(void)
-{
- return (GICDistributor->IIDR);
-}
-
-/** \brief Sets the GIC's ITARGETSR register for the given interrupt.
-* \param [in] IRQn Interrupt to be configured.
-* \param [in] cpu_target CPU interfaces to assign this interrupt to.
-*/
-__STATIC_INLINE void GIC_SetTarget(IRQn_Type IRQn, uint32_t cpu_target)
-{
- uint32_t mask = GICDistributor->ITARGETSR[IRQn / 4U] & ~(0xFFUL << ((IRQn % 4U) * 8U));
- GICDistributor->ITARGETSR[IRQn / 4U] = mask | ((cpu_target & 0xFFUL) << ((IRQn % 4U) * 8U));
-}
-
-/** \brief Read the GIC's ITARGETSR register.
-* \param [in] IRQn Interrupt to acquire the configuration for.
-* \return GICDistributor_Type::ITARGETSR
-*/
-__STATIC_INLINE uint32_t GIC_GetTarget(IRQn_Type IRQn)
-{
- return (GICDistributor->ITARGETSR[IRQn / 4U] >> ((IRQn % 4U) * 8U)) & 0xFFUL;
-}
-
-/** \brief Enable the CPU's interrupt interface.
-*/
-__STATIC_INLINE void GIC_EnableInterface(void)
-{
- GICInterface->CTLR |= 1U; //enable interface
-}
-
-/** \brief Disable the CPU's interrupt interface.
-*/
-__STATIC_INLINE void GIC_DisableInterface(void)
-{
- GICInterface->CTLR &=~1U; //disable distributor
-}
-
-/** \brief Read the CPU's IAR register.
-* \return GICInterface_Type::IAR
-*/
-__STATIC_INLINE IRQn_Type GIC_AcknowledgePending(void)
-{
- return (IRQn_Type)(GICInterface->IAR);
-}
-
-/** \brief Writes the given interrupt number to the CPU's EOIR register.
-* \param [in] IRQn The interrupt to be signaled as finished.
-*/
-__STATIC_INLINE void GIC_EndInterrupt(IRQn_Type IRQn)
-{
- GICInterface->EOIR = IRQn;
-}
-
-/** \brief Enables the given interrupt using GIC's ISENABLER register.
-* \param [in] IRQn The interrupt to be enabled.
-*/
-__STATIC_INLINE void GIC_EnableIRQ(IRQn_Type IRQn)
-{
- GICDistributor->ISENABLER[IRQn / 32U] = 1U << (IRQn % 32U);
-}
-
-/** \brief Get interrupt enable status using GIC's ISENABLER register.
-* \param [in] IRQn The interrupt to be queried.
-* \return 0 - interrupt is not enabled, 1 - interrupt is enabled.
-*/
-__STATIC_INLINE uint32_t GIC_GetEnableIRQ(IRQn_Type IRQn)
-{
- return (GICDistributor->ISENABLER[IRQn / 32U] >> (IRQn % 32U)) & 1UL;
-}
-
-/** \brief Disables the given interrupt using GIC's ICENABLER register.
-* \param [in] IRQn The interrupt to be disabled.
-*/
-__STATIC_INLINE void GIC_DisableIRQ(IRQn_Type IRQn)
-{
- GICDistributor->ICENABLER[IRQn / 32U] = 1U << (IRQn % 32U);
-}
-
-/** \brief Get interrupt pending status from GIC's ISPENDR register.
-* \param [in] IRQn The interrupt to be queried.
-* \return 0 - interrupt is not pending, 1 - interrupt is pendig.
-*/
-__STATIC_INLINE uint32_t GIC_GetPendingIRQ(IRQn_Type IRQn)
-{
- uint32_t pend;
-
- if (IRQn >= 16U) {
- pend = (GICDistributor->ISPENDR[IRQn / 32U] >> (IRQn % 32U)) & 1UL;
- } else {
- // INTID 0-15 Software Generated Interrupt
- pend = (GICDistributor->SPENDSGIR[IRQn / 4U] >> ((IRQn % 4U) * 8U)) & 0xFFUL;
- // No CPU identification offered
- if (pend != 0U) {
- pend = 1U;
- } else {
- pend = 0U;
- }
- }
-
- return (pend);
-}
-
-/** \brief Sets the given interrupt as pending using GIC's ISPENDR register.
-* \param [in] IRQn The interrupt to be enabled.
-*/
-__STATIC_INLINE void GIC_SetPendingIRQ(IRQn_Type IRQn)
-{
- if (IRQn >= 16U) {
- GICDistributor->ISPENDR[IRQn / 32U] = 1U << (IRQn % 32U);
- } else {
- // INTID 0-15 Software Generated Interrupt
- GICDistributor->SPENDSGIR[IRQn / 4U] = 1U << ((IRQn % 4U) * 8U);
- }
-}
-
-/** \brief Clears the given interrupt from being pending using GIC's ICPENDR register.
-* \param [in] IRQn The interrupt to be enabled.
-*/
-__STATIC_INLINE void GIC_ClearPendingIRQ(IRQn_Type IRQn)
-{
- if (IRQn >= 16U) {
- GICDistributor->ICPENDR[IRQn / 32U] = 1U << (IRQn % 32U);
- } else {
- // INTID 0-15 Software Generated Interrupt
- GICDistributor->CPENDSGIR[IRQn / 4U] = 1U << ((IRQn % 4U) * 8U);
- }
-}
-
-/** \brief Sets the interrupt configuration using GIC's ICFGR register.
-* \param [in] IRQn The interrupt to be configured.
-* \param [in] int_config Int_config field value. Bit 0: Reserved (0 - N-N model, 1 - 1-N model for some GIC before v1)
-* Bit 1: 0 - level sensitive, 1 - edge triggered
-*/
-__STATIC_INLINE void GIC_SetConfiguration(IRQn_Type IRQn, uint32_t int_config)
-{
- uint32_t icfgr = GICDistributor->ICFGR[IRQn / 16U];
- uint32_t shift = (IRQn % 16U) << 1U;
-
- icfgr &= (~(3U << shift));
- icfgr |= ( int_config << shift);
-
- GICDistributor->ICFGR[IRQn / 16U] = icfgr;
-}
-
-/** \brief Get the interrupt configuration from the GIC's ICFGR register.
-* \param [in] IRQn Interrupt to acquire the configuration for.
-* \return Int_config field value. Bit 0: Reserved (0 - N-N model, 1 - 1-N model for some GIC before v1)
-* Bit 1: 0 - level sensitive, 1 - edge triggered
-*/
-__STATIC_INLINE uint32_t GIC_GetConfiguration(IRQn_Type IRQn)
-{
- return (GICDistributor->ICFGR[IRQn / 16U] >> ((IRQn % 16U) >> 1U));
-}
-
-/** \brief Set the priority for the given interrupt in the GIC's IPRIORITYR register.
