rt-thread-official/bsp/nuvoton/libraries/m2354/StdDriver/inc/nu_partition_M2354.h

698 lines
18 KiB
C

/**************************************************************************//**
* @file nu_partition_M2354.h
* @version V3.00
* @brief TrustZone partition file
*
* @copyright SPDX-License-Identifier: Apache-2.0
* @copyright Copyright (C) 2020 Nuvoton Technology Corp. All rights reserved.
******************************************************************************/
#ifndef PARTITION_M2354
#define PARTITION_M2354
#if defined (__ARM_FEATURE_CMSE) && (__ARM_FEATURE_CMSE == 3U)
/*
Default M2354 pritition configuration file is for non-TrustZone sample code only.
If user wants to use TrurstZone, they should have their partition_m2354.h.
For TrustZone projects, path of local partition_m2354.h should be in the
front of the include path list to make sure local partition_m2354.h is used.
It also apply to non-secure project of the TrustZone projects.
*/
# error "Link to default nu_partition_M2354.h in secure mode. Please check your include path."
#endif
/*
//-------- <<< Use Configuration Wizard in Context Menu >>> -----------------
*/
/*
SRAMNSSET
*/
/*
// Bit 0..18
// <o.0..18> Secure SRAM Size <0=> 0 KB
// <0x4000=> 16KB
// <0x8000=> 32KB
// <0xc000=> 48KB
// <0x10000=> 64KB
// <0x14000=> 80KB
// <0x18000=> 96KB
// <0x1C000=> 112KB
// <0x20000=> 128KB
// <0x24000=> 144KB
// <0x28000=> 160KB
// <0x2C000=> 176KB
// <0x30000=> 192KB
// <0x34000=> 208KB
// <0x38000=> 224KB
// <0x3C000=> 240KB
// <0x40000=> 256KB
*/
#define SCU_SECURE_SRAM_SIZE 0x18000
#define NON_SECURE_SRAM_BASE (0x30000000 + SCU_SECURE_SRAM_SIZE)
/*--------------------------------------------------------------------------------------------------------*/
/*
NSBA
*/
#define FMC_INIT_NSBA 1
/*
// <o>Secure Flash ROM Size <0x800-0x80000:0x800>
*/
#define FMC_SECURE_ROM_SIZE 0x80000
#define FMC_NON_SECURE_BASE (0x10000000 + FMC_SECURE_ROM_SIZE)
/*--------------------------------------------------------------------------------------------------------*/
/*
// <h> Peripheral Secure Attribution Configuration
*/
/*
PNSSET0
*/
/*
// Module 0..31
// <o.9> USBH <0=> Secure <1=> Non-Secure
// <o.13> SD0 <0=> Secure <1=> Non-Secure
// <o.16> EBI <0=> Secure <1=> Non-Secure
// <o.24> PDMA1 <0=> Secure <1=> Non-Secure
*/
#define SCU_INIT_PNSSET0_VAL 0x0
/*
PNSSET1
*/
/*
// Module 0..31
// <o.17> CRC <0=> Secure <1=> Non-Secure
// <o.18> CRPT <0=> Secure <1=> Non-Secure
*/
#define SCU_INIT_PNSSET1_VAL 0x00000
/*
PNSSET2
*/
/*
// Module 0..31
// <o.2> EWDT <0=> Secure <1=> Non-Secure
// <o.3> EADC <0=> Secure <1=> Non-Secure
// <o.5> ACMP01 <0=> Secure <1=> Non-Secure
//
// <o.7> DAC <0=> Secure <1=> Non-Secure
// <o.8> I2S0 <0=> Secure <1=> Non-Secure
// <o.13> OTG <0=> Secure <1=> Non-Secure
// <h> TIMER