-* \param [in] IRQn The interrupt to be configured.
-* \param [in] priority The priority for the interrupt, lower values denote higher priorities.
-*/
-__STATIC_INLINE void GIC_SetPriority(IRQn_Type IRQn, uint32_t priority)
-{
- uint32_t mask = GICDistributor->IPRIORITYR[IRQn / 4U] & ~(0xFFUL << ((IRQn % 4U) * 8U));
- GICDistributor->IPRIORITYR[IRQn / 4U] = mask | ((priority & 0xFFUL) << ((IRQn % 4U) * 8U));
-}
-
-/** \brief Read the current interrupt priority from GIC's IPRIORITYR register.
-* \param [in] IRQn The interrupt to be queried.
-*/
-__STATIC_INLINE uint32_t GIC_GetPriority(IRQn_Type IRQn)
-{
- return (GICDistributor->IPRIORITYR[IRQn / 4U] >> ((IRQn % 4U) * 8U)) & 0xFFUL;
-}
-
-/** \brief Set the interrupt priority mask using CPU's PMR register.
-* \param [in] priority Priority mask to be set.
-*/
-__STATIC_INLINE void GIC_SetInterfacePriorityMask(uint32_t priority)
-{
- GICInterface->PMR = priority & 0xFFUL; //set priority mask
-}
-
-/** \brief Read the current interrupt priority mask from CPU's PMR register.
-* \result GICInterface_Type::PMR
-*/
-__STATIC_INLINE uint32_t GIC_GetInterfacePriorityMask(void)
-{
- return GICInterface->PMR;
-}
-
-/** \brief Configures the group priority and subpriority split point using CPU's BPR register.
-* \param [in] binary_point Amount of bits used as subpriority.
-*/
-__STATIC_INLINE void GIC_SetBinaryPoint(uint32_t binary_point)
-{
- GICInterface->BPR = binary_point & 7U; //set binary point
-}
-
-/** \brief Read the current group priority and subpriority split point from CPU's BPR register.
-* \return GICInterface_Type::BPR
-*/
-__STATIC_INLINE uint32_t GIC_GetBinaryPoint(void)
-{
- return GICInterface->BPR;
-}
-
-/** \brief Get the status for a given interrupt.
-* \param [in] IRQn The interrupt to get status for.
-* \return 0 - not pending/active, 1 - pending, 2 - active, 3 - pending and active
-*/
-__STATIC_INLINE uint32_t GIC_GetIRQStatus(IRQn_Type IRQn)
-{
- uint32_t pending, active;
-
- active = ((GICDistributor->ISACTIVER[IRQn / 32U]) >> (IRQn % 32U)) & 1UL;
- pending = ((GICDistributor->ISPENDR[IRQn / 32U]) >> (IRQn % 32U)) & 1UL;
-
- return ((active<<1U) | pending);
-}
-
-/** \brief Generate a software interrupt using GIC's SGIR register.
-* \param [in] IRQn Software interrupt to be generated.
-* \param [in] target_list List of CPUs the software interrupt should be forwarded to.
-* \param [in] filter_list Filter to be applied to determine interrupt receivers.
-*/
-__STATIC_INLINE void GIC_SendSGI(IRQn_Type IRQn, uint32_t target_list, uint32_t filter_list)
-{
- GICDistributor->SGIR = ((filter_list & 3U) << 24U) | ((target_list & 0xFFUL) << 16U) | (IRQn & 0x0FUL);
-}
-
-/** \brief Get the interrupt number of the highest interrupt pending from CPU's HPPIR register.
-* \return GICInterface_Type::HPPIR
-*/
-__STATIC_INLINE uint32_t GIC_GetHighPendingIRQ(void)
-{
- return GICInterface->HPPIR;
-}
-
-/** \brief Provides information about the implementer and revision of the CPU interface.
-* \return GICInterface_Type::IIDR
-*/
-__STATIC_INLINE uint32_t GIC_GetInterfaceId(void)
-{
- return GICInterface->IIDR;
-}
-
-/** \brief Set the interrupt group from the GIC's IGROUPR register.
-* \param [in] IRQn The interrupt to be queried.
-* \param [in] group Interrupt group number: 0 - Group 0, 1 - Group 1
-*/
-__STATIC_INLINE void GIC_SetGroup(IRQn_Type IRQn, uint32_t group)
-{
- uint32_t igroupr = GICDistributor->IGROUPR[IRQn / 32U];
- uint32_t shift = (IRQn % 32U);
-
- igroupr &= (~(1U << shift));
- igroupr |= ( (group & 1U) << shift);
-
- GICDistributor->IGROUPR[IRQn / 32U] = igroupr;
-}
-#define GIC_SetSecurity GIC_SetGroup
-
-/** \brief Get the interrupt group from the GIC's IGROUPR register.
-* \param [in] IRQn The interrupt to be queried.
-* \return 0 - Group 0, 1 - Group 1
-*/
-__STATIC_INLINE uint32_t GIC_GetGroup(IRQn_Type IRQn)
-{
- return (GICDistributor->IGROUPR[IRQn / 32U] >> (IRQn % 32U)) & 1UL;
-}
-#define GIC_GetSecurity GIC_GetGroup
-
-/** \brief Initialize the interrupt distributor.
-*/
-__STATIC_INLINE void GIC_DistInit(void)
-{
- uint32_t i;
- uint32_t num_irq = 0U;
- uint32_t priority_field;
-
- //A reset sets all bits in the IGROUPRs corresponding to the SPIs to 0,
- //configuring all of the interrupts as Secure.
-
- //Disable interrupt forwarding
- GIC_DisableDistributor();
- //Get the maximum number of interrupts that the GIC supports
- num_irq = 32U * ((GIC_DistributorInfo() & 0x1FU) + 1U);
-
- /* Priority level is implementation defined.
- To determine the number of priority bits implemented write 0xFF to an IPRIORITYR
- priority field and read back the value stored.*/
- GIC_SetPriority((IRQn_Type)0U, 0xFFU);
- priority_field = GIC_GetPriority((IRQn_Type)0U);
-
- for (i = 32U; i < num_irq; i++)
- {
- //Disable the SPI interrupt
- GIC_DisableIRQ((IRQn_Type)i);
- //Set level-sensitive (and N-N model)
- GIC_SetConfiguration((IRQn_Type)i, 0U);
- //Set priority
- GIC_SetPriority((IRQn_Type)i, priority_field/2U);
- //Set target list to CPU0
- GIC_SetTarget((IRQn_Type)i, 1U);
- }
- //Enable distributor
- GIC_EnableDistributor();
-}
-
-/** \brief Initialize the CPU's interrupt interface
-*/
-__STATIC_INLINE void GIC_CPUInterfaceInit(void)
-{
- uint32_t i;
- uint32_t priority_field;
-
- //A reset sets all bits in the IGROUPRs corresponding to the SPIs to 0,
- //configuring all of the interrupts as Secure.
-
- //Disable interrupt forwarding
- GIC_DisableInterface();
-
- /* Priority level is implementation defined.
- To determine the number of priority bits implemented write 0xFF to an IPRIORITYR
- priority field and read back the value stored.*/
- GIC_SetPriority((IRQn_Type)0U, 0xFFU);
- priority_field = GIC_GetPriority((IRQn_Type)0U);
-
- //SGI and PPI
- for (i = 0U; i < 32U; i++)
- {
- if(i > 15U) {
- //Set level-sensitive (and N-N model) for PPI
- GIC_SetConfiguration((IRQn_Type)i, 0U);
- }
- //Disable SGI and PPI interrupts
- GIC_DisableIRQ((IRQn_Type)i);
- //Set priority
- GIC_SetPriority((IRQn_Type)i, priority_field/2U);
- }
- //Enable interface
- GIC_EnableInterface();
- //Set binary point to 0
- GIC_SetBinaryPoint(0U);
- //Set priority mask
- GIC_SetInterfacePriorityMask(0xFFU);
-}
-
-/** \brief Initialize and enable the GIC
-*/
-__STATIC_INLINE void GIC_Enable(void)
-{
- GIC_DistInit();
- GIC_CPUInterfaceInit(); //per CPU
-}
-#endif
-
-/* ########################## Generic Timer functions ############################ */
-#if (__TIM_PRESENT == 1U) || defined(DOXYGEN)
-
-/* PL1 Physical Timer */
-#if (__CORTEX_A == 7U) || defined(DOXYGEN)
-
-/** \brief Physical Timer Control register */
-typedef union
-{
- struct
- {
- uint32_t ENABLE:1; /*!< \brief bit: 0 Enables the timer. */
- uint32_t IMASK:1; /*!< \brief bit: 1 Timer output signal mask bit. */
- uint32_t ISTATUS:1; /*!< \brief bit: 2 The status of the timer. */
- RESERVED(0:29, uint32_t)
- } b; /*!< \brief Structure used for bit access */
- uint32_t w; /*!< \brief Type used for word access */
-} CNTP_CTL_Type;
-
-/** \brief Configures the frequency the timer shall run at.
-* \param [in] value The timer frequency in Hz.
-*/
-__STATIC_INLINE void PL1_SetCounterFrequency(uint32_t value)
-{
- __set_CNTFRQ(value);
- __ISB();
-}
-
-/** \brief Sets the reset value of the timer.
-* \param [in] value The value the timer is loaded with.
-*/
-__STATIC_INLINE void PL1_SetLoadValue(uint32_t value)
-{
- __set_CNTP_TVAL(value);
- __ISB();
-}
-
-/** \brief Get the current counter value.
-* \return Current counter value.
-*/
-__STATIC_INLINE uint32_t PL1_GetCurrentValue(void)
-{
- return(__get_CNTP_TVAL());
-}
-
-/** \brief Get the current physical counter value.
-* \return Current physical counter value.
-*/
-__STATIC_INLINE uint64_t PL1_GetCurrentPhysicalValue(void)
-{
- return(__get_CNTPCT());
-}
-
-/** \brief Set the physical compare value.
-* \param [in] value New physical timer compare value.
-*/
-__STATIC_INLINE void PL1_SetPhysicalCompareValue(uint64_t value)
-{
- __set_CNTP_CVAL(value);
- __ISB();
-}
-
-/** \brief Get the physical compare value.
-* \return Physical compare value.
-*/
-__STATIC_INLINE uint64_t PL1_GetPhysicalCompareValue(void)
-{
- return(__get_CNTP_CVAL());
-}
-
-/** \brief Configure the timer by setting the control value.
-* \param [in] value New timer control value.
-*/
-__STATIC_INLINE void PL1_SetControl(uint32_t value)
-{
- __set_CNTP_CTL(value);
- __ISB();
-}
-
-/** \brief Get the control value.
-* \return Control value.
-*/
-__STATIC_INLINE uint32_t PL1_GetControl(void)
-{
- return(__get_CNTP_CTL());
-}
-#endif
-
-/* Private Timer */
-#if ((__CORTEX_A == 5U) || (__CORTEX_A == 9U)) || defined(DOXYGEN)
-/** \brief Set the load value to timers LOAD register.
-* \param [in] value The load value to be set.
-*/
-__STATIC_INLINE void PTIM_SetLoadValue(uint32_t value)
-{
- PTIM->LOAD = value;
-}
-
-/** \brief Get the load value from timers LOAD register.
-* \return Timer_Type::LOAD
-*/
-__STATIC_INLINE uint32_t PTIM_GetLoadValue(void)
-{
- return(PTIM->LOAD);
-}
-
-/** \brief Set current counter value from its COUNTER register.
-*/
-__STATIC_INLINE void PTIM_SetCurrentValue(uint32_t value)
-{
- PTIM->COUNTER = value;
-}
-
-/** \brief Get current counter value from timers COUNTER register.
-* \result Timer_Type::COUNTER
-*/
-__STATIC_INLINE uint32_t PTIM_GetCurrentValue(void)
-{
- return(PTIM->COUNTER);
-}
-
-/** \brief Configure the timer using its CONTROL register.
-* \param [in] value The new configuration value to be set.
-*/
-__STATIC_INLINE void PTIM_SetControl(uint32_t value)
-{
- PTIM->CONTROL = value;
-}
-
-/** ref Timer_Type::CONTROL Get the current timer configuration from its CONTROL register.
-* \return Timer_Type::CONTROL
-*/
-__STATIC_INLINE uint32_t PTIM_GetControl(void)
-{
- return(PTIM->CONTROL);
-}
-
-/** ref Timer_Type::CONTROL Get the event flag in timers ISR register.
-* \return 0 - flag is not set, 1- flag is set
-*/
-__STATIC_INLINE uint32_t PTIM_GetEventFlag(void)
-{
- return (PTIM->ISR & 1UL);
-}
-
-/** ref Timer_Type::CONTROL Clears the event flag in timers ISR register.