// <o.17> TMR23 <0=> Secure <1=> Non-Secure
// <o.18> TMR45 <0=> Secure <1=> Non-Secure
// <h> EPWM
// <o.24> EPWM0 <0=> Secure <1=> Non-Secure
// <o.25> EPWM1 <0=> Secure <1=> Non-Secure
// </h>
// <h> BPWM
// <o.26> BPWM0 <0=> Secure <1=> Non-Secure
// <o.27> BPWM1 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_PNSSET2_VAL 0x0
/*
PNSSET3
*/
/*
// Module 0..31
// <h> SPI
// <o.0> QSPI0 <0=> Secure <1=> Non-Secure
// <o.1> SPI0 <0=> Secure <1=> Non-Secure
// <o.2> SPI1 <0=> Secure <1=> Non-Secure
// <o.3> SPI2 <0=> Secure <1=> Non-Secure
// <o.4> SPI3 <0=> Secure <1=> Non-Secure
// </h>
// <h> UART
// <o.16> UART0 <0=> Secure <1=> Non-Secure
// <o.17> UART1 <0=> Secure <1=> Non-Secure
// <o.18> UART2 <0=> Secure <1=> Non-Secure
// <o.19> UART3 <0=> Secure <1=> Non-Secure
// <o.20> UART4 <0=> Secure <1=> Non-Secure
// <o.21> UART5 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_PNSSET3_VAL 0x00000
/*
PNSSET4
*/
/*
// Module 0..31
// <h> I2C
// <o.0> I2C0 <0=> Secure <1=> Non-Secure
// <o.1> I2C1 <0=> Secure <1=> Non-Secure
// <o.2> I2C2 <0=> Secure <1=> Non-Secure
// </h>
// <h> Smart Card
// <o.16> SC0 <0=> Secure <1=> Non-Secure
// <o.17> SC1 <0=> Secure <1=> Non-Secure
// <o.18> SC2 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_PNSSET4_VAL 0x0
/*
PNSSET5
*/
/*
// Module 0..31
// <o.0> CAN0 <0=> Secure <1=> Non-Secure
// <h> QEI
// <o.16> QEI0 <0=> Secure <1=> Non-Secure
// <o.17> QEI1 <0=> Secure <1=> Non-Secure
// </h>
// <h> ECAP
// <o.20> ECAP0 <0=> Secure <1=> Non-Secure
// <o.21> ECAP1 <0=> Secure <1=> Non-Secure
// </h>
// <o.25> TRNG <0=> Secure <1=> Non-Secure
// <o.27> LCD <0=> Secure <1=> Non-Secure
*/
#define SCU_INIT_PNSSET5_VAL 0x0
/*
PNSSET6
*/
/*
// Module 0..31
// <o.0> USBD <0=> Secure <1=> Non-Secure
// <h> USCI
// <o.16> USCI0 <0=> Secure <1=> Non-Secure
// <o.17> USCI1 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_PNSSET6_VAL 0x0
/*
// </h>
*/
/*
// <h> GPIO Secure Attribution Configuration
*/
/*
IONSSET
*/
/*
// Bit 0..31
// <h> PA
// <o.0> PA0 <0=> Secure <1=> Non-Secure
// <o.1> PA1 <0=> Secure <1=> Non-Secure
// <o.2> PA2 <0=> Secure <1=> Non-Secure
// <o.3> PA3 <0=> Secure <1=> Non-Secure
// <o.4> PA4 <0=> Secure <1=> Non-Secure
// <o.5> PA5 <0=> Secure <1=> Non-Secure
// <o.6> PA6 <0=> Secure <1=> Non-Secure
// <o.7> PA7 <0=> Secure <1=> Non-Secure
// <o.8> PA8 <0=> Secure <1=> Non-Secure
// <o.7> PA9 <0=> Secure <1=> Non-Secure
// <o.10> PA10 <0=> Secure <1=> Non-Secure
// <o.11> PA11 <0=> Secure <1=> Non-Secure
// <o.12> PA12 <0=> Secure <1=> Non-Secure
// <o.13> PA13 <0=> Secure <1=> Non-Secure
// <o.14> PA14 <0=> Secure <1=> Non-Secure
// <o.15> PA15 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET0_VAL 0x00000000
/*
// Bit 0..31
// <h> PB
// <o.0> PB0 <0=> Secure <1=> Non-Secure