-*/
-__STATIC_INLINE void PTIM_ClearEventFlag(void)
-{
- PTIM->ISR = 1;
-}
-#endif
-#endif
-
-/* ########################## MMU functions ###################################### */
-
-#define SECTION_DESCRIPTOR (0x2)
-#define SECTION_MASK (0xFFFFFFFC)
-
-#define SECTION_TEXCB_MASK (0xFFFF8FF3)
-#define SECTION_B_SHIFT (2)
-#define SECTION_C_SHIFT (3)
-#define SECTION_TEX0_SHIFT (12)
-#define SECTION_TEX1_SHIFT (13)
-#define SECTION_TEX2_SHIFT (14)
-
-#define SECTION_XN_MASK (0xFFFFFFEF)
-#define SECTION_XN_SHIFT (4)
-
-#define SECTION_DOMAIN_MASK (0xFFFFFE1F)
-#define SECTION_DOMAIN_SHIFT (5)
-
-#define SECTION_P_MASK (0xFFFFFDFF)
-#define SECTION_P_SHIFT (9)
-
-#define SECTION_AP_MASK (0xFFFF73FF)
-#define SECTION_AP_SHIFT (10)
-#define SECTION_AP2_SHIFT (15)
-
-#define SECTION_S_MASK (0xFFFEFFFF)
-#define SECTION_S_SHIFT (16)
-
-#define SECTION_NG_MASK (0xFFFDFFFF)
-#define SECTION_NG_SHIFT (17)
-
-#define SECTION_NS_MASK (0xFFF7FFFF)
-#define SECTION_NS_SHIFT (19)
-
-#define PAGE_L1_DESCRIPTOR (0x1)
-#define PAGE_L1_MASK (0xFFFFFFFC)
-
-#define PAGE_L2_4K_DESC (0x2)
-#define PAGE_L2_4K_MASK (0xFFFFFFFD)
-
-#define PAGE_L2_64K_DESC (0x1)
-#define PAGE_L2_64K_MASK (0xFFFFFFFC)
-
-#define PAGE_4K_TEXCB_MASK (0xFFFFFE33)
-#define PAGE_4K_B_SHIFT (2)
-#define PAGE_4K_C_SHIFT (3)
-#define PAGE_4K_TEX0_SHIFT (6)
-#define PAGE_4K_TEX1_SHIFT (7)
-#define PAGE_4K_TEX2_SHIFT (8)
-
-#define PAGE_64K_TEXCB_MASK (0xFFFF8FF3)
-#define PAGE_64K_B_SHIFT (2)
-#define PAGE_64K_C_SHIFT (3)
-#define PAGE_64K_TEX0_SHIFT (12)
-#define PAGE_64K_TEX1_SHIFT (13)
-#define PAGE_64K_TEX2_SHIFT (14)
-
-#define PAGE_TEXCB_MASK (0xFFFF8FF3)
-#define PAGE_B_SHIFT (2)
-#define PAGE_C_SHIFT (3)
-#define PAGE_TEX_SHIFT (12)
-
-#define PAGE_XN_4K_MASK (0xFFFFFFFE)
-#define PAGE_XN_4K_SHIFT (0)
-#define PAGE_XN_64K_MASK (0xFFFF7FFF)
-#define PAGE_XN_64K_SHIFT (15)
-
-#define PAGE_DOMAIN_MASK (0xFFFFFE1F)
-#define PAGE_DOMAIN_SHIFT (5)
-
-#define PAGE_P_MASK (0xFFFFFDFF)
-#define PAGE_P_SHIFT (9)
-
-#define PAGE_AP_MASK (0xFFFFFDCF)
-#define PAGE_AP_SHIFT (4)
-#define PAGE_AP2_SHIFT (9)
-
-#define PAGE_S_MASK (0xFFFFFBFF)
-#define PAGE_S_SHIFT (10)
-
-#define PAGE_NG_MASK (0xFFFFF7FF)
-#define PAGE_NG_SHIFT (11)
-
-#define PAGE_NS_MASK (0xFFFFFFF7)
-#define PAGE_NS_SHIFT (3)
-
-#define OFFSET_1M (0x00100000)
-#define OFFSET_64K (0x00010000)
-#define OFFSET_4K (0x00001000)
-
-#define DESCRIPTOR_FAULT (0x00000000)
-
-/* Attributes enumerations */
-
-/* Region size attributes */
-typedef enum
-{
- SECTION,
- PAGE_4k,
- PAGE_64k,
-} mmu_region_size_Type;
-
-/* Region type attributes */
-typedef enum
-{
- NORMAL,
- DEVICE,
- SHARED_DEVICE,
- NON_SHARED_DEVICE,
- STRONGLY_ORDERED
-} mmu_memory_Type;
-
-/* Region cacheability attributes */
-typedef enum
-{
- NON_CACHEABLE,
- WB_WA,
- WT,
- WB_NO_WA,
-} mmu_cacheability_Type;
-
-/* Region parity check attributes */
-typedef enum
-{
- ECC_DISABLED,
- ECC_ENABLED,
-} mmu_ecc_check_Type;
-
-/* Region execution attributes */
-typedef enum
-{
- EXECUTE,
- NON_EXECUTE,
-} mmu_execute_Type;
-
-/* Region global attributes */
-typedef enum
-{
- GLOBAL,
- NON_GLOBAL,
-} mmu_global_Type;
-
-/* Region shareability attributes */
-typedef enum
-{
- NON_SHARED,
- SHARED,
-} mmu_shared_Type;
-
-/* Region security attributes */
-typedef enum
-{
- SECURE,
- NON_SECURE,
-} mmu_secure_Type;
-
-/* Region access attributes */
-typedef enum
-{
- NO_ACCESS,
- RW,
- READ,
-} mmu_access_Type;
-
-/* Memory Region definition */
-typedef struct RegionStruct {
- mmu_region_size_Type rg_t;
- mmu_memory_Type mem_t;
- uint8_t domain;
- mmu_cacheability_Type inner_norm_t;
- mmu_cacheability_Type outer_norm_t;
- mmu_ecc_check_Type e_t;
- mmu_execute_Type xn_t;
- mmu_global_Type g_t;
- mmu_secure_Type sec_t;
- mmu_access_Type priv_t;
- mmu_access_Type user_t;
- mmu_shared_Type sh_t;
-
-} mmu_region_attributes_Type;
-
-//Following macros define the descriptors and attributes
-//Sect_Normal. Outer & inner wb/wa, non-shareable, executable, rw, domain 0
-#define section_normal(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = WB_WA; \
- region.outer_norm_t = WB_WA; \
- region.mem_t = NORMAL; \
- region.sec_t = SECURE; \
- region.xn_t = EXECUTE; \
- region.priv_t = RW; \
- region.user_t = RW; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-
-//Sect_Normal_NC. Outer & inner non-cacheable, non-shareable, executable, rw, domain 0
-#define section_normal_nc(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = NON_CACHEABLE; \
- region.outer_norm_t = NON_CACHEABLE; \
- region.mem_t = NORMAL; \
- region.sec_t = SECURE; \
- region.xn_t = EXECUTE; \
- region.priv_t = RW; \
- region.user_t = RW; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-
-//Sect_Normal_Cod. Outer & inner wb/wa, non-shareable, executable, ro, domain 0
-#define section_normal_cod(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = WB_WA; \
- region.outer_norm_t = WB_WA; \
- region.mem_t = NORMAL; \
- region.sec_t = SECURE; \
- region.xn_t = EXECUTE; \
- region.priv_t = READ; \
- region.user_t = READ; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-
-//Sect_Normal_RO. Sect_Normal_Cod, but not executable
-#define section_normal_ro(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = WB_WA; \
- region.outer_norm_t = WB_WA; \
- region.mem_t = NORMAL; \
- region.sec_t = SECURE; \
- region.xn_t = NON_EXECUTE; \
- region.priv_t = READ; \
- region.user_t = READ; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-
-//Sect_Normal_RW. Sect_Normal_Cod, but writeable and not executable
-#define section_normal_rw(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = WB_WA; \
- region.outer_norm_t = WB_WA; \
- region.mem_t = NORMAL; \
- region.sec_t = SECURE; \
- region.xn_t = NON_EXECUTE; \
- region.priv_t = RW; \
- region.user_t = RW; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-//Sect_SO. Strongly-ordered (therefore shareable), not executable, rw, domain 0, base addr 0
-#define section_so(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = NON_CACHEABLE; \
- region.outer_norm_t = NON_CACHEABLE; \
- region.mem_t = STRONGLY_ORDERED; \
- region.sec_t = SECURE; \
- region.xn_t = NON_EXECUTE; \
- region.priv_t = RW; \
- region.user_t = RW; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-
-//Sect_Device_RO. Device, non-shareable, non-executable, ro, domain 0, base addr 0
-#define section_device_ro(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = NON_CACHEABLE; \
- region.outer_norm_t = NON_CACHEABLE; \
- region.mem_t = STRONGLY_ORDERED; \
- region.sec_t = SECURE; \
- region.xn_t = NON_EXECUTE; \
- region.priv_t = READ; \
- region.user_t = READ; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-
-//Sect_Device_RW. Sect_Device_RO, but writeable
-#define section_device_rw(descriptor_l1, region) region.rg_t = SECTION; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = NON_CACHEABLE; \
- region.outer_norm_t = NON_CACHEABLE; \
- region.mem_t = STRONGLY_ORDERED; \
- region.sec_t = SECURE; \
- region.xn_t = NON_EXECUTE; \
- region.priv_t = RW; \
- region.user_t = RW; \
- region.sh_t = NON_SHARED; \
- MMU_GetSectionDescriptor(&descriptor_l1, region);
-//Page_4k_Device_RW. Shared device, not executable, rw, domain 0
-#define page4k_device_rw(descriptor_l1, descriptor_l2, region) region.rg_t = PAGE_4k; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = NON_CACHEABLE; \
- region.outer_norm_t = NON_CACHEABLE; \
- region.mem_t = SHARED_DEVICE; \
- region.sec_t = SECURE; \
- region.xn_t = NON_EXECUTE; \
- region.priv_t = RW; \
- region.user_t = RW; \
- region.sh_t = NON_SHARED; \
- MMU_GetPageDescriptor(&descriptor_l1, &descriptor_l2, region);
-
-//Page_64k_Device_RW. Shared device, not executable, rw, domain 0
-#define page64k_device_rw(descriptor_l1, descriptor_l2, region) region.rg_t = PAGE_64k; \
- region.domain = 0x0; \
- region.e_t = ECC_DISABLED; \
- region.g_t = GLOBAL; \
- region.inner_norm_t = NON_CACHEABLE; \
- region.outer_norm_t = NON_CACHEABLE; \
- region.mem_t = SHARED_DEVICE; \
- region.sec_t = SECURE; \
- region.xn_t = NON_EXECUTE; \
- region.priv_t = RW; \
- region.user_t = RW; \
- region.sh_t = NON_SHARED; \
- MMU_GetPageDescriptor(&descriptor_l1, &descriptor_l2, region);
-
-/** \brief Set section execution-never attribute
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] xn Section execution-never attribute : EXECUTE , NON_EXECUTE.
-
- \return 0
-*/
-__STATIC_INLINE int MMU_XNSection(uint32_t *descriptor_l1, mmu_execute_Type xn)
-{
- *descriptor_l1 &= SECTION_XN_MASK;
- *descriptor_l1 |= ((xn & 0x1) << SECTION_XN_SHIFT);
- return 0;
-}
-
-/** \brief Set section domain
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] domain Section domain
-
- \return 0
-*/
-__STATIC_INLINE int MMU_DomainSection(uint32_t *descriptor_l1, uint8_t domain)
-{
- *descriptor_l1 &= SECTION_DOMAIN_MASK;
- *descriptor_l1 |= ((domain & 0xF) << SECTION_DOMAIN_SHIFT);
- return 0;
-}
-
-/** \brief Set section parity check
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] p_bit Parity check: ECC_DISABLED, ECC_ENABLED
-
- \return 0
-*/
-__STATIC_INLINE int MMU_PSection(uint32_t *descriptor_l1, mmu_ecc_check_Type p_bit)
-{
- *descriptor_l1 &= SECTION_P_MASK;
- *descriptor_l1 |= ((p_bit & 0x1) << SECTION_P_SHIFT);
- return 0;
-}
-
-/** \brief Set section access privileges
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] user User Level Access: NO_ACCESS, RW, READ
- \param [in] priv Privilege Level Access: NO_ACCESS, RW, READ
- \param [in] afe Access flag enable
-
- \return 0
-*/
-__STATIC_INLINE int MMU_APSection(uint32_t *descriptor_l1, mmu_access_Type user, mmu_access_Type priv, uint32_t afe)
-{
- uint32_t ap = 0;
-
- if (afe == 0) { //full access