// <o.1> PB1 <0=> Secure <1=> Non-Secure
// <o.2> PB2 <0=> Secure <1=> Non-Secure
// <o.3> PB3 <0=> Secure <1=> Non-Secure
// <o.4> PB4 <0=> Secure <1=> Non-Secure
// <o.5> PB5 <0=> Secure <1=> Non-Secure
// <o.6> PB6 <0=> Secure <1=> Non-Secure
// <o.7> PB7 <0=> Secure <1=> Non-Secure
// <o.8> PB8 <0=> Secure <1=> Non-Secure
// <o.9> PB9 <0=> Secure <1=> Non-Secure
// <o.10> PB10 <0=> Secure <1=> Non-Secure
// <o.11> PB11 <0=> Secure <1=> Non-Secure
// <o.12> PB12 <0=> Secure <1=> Non-Secure
// <o.13> PB13 <0=> Secure <1=> Non-Secure
// <o.14> PB14 <0=> Secure <1=> Non-Secure
// <o.15> PB15 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET1_VAL 0x00000000
/*
// Bit 0..31
// <h> PC
// <o.0> PC0 <0=> Secure <1=> Non-Secure
// <o.1> PC1 <0=> Secure <1=> Non-Secure
// <o.2> PC2 <0=> Secure <1=> Non-Secure
// <o.3> PC3 <0=> Secure <1=> Non-Secure
// <o.4> PC4 <0=> Secure <1=> Non-Secure
// <o.5> PC5 <0=> Secure <1=> Non-Secure
// <o.6> PC6 <0=> Secure <1=> Non-Secure
// <o.7> PC7 <0=> Secure <1=> Non-Secure
// <o.8> PC8 <0=> Secure <1=> Non-Secure
// <o.9> PC9 <0=> Secure <1=> Non-Secure
// <o.10> PC10 <0=> Secure <1=> Non-Secure
// <o.11> PC11 <0=> Secure <1=> Non-Secure
// <o.12> PC12 <0=> Secure <1=> Non-Secure
// <o.13> PC13 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET2_VAL 0x00000000
/*
// Bit 0..31
// <h> PD
// <o.0> PD0 <0=> Secure <1=> Non-Secure
// <o.1> PD1 <0=> Secure <1=> Non-Secure
// <o.2> PD2 <0=> Secure <1=> Non-Secure
// <o.3> PD3 <0=> Secure <1=> Non-Secure
// <o.4> PD4 <0=> Secure <1=> Non-Secure
// <o.5> PD5 <0=> Secure <1=> Non-Secure
// <o.6> PD6 <0=> Secure <1=> Non-Secure
// <o.7> PD7 <0=> Secure <1=> Non-Secure
// <o.8> PD8 <0=> Secure <1=> Non-Secure
// <o.9> PD9 <0=> Secure <1=> Non-Secure
// <o.10> PD10 <0=> Secure <1=> Non-Secure
// <o.11> PD11 <0=> Secure <1=> Non-Secure
// <o.12> PD12 <0=> Secure <1=> Non-Secure
// <o.14> PD14 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET3_VAL 0x00000000
/*
// Bit 0..31
// <h> PE
// <o.0> PE0 <0=> Secure <1=> Non-Secure
// <o.1> PE1 <0=> Secure <1=> Non-Secure
// <o.2> PE2 <0=> Secure <1=> Non-Secure
// <o.3> PE3 <0=> Secure <1=> Non-Secure
// <o.4> PE4 <0=> Secure <1=> Non-Secure
// <o.5> PE5 <0=> Secure <1=> Non-Secure
// <o.6> PE6 <0=> Secure <1=> Non-Secure
// <o.7> PE7 <0=> Secure <1=> Non-Secure
// <o.8> PE8 <0=> Secure <1=> Non-Secure
// <o.9> PE9 <0=> Secure <1=> Non-Secure
// <o.10> PE10 <0=> Secure <1=> Non-Secure
// <o.11> PE11 <0=> Secure <1=> Non-Secure
// <o.12> PE12 <0=> Secure <1=> Non-Secure
// <o.13> PE13 <0=> Secure <1=> Non-Secure
// <o.14> PE14 <0=> Secure <1=> Non-Secure
// <o.15> PE15 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET4_VAL 0x00000000
/*
// Bit 0..31
// <h> PF
// <o.0> PF0 <0=> Secure <1=> Non-Secure