- if ((priv == NO_ACCESS) && (user == NO_ACCESS)) { ap = 0x0; }
- else if ((priv == RW) && (user == NO_ACCESS)) { ap = 0x1; }
- else if ((priv == RW) && (user == READ)) { ap = 0x2; }
- else if ((priv == RW) && (user == RW)) { ap = 0x3; }
- else if ((priv == READ) && (user == NO_ACCESS)) { ap = 0x5; }
- else if ((priv == READ) && (user == READ)) { ap = 0x7; }
- }
-
- else { //Simplified access
- if ((priv == RW) && (user == NO_ACCESS)) { ap = 0x1; }
- else if ((priv == RW) && (user == RW)) { ap = 0x3; }
- else if ((priv == READ) && (user == NO_ACCESS)) { ap = 0x5; }
- else if ((priv == READ) && (user == READ)) { ap = 0x7; }
- }
-
- *descriptor_l1 &= SECTION_AP_MASK;
- *descriptor_l1 |= (ap & 0x3) << SECTION_AP_SHIFT;
- *descriptor_l1 |= ((ap & 0x4)>>2) << SECTION_AP2_SHIFT;
-
- return 0;
-}
-
-/** \brief Set section shareability
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] s_bit Section shareability: NON_SHARED, SHARED
-
- \return 0
-*/
-__STATIC_INLINE int MMU_SharedSection(uint32_t *descriptor_l1, mmu_shared_Type s_bit)
-{
- *descriptor_l1 &= SECTION_S_MASK;
- *descriptor_l1 |= ((s_bit & 0x1) << SECTION_S_SHIFT);
- return 0;
-}
-
-/** \brief Set section Global attribute
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] g_bit Section attribute: GLOBAL, NON_GLOBAL
-
- \return 0
-*/
-__STATIC_INLINE int MMU_GlobalSection(uint32_t *descriptor_l1, mmu_global_Type g_bit)
-{
- *descriptor_l1 &= SECTION_NG_MASK;
- *descriptor_l1 |= ((g_bit & 0x1) << SECTION_NG_SHIFT);
- return 0;
-}
-
-/** \brief Set section Security attribute
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] s_bit Section Security attribute: SECURE, NON_SECURE
-
- \return 0
-*/
-__STATIC_INLINE int MMU_SecureSection(uint32_t *descriptor_l1, mmu_secure_Type s_bit)
-{
- *descriptor_l1 &= SECTION_NS_MASK;
- *descriptor_l1 |= ((s_bit & 0x1) << SECTION_NS_SHIFT);
- return 0;
-}
-
-/* Page 4k or 64k */
-/** \brief Set 4k/64k page execution-never attribute
-
- \param [out] descriptor_l2 L2 descriptor.
- \param [in] xn Page execution-never attribute : EXECUTE , NON_EXECUTE.
- \param [in] page Page size: PAGE_4k, PAGE_64k,
-
- \return 0
-*/
-__STATIC_INLINE int MMU_XNPage(uint32_t *descriptor_l2, mmu_execute_Type xn, mmu_region_size_Type page)
-{
- if (page == PAGE_4k)
- {
- *descriptor_l2 &= PAGE_XN_4K_MASK;
- *descriptor_l2 |= ((xn & 0x1) << PAGE_XN_4K_SHIFT);
- }
- else
- {
- *descriptor_l2 &= PAGE_XN_64K_MASK;
- *descriptor_l2 |= ((xn & 0x1) << PAGE_XN_64K_SHIFT);
- }
- return 0;
-}
-
-/** \brief Set 4k/64k page domain
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] domain Page domain
-
- \return 0
-*/
-__STATIC_INLINE int MMU_DomainPage(uint32_t *descriptor_l1, uint8_t domain)
-{
- *descriptor_l1 &= PAGE_DOMAIN_MASK;
- *descriptor_l1 |= ((domain & 0xf) << PAGE_DOMAIN_SHIFT);
- return 0;
-}
-
-/** \brief Set 4k/64k page parity check
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] p_bit Parity check: ECC_DISABLED, ECC_ENABLED
-
- \return 0
-*/
-__STATIC_INLINE int MMU_PPage(uint32_t *descriptor_l1, mmu_ecc_check_Type p_bit)
-{
- *descriptor_l1 &= SECTION_P_MASK;
- *descriptor_l1 |= ((p_bit & 0x1) << SECTION_P_SHIFT);
- return 0;
-}
-
-/** \brief Set 4k/64k page access privileges
-
- \param [out] descriptor_l2 L2 descriptor.
- \param [in] user User Level Access: NO_ACCESS, RW, READ
- \param [in] priv Privilege Level Access: NO_ACCESS, RW, READ
- \param [in] afe Access flag enable
-
- \return 0
-*/
-__STATIC_INLINE int MMU_APPage(uint32_t *descriptor_l2, mmu_access_Type user, mmu_access_Type priv, uint32_t afe)
-{
- uint32_t ap = 0;
-
- if (afe == 0) { //full access
- if ((priv == NO_ACCESS) && (user == NO_ACCESS)) { ap = 0x0; }
- else if ((priv == RW) && (user == NO_ACCESS)) { ap = 0x1; }
- else if ((priv == RW) && (user == READ)) { ap = 0x2; }
- else if ((priv == RW) && (user == RW)) { ap = 0x3; }
- else if ((priv == READ) && (user == NO_ACCESS)) { ap = 0x5; }
- else if ((priv == READ) && (user == READ)) { ap = 0x6; }
- }
-
- else { //Simplified access
- if ((priv == RW) && (user == NO_ACCESS)) { ap = 0x1; }
- else if ((priv == RW) && (user == RW)) { ap = 0x3; }
- else if ((priv == READ) && (user == NO_ACCESS)) { ap = 0x5; }
- else if ((priv == READ) && (user == READ)) { ap = 0x7; }
- }
-
- *descriptor_l2 &= PAGE_AP_MASK;
- *descriptor_l2 |= (ap & 0x3) << PAGE_AP_SHIFT;
- *descriptor_l2 |= ((ap & 0x4)>>2) << PAGE_AP2_SHIFT;
-
- return 0;
-}
-
-/** \brief Set 4k/64k page shareability
-
- \param [out] descriptor_l2 L2 descriptor.
- \param [in] s_bit 4k/64k page shareability: NON_SHARED, SHARED
-
- \return 0
-*/
-__STATIC_INLINE int MMU_SharedPage(uint32_t *descriptor_l2, mmu_shared_Type s_bit)
-{
- *descriptor_l2 &= PAGE_S_MASK;
- *descriptor_l2 |= ((s_bit & 0x1) << PAGE_S_SHIFT);
- return 0;
-}
-
-/** \brief Set 4k/64k page Global attribute
-
- \param [out] descriptor_l2 L2 descriptor.
- \param [in] g_bit 4k/64k page attribute: GLOBAL, NON_GLOBAL
-
- \return 0
-*/
-__STATIC_INLINE int MMU_GlobalPage(uint32_t *descriptor_l2, mmu_global_Type g_bit)
-{
- *descriptor_l2 &= PAGE_NG_MASK;
- *descriptor_l2 |= ((g_bit & 0x1) << PAGE_NG_SHIFT);
- return 0;
-}
-
-/** \brief Set 4k/64k page Security attribute
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] s_bit 4k/64k page Security attribute: SECURE, NON_SECURE
-
- \return 0
-*/
-__STATIC_INLINE int MMU_SecurePage(uint32_t *descriptor_l1, mmu_secure_Type s_bit)
-{
- *descriptor_l1 &= PAGE_NS_MASK;
- *descriptor_l1 |= ((s_bit & 0x1) << PAGE_NS_SHIFT);
- return 0;
-}
-
-/** \brief Set Section memory attributes
-
- \param [out] descriptor_l1 L1 descriptor.
- \param [in] mem Section memory type: NORMAL, DEVICE, SHARED_DEVICE, NON_SHARED_DEVICE, STRONGLY_ORDERED
- \param [in] outer Outer cacheability: NON_CACHEABLE, WB_WA, WT, WB_NO_WA,
- \param [in] inner Inner cacheability: NON_CACHEABLE, WB_WA, WT, WB_NO_WA,
-
- \return 0
-*/
-__STATIC_INLINE int MMU_MemorySection(uint32_t *descriptor_l1, mmu_memory_Type mem, mmu_cacheability_Type outer, mmu_cacheability_Type inner)
-{
- *descriptor_l1 &= SECTION_TEXCB_MASK;
-
- if (STRONGLY_ORDERED == mem)
- {
- return 0;
- }
- else if (SHARED_DEVICE == mem)
- {
- *descriptor_l1 |= (1 << SECTION_B_SHIFT);
- }
- else if (NON_SHARED_DEVICE == mem)
- {
- *descriptor_l1 |= (1 << SECTION_TEX1_SHIFT);
- }
- else if (NORMAL == mem)
- {
- *descriptor_l1 |= 1 << SECTION_TEX2_SHIFT;
- switch(inner)
- {
- case NON_CACHEABLE:
- break;
- case WB_WA:
- *descriptor_l1 |= (1 << SECTION_B_SHIFT);
- break;
- case WT:
- *descriptor_l1 |= 1 << SECTION_C_SHIFT;
- break;
- case WB_NO_WA:
- *descriptor_l1 |= (1 << SECTION_B_SHIFT) | (1 << SECTION_C_SHIFT);
- break;
- }
- switch(outer)
- {
- case NON_CACHEABLE:
- break;
- case WB_WA:
- *descriptor_l1 |= (1 << SECTION_TEX0_SHIFT);
- break;
- case WT:
- *descriptor_l1 |= 1 << SECTION_TEX1_SHIFT;
- break;
- case WB_NO_WA:
- *descriptor_l1 |= (1 << SECTION_TEX0_SHIFT) | (1 << SECTION_TEX0_SHIFT);
- break;
- }
- }
- return 0;
-}
-
-/** \brief Set 4k/64k page memory attributes
-
- \param [out] descriptor_l2 L2 descriptor.
- \param [in] mem 4k/64k page memory type: NORMAL, DEVICE, SHARED_DEVICE, NON_SHARED_DEVICE, STRONGLY_ORDERED
- \param [in] outer Outer cacheability: NON_CACHEABLE, WB_WA, WT, WB_NO_WA,
- \param [in] inner Inner cacheability: NON_CACHEABLE, WB_WA, WT, WB_NO_WA,
- \param [in] page Page size
-
- \return 0
-*/
-__STATIC_INLINE int MMU_MemoryPage(uint32_t *descriptor_l2, mmu_memory_Type mem, mmu_cacheability_Type outer, mmu_cacheability_Type inner, mmu_region_size_Type page)
-{
- *descriptor_l2 &= PAGE_4K_TEXCB_MASK;
-
- if (page == PAGE_64k)
- {
- //same as section
- MMU_MemorySection(descriptor_l2, mem, outer, inner);
- }
- else
- {
- if (STRONGLY_ORDERED == mem)
- {
- return 0;
- }
- else if (SHARED_DEVICE == mem)
- {
- *descriptor_l2 |= (1 << PAGE_4K_B_SHIFT);
- }
- else if (NON_SHARED_DEVICE == mem)
- {
- *descriptor_l2 |= (1 << PAGE_4K_TEX1_SHIFT);
- }
- else if (NORMAL == mem)
- {
- *descriptor_l2 |= 1 << PAGE_4K_TEX2_SHIFT;
- switch(inner)
- {
- case NON_CACHEABLE:
- break;
- case WB_WA:
- *descriptor_l2 |= (1 << PAGE_4K_B_SHIFT);
- break;
- case WT:
- *descriptor_l2 |= 1 << PAGE_4K_C_SHIFT;
- break;
- case WB_NO_WA:
- *descriptor_l2 |= (1 << PAGE_4K_B_SHIFT) | (1 << PAGE_4K_C_SHIFT);
- break;
- }
- switch(outer)
- {
- case NON_CACHEABLE:
- break;
- case WB_WA:
- *descriptor_l2 |= (1 << PAGE_4K_TEX0_SHIFT);
- break;
- case WT:
- *descriptor_l2 |= 1 << PAGE_4K_TEX1_SHIFT;
- break;
- case WB_NO_WA:
- *descriptor_l2 |= (1 << PAGE_4K_TEX0_SHIFT) | (1 << PAGE_4K_TEX0_SHIFT);
- break;
- }
- }
- }
-
- return 0;
-}
-
-/** \brief Create a L1 section descriptor
-
- \param [out] descriptor L1 descriptor
- \param [in] reg Section attributes
-
- \return 0
-*/
-__STATIC_INLINE int MMU_GetSectionDescriptor(uint32_t *descriptor, mmu_region_attributes_Type reg)
-{
- *descriptor = 0;
-
- MMU_MemorySection(descriptor, reg.mem_t, reg.outer_norm_t, reg.inner_norm_t);
- MMU_XNSection(descriptor,reg.xn_t);
- MMU_DomainSection(descriptor, reg.domain);
- MMU_PSection(descriptor, reg.e_t);
- MMU_APSection(descriptor, reg.priv_t, reg.user_t, 1);
- MMU_SharedSection(descriptor,reg.sh_t);
- MMU_GlobalSection(descriptor,reg.g_t);
- MMU_SecureSection(descriptor,reg.sec_t);
- *descriptor &= SECTION_MASK;
- *descriptor |= SECTION_DESCRIPTOR;
-
- return 0;
-}
-
-
-/** \brief Create a L1 and L2 4k/64k page descriptor
-
- \param [out] descriptor L1 descriptor
- \param [out] descriptor2 L2 descriptor
- \param [in] reg 4k/64k page attributes
-
- \return 0
-*/
-__STATIC_INLINE int MMU_GetPageDescriptor(uint32_t *descriptor, uint32_t *descriptor2, mmu_region_attributes_Type reg)
-{