// <o.1> PF1 <0=> Secure <1=> Non-Secure
// <o.2> PF2 <0=> Secure <1=> Non-Secure
// <o.3> PF3 <0=> Secure <1=> Non-Secure
// <o.4> PF4 <0=> Secure <1=> Non-Secure
// <o.5> PF5 <0=> Secure <1=> Non-Secure
// <o.6> PF6 <0=> Secure <1=> Non-Secure
// <o.7> PF7 <0=> Secure <1=> Non-Secure
// <o.8> PF8 <0=> Secure <1=> Non-Secure
// <o.9> PF9 <0=> Secure <1=> Non-Secure
// <o.10> PF10 <0=> Secure <1=> Non-Secure
// <o.11> PF11 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET5_VAL 0x00000000
/*
// Bit 0..31
// <h> PG
// <o.2> PG2 <0=> Secure <1=> Non-Secure
// <o.3> PG3 <0=> Secure <1=> Non-Secure
// <o.4> PG4 <0=> Secure <1=> Non-Secure
// <o.9> PG9 <0=> Secure <1=> Non-Secure
// <o.10> PG10 <0=> Secure <1=> Non-Secure
// <o.11> PG11 <0=> Secure <1=> Non-Secure
// <o.12> PG12 <0=> Secure <1=> Non-Secure
// <o.13> PG13 <0=> Secure <1=> Non-Secure
// <o.14> PG14 <0=> Secure <1=> Non-Secure
// <o.15> PG15 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET6_VAL 0x00000000
/*
// Bit 0..31
// <h> PH
// <o.4> PH4 <0=> Secure <1=> Non-Secure
// <o.5> PH5 <0=> Secure <1=> Non-Secure
// <o.6> PH6 <0=> Secure <1=> Non-Secure
// <o.7> PH7 <0=> Secure <1=> Non-Secure
// <o.8> PH8 <0=> Secure <1=> Non-Secure
// <o.9> PH9 <0=> Secure <1=> Non-Secure
// <o.10> PH10 <0=> Secure <1=> Non-Secure
// <o.11> PH11 <0=> Secure <1=> Non-Secure
// </h>
*/
#define SCU_INIT_IONSSET7_VAL 0x00000000
/*
// </h>
*/
/*
// <h>Assign GPIO Interrupt to Secure or Non-secure Vector
*/
/*
Initialize GPIO ITNS (Interrupts 0..31)
*/
/*
// Bit 0..31
// <o.0> GPA <0=> Secure <1=> Non-Secure
// <o.1> GPB <0=> Secure <1=> Non-Secure
// <o.2> GPC <0=> Secure <1=> Non-Secure
// <o.3> GPD <0=> Secure <1=> Non-Secure
// <o.4> GPE <0=> Secure <1=> Non-Secure
// <o.5> GPF <0=> Secure <1=> Non-Secure
// <o.6> GPG <0=> Secure <1=> Non-Secure
// <o.7> GPH <0=> Secure <1=> Non-Secure
// <o.8> EINT0 <0=> Secure <1=> Non-Secure
// <o.9> EINT1 <0=> Secure <1=> Non-Secure
// <o.10> EINT2 <0=> Secure <1=> Non-Secure
// <o.11> EINT3 <0=> Secure <1=> Non-Secure
// <o.12> EINT4 <0=> Secure <1=> Non-Secure
// <o.13> EINT5 <0=> Secure <1=> Non-Secure
// <o.14> EINT6 <0=> Secure <1=> Non-Secure
// <o.15> EINT7 <0=> Secure <1=> Non-Secure
*/
#define SCU_INIT_IONSSET_VAL 0x0000
/*
// </h>
*/
/* ---------------------------------------------------------------------------------------------------- */
/*
// <e>Secure Attribute Unit (SAU) Control
*/
#define SAU_INIT_CTRL 0
/*
// <q> Enable SAU
// <i> To enable Secure Attribute Unit (SAU).
*/
#define SAU_INIT_CTRL_ENABLE 1
/*
// <o> All Memory Attribute When SAU is disabled
// <0=> All Memory is Secure
// <1=> All Memory is Non-Secure
// <i> To set the ALLNS bit in SAU CTRL.
// <i> When all Memory is Non-Secure (ALLNS is 1), IDAU can override memory map configuration.
*/
#define SAU_INIT_CTRL_ALLNS 0
/*
// </e>
*/
/*
// <h>Enable and Set Secure/Non-Secure region
*/
#define SAU_REGIONS_MAX 8 /* Max. number of SAU regions */
/*
// <e>SAU Region 0
// <i> Setup SAU Region 0
*/
#define SAU_INIT_REGION0 0
/*
// <o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START0 0x0003F000 /* start address of SAU region 0 */
/*
// <o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END0 0x0003FFFF /* end address of SAU region 0 */
/*
// <o>Region is
// <0=>Non-Secure
// <1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC0 1
/*
// </e>
*/
/*
// <e>SAU Region 1
// <i> Setup SAU Region 1
*/
#define SAU_INIT_REGION1 0
/*
// <o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START1 0x10040000
/*
// <o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END1 0x1007FFFF
/*
// <o>Region is
// <0=>Non-Secure
// <1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC1 0
/*
// </e>
*/
/*
// <e>SAU Region 2
// <i> Setup SAU Region 2
*/
#define SAU_INIT_REGION2 0
/*
// <o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START2 0x2000F000
/*
// <o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END2 0x2000FFFF
/*
// <o>Region is
// <0=>Non-Secure
// <1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC2 1
/*
// </e>
*/
/*
// <e>SAU Region 3
// <i> Setup SAU Region 3
*/
#define SAU_INIT_REGION3 0
/*
// <o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START3 0x3f000
/*
// <o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END3 0x3f7ff
/*
// <o>Region is
// <0=>Non-Secure
// <1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC3 1
/*
// </e>
*/
/*
<e>SAU Region 4
<i> Setup SAU Region 4
*/
#define SAU_INIT_REGION4 1
/*
<o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START4 FMC_NON_SECURE_BASE /* start address of SAU region 4 */
/*
<o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END4 0x1007FFFF /* end address of SAU region 4 */
/*
<o>Region is
<0=>Non-Secure
<1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC4 0
/*
</e>
*/
/*
<e>SAU Region 5
<i> Setup SAU Region 5
*/
#define SAU_INIT_REGION5 1
/*
<o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START5 0x00807E00
/*
<o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END5 0x00807FFF
/*
<o>Region is
<0=>Non-Secure
<1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC5 1
/*
</e>
*/
/*
<e>SAU Region 6
<i> Setup SAU Region 6
*/
#define SAU_INIT_REGION6 1
/*
<o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START6 NON_SECURE_SRAM_BASE
/*
<o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END6 0x30017FFF
/*
<o>Region is
<0=>Non-Secure
<1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC6 0
/*
</e>
*/
/*
<e>SAU Region 7
<i> Setup SAU Region 7
*/
#define SAU_INIT_REGION7 1
/*
<o>Start Address <0-0xFFFFFFE0>
*/
#define SAU_INIT_START7 0x50000000
/*
<o>End Address <0x1F-0xFFFFFFFF>
*/
#define SAU_INIT_END7 0x5FFFFFFF
/*
<o>Region is
<0=>Non-Secure
<1=>Secure, Non-Secure Callable
*/
#define SAU_INIT_NSC7 0
/*
</e>
*/
/*
// </h>
*/
/*
// <e>Setup behavior of Sleep and Exception Handling
*/
#define SCB_CSR_AIRCR_INIT 1
/*
// <o> Deep Sleep can be enabled by
// <0=>Secure and Non-Secure state
// <1=>Secure state only
// <i> Value for SCB->CSR register bit DEEPSLEEPS
*/
#define SCB_CSR_DEEPSLEEPS_VAL 0
/*
// <o>System reset request accessible from
// <0=> Secure and Non-Secure state
// <1=> Secure state only
// <i> Value for SCB->AIRCR register bit SYSRESETREQS
*/
#define SCB_AIRCR_SYSRESETREQS_VAL 0
/*
// <o>Priority of Non-Secure exceptions is
// <0=> Not altered
// <1=> Lowered to 0x80-0xFF
// <i> Value for SCB->AIRCR register bit PRIS
*/
#define SCB_AIRCR_PRIS_VAL 0
/* Assign HardFault to be always secure for safe */
#define SCB_AIRCR_BFHFNMINS_VAL 0
/*
// </e>
*/
/*
max 128 SAU regions.
SAU regions are defined in partition.h
*/
#define SAU_INIT_REGION(n) \
SAU->RNR = (n & SAU_RNR_REGION_Msk); \
SAU->RBAR = (SAU_INIT_START##n & SAU_RBAR_BADDR_Msk); \
SAU->RLAR = (SAU_INIT_END##n & SAU_RLAR_LADDR_Msk) | \
((SAU_INIT_NSC##n << SAU_RLAR_NSC_Pos) & SAU_RLAR_NSC_Msk) | 1U
#endif /* PARTITION_M2354 */