- *descriptor = 0;
- *descriptor2 = 0;
-
- switch (reg.rg_t)
- {
- case PAGE_4k:
- MMU_MemoryPage(descriptor2, reg.mem_t, reg.outer_norm_t, reg.inner_norm_t, PAGE_4k);
- MMU_XNPage(descriptor2, reg.xn_t, PAGE_4k);
- MMU_DomainPage(descriptor, reg.domain);
- MMU_PPage(descriptor, reg.e_t);
- MMU_APPage(descriptor2, reg.priv_t, reg.user_t, 1);
- MMU_SharedPage(descriptor2,reg.sh_t);
- MMU_GlobalPage(descriptor2,reg.g_t);
- MMU_SecurePage(descriptor,reg.sec_t);
- *descriptor &= PAGE_L1_MASK;
- *descriptor |= PAGE_L1_DESCRIPTOR;
- *descriptor2 &= PAGE_L2_4K_MASK;
- *descriptor2 |= PAGE_L2_4K_DESC;
- break;
-
- case PAGE_64k:
- MMU_MemoryPage(descriptor2, reg.mem_t, reg.outer_norm_t, reg.inner_norm_t, PAGE_64k);
- MMU_XNPage(descriptor2, reg.xn_t, PAGE_64k);
- MMU_DomainPage(descriptor, reg.domain);
- MMU_PPage(descriptor, reg.e_t);
- MMU_APPage(descriptor2, reg.priv_t, reg.user_t, 1);
- MMU_SharedPage(descriptor2,reg.sh_t);
- MMU_GlobalPage(descriptor2,reg.g_t);
- MMU_SecurePage(descriptor,reg.sec_t);
- *descriptor &= PAGE_L1_MASK;
- *descriptor |= PAGE_L1_DESCRIPTOR;
- *descriptor2 &= PAGE_L2_64K_MASK;
- *descriptor2 |= PAGE_L2_64K_DESC;
- break;
-
- case SECTION:
- //error
- break;
- }
-
- return 0;
-}
-
-/** \brief Create a 1MB Section
-
- \param [in] ttb Translation table base address
- \param [in] base_address Section base address
- \param [in] count Number of sections to create
- \param [in] descriptor_l1 L1 descriptor (region attributes)
-
-*/
-__STATIC_INLINE void MMU_TTSection(uint32_t *ttb, uint32_t base_address, uint32_t count, uint32_t descriptor_l1)
-{
- uint32_t offset;
- uint32_t entry;
- uint32_t i;
-
- offset = base_address >> 20;
- entry = (base_address & 0xFFF00000) | descriptor_l1;
-
- //4 bytes aligned
- ttb = ttb + offset;
-
- for (i = 0; i < count; i++ )
- {
- //4 bytes aligned
- *ttb++ = entry;
- entry += OFFSET_1M;
- }
-}
-
-/** \brief Create a 4k page entry
-
- \param [in] ttb L1 table base address
- \param [in] base_address 4k base address
- \param [in] count Number of 4k pages to create
- \param [in] descriptor_l1 L1 descriptor (region attributes)
- \param [in] ttb_l2 L2 table base address
- \param [in] descriptor_l2 L2 descriptor (region attributes)
-
-*/
-__STATIC_INLINE void MMU_TTPage4k(uint32_t *ttb, uint32_t base_address, uint32_t count, uint32_t descriptor_l1, uint32_t *ttb_l2, uint32_t descriptor_l2 )
-{
-
- uint32_t offset, offset2;
- uint32_t entry, entry2;
- uint32_t i;
-
- offset = base_address >> 20;
- entry = ((int)ttb_l2 & 0xFFFFFC00) | descriptor_l1;
-
- //4 bytes aligned
- ttb += offset;
- //create l1_entry
- *ttb = entry;
-
- offset2 = (base_address & 0xff000) >> 12;
- ttb_l2 += offset2;
- entry2 = (base_address & 0xFFFFF000) | descriptor_l2;
- for (i = 0; i < count; i++ )
- {
- //4 bytes aligned
- *ttb_l2++ = entry2;
- entry2 += OFFSET_4K;
- }
-}
-
-/** \brief Create a 64k page entry
-
- \param [in] ttb L1 table base address
- \param [in] base_address 64k base address
- \param [in] count Number of 64k pages to create
- \param [in] descriptor_l1 L1 descriptor (region attributes)
- \param [in] ttb_l2 L2 table base address
- \param [in] descriptor_l2 L2 descriptor (region attributes)
-
-*/
-__STATIC_INLINE void MMU_TTPage64k(uint32_t *ttb, uint32_t base_address, uint32_t count, uint32_t descriptor_l1, uint32_t *ttb_l2, uint32_t descriptor_l2 )
-{
- uint32_t offset, offset2;
- uint32_t entry, entry2;
- uint32_t i,j;
-
-
- offset = base_address >> 20;
- entry = ((int)ttb_l2 & 0xFFFFFC00) | descriptor_l1;
-
- //4 bytes aligned
- ttb += offset;
- //create l1_entry
- *ttb = entry;
-
- offset2 = (base_address & 0xff000) >> 12;
- ttb_l2 += offset2;
- entry2 = (base_address & 0xFFFF0000) | descriptor_l2;
- for (i = 0; i < count; i++ )
- {
- //create 16 entries
- for (j = 0; j < 16; j++)
- {
- //4 bytes aligned
- *ttb_l2++ = entry2;
- }
- entry2 += OFFSET_64K;
- }
-}
-
-/** \brief Enable MMU
-*/
-__STATIC_INLINE void MMU_Enable(void)
-{
- // Set M bit 0 to enable the MMU
- // Set AFE bit to enable simplified access permissions model
- // Clear TRE bit to disable TEX remap and A bit to disable strict alignment fault checking
- __set_SCTLR( (__get_SCTLR() & ~(1 << 28) & ~(1 << 1)) | 1 | (1 << 29));
- __ISB();
-}
-
-/** \brief Disable MMU
-*/
-__STATIC_INLINE void MMU_Disable(void)
-{
- // Clear M bit 0 to disable the MMU
- __set_SCTLR( __get_SCTLR() & ~1);
- __ISB();
-}
-
-/** \brief Invalidate entire unified TLB
-*/
-
-__STATIC_INLINE void MMU_InvalidateTLB(void)
-{
- __set_TLBIALL(0);
- __DSB(); //ensure completion of the invalidation
- __ISB(); //ensure instruction fetch path sees new state
-}
-
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif /* __CORE_CA_H_DEPENDANT */
-
-#endif /* __CMSIS_GENERIC */
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