URL
https://opencores.org/ocsvn/openrisc/openrisc/trunk
Subversion Repositories openrisc
[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [ARM7_STR71x_IAR/] [71x_init.s] - Rev 585
Go to most recent revision | Compare with Previous | Blame | View Log
;******************** (C) COPYRIGHT 2003 STMicroelectronics ******************** ;* File Name : 71x_init.s ;* Author : MCD Application Team ;* Date First Issued : 06/23/2004 ;* Description : This is the first code executed after RESET. ;* This code used to initialize system stacks ;* and critical peripherals before entering the C code. ;******************************************************************************* ;* History: ;* 13/01/2006 : V3.1 ;* 24/05/2005 : V3.0 ;* 30/11/2004 : V2.0 ;* 14/07/2004 : V1.3 ;* 01/01/2004 : V1.2 ;******************************************************************************* ; THE PRESENT SOFTWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS WITH ; CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME. ; AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT, INDIRECT ; OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE CONTENT ; OF SUCH SOFTWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING INFORMATION ; CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS. ;*******************************************************************************/ ; --- Standard definitions of mode bits and interrupt (I & F) flags in PSRs Mode_USR EQU 0x10 Mode_FIQ EQU 0x11 Mode_IRQ EQU 0x12 Mode_SVC EQU 0x13 Mode_ABT EQU 0x17 Mode_UNDEF EQU 0x1B Mode_SYS EQU 0x1F ; available on ARM Arch 4 and later I_Bit EQU 0x80 ; when I bit is set, IRQ is disabled F_Bit EQU 0x40 ; when F bit is set, FIQ is disabled EIC_Base_addr EQU 0xFFFFF800; EIC base address ICR_off_addr EQU 0x00 ; Interrupt Control register offset CIPR_off_addr EQU 0x08 ; Current Interrupt Priority Register offset IVR_off_addr EQU 0x18 ; Interrupt Vector Register offset FIR_off_addr EQU 0x1C ; Fast Interrupt Register offset IER_off_addr EQU 0x20 ; Interrupt Enable Register offset IPR_off_addr EQU 0x40 ; Interrupt Pending Bit Register offset SIR0_off_addr EQU 0x60 ; Source Interrupt Register 0 EMI_Base_addr EQU 0x6C000000; EMI base address BCON0_off_addr EQU 0x00 ; Bank 0 configuration register offset BCON1_off_addr EQU 0x04 ; Bank 1 configuration register offset BCON2_off_addr EQU 0x08 ; Bank 2 configuration register offset BCON3_off_addr EQU 0x0C ; Bank 3 configuration register offset EMI_ENABLE EQU 0x8000 EMI_SIZE_16 EQU 0x0001 GPIO2_Base_addr EQU 0xE0005000; GPIO2 base address PC0_off_addr EQU 0x00 ; Port Configuration Register 0 offset PC1_off_addr EQU 0x04 ; Port Configuration Register 1 offset PC2_off_addr EQU 0x08 ; Port Configuration Register 2 offset PD_off_addr EQU 0x0C ; Port Data Register offset CPM_Base_addr EQU 0xA0000040; CPM Base Address BOOTCR_off_addr EQU 0x10 ; CPM - Boot Configuration Register FLASH_mask EQU 0x0000 ; to remap FLASH at 0x0 RAM_mask EQU 0x0002 ; to remap RAM at 0x0 ;|----------------------------------------------------------------------------------| ;| - APB Bridge (System Peripheral) | ;|----------------------------------------------------------------------------------| APB1_base_addr EQU 0xC0000000 ; APB Bridge1 Base Address APB2_base_addr EQU 0xE0000000 ; APB Bridge2 Base Address CKDIS_off_addr EQU 0x10 ; APB Bridge1 - Clock Disable Register SWRES_off_addr EQU 0x14 ; APB Bridge1 - Software Reset Register CKDIS1_config_all EQU 0x27FB ; To enable/disable clock of all APB1's peripherals SWRES1_config_all EQU 0x27FB ; To reset all APB1's peripherals CKDIS2_config_all EQU 0x7FDD ; To enable/disable clock of all APB2's peripherals SWRES2_config_all EQU 0x7FDD ; To reset all APB2's peripherals ;--------------------------------------------------------------- ; ?program_start ;--------------------------------------------------------------- MODULE ?program_start SECTION IRQ_STACK:DATA:NOROOT(3) SECTION FIQ_STACK:DATA:NOROOT(3) SECTION UND_STACK:DATA:NOROOT(3) SECTION ABT_STACK:DATA:NOROOT(3) SECTION SVC_STACK:DATA:NOROOT(3) SECTION CSTACK:DATA:NOROOT(3) SECTION .text:CODE(2) PUBLIC __iar_program_start EXTERN ?main EXTERN ?main CODE32 ;******************************************************************************* ;******* -- MACROS -- ******* ;******************************************************************************* ;******************************************************************************* ;* Macro Name : EMI_INIT ;* Description : This macro Initialize EMI bank 1: 16-bit 7 wait state ;* Input : None. ;* Output : None. ;******************************************************************************* EMI_INIT MACRO LDR r0, =GPIO2_Base_addr ; Configure P2.0 -> 3 in AF_PP mode LDR r2, [r0, #PC0_off_addr] ORR r2, r2,#0x0000000F STR r2, [r0, #PC0_off_addr] LDR r2, [r0, #PC1_off_addr] ORR r2, r2,#0x0000000F STR r2, [r0, #PC1_off_addr] LDR r2, [r0, #PC2_off_addr] ORR r2, r2,#0x0000000F STR r2, [r0, #PC2_off_addr] LDR r0, =EMI_Base_addr LDR r1, =0x18|EMI_ENABLE|EMI_SIZE_16 STR r1, [r0, #BCON1_off_addr] ; Enable bank 1 16-bit 7 wait state ENDM ;******************************************************************************* ;* Macro Name : EIC_INIT ;* Description : This macro Initialize the EIC as following : ; - IRQ disabled ; - FIQ disabled ; - IVR contain the load PC opcode (0xE59FFXXX) ; - Current priority level equal to 0 ; - All channels are disabled ; - All channels priority equal to 0 ; - All SIR registers contain offset to the related IRQ ; table entry ;* Input : None. ;* Output : None. ;******************************************************************************* EIC_INIT MACRO LDR r3, =EIC_Base_addr LDR r4, =0xE59F0000 STR r4, [r3, #IVR_off_addr]; Write the LDR pc,[pc,#offset] ; instruction code in IVR[31:16] LDR r2, =32 ; 32 Channel to initialize LDR r0, =T0TIMI_Addr ; Read the address of the IRQs ; address table LDR r1, =0x00000FFF AND r0,r0,r1 LDR r5, =SIR0_off_addr ; Read SIR0 address SUB r4,r0,#8 ; subtract 8 for prefetch LDR r1, =0xF7E8 ; Add the offset from IVR to 0x00000000 ; address(IVR address + 7E8 = 0x00000000) ; 0xF7E8 used to complete the ; LDR pc,[pc,#offset] opcode (0xE59FFXXX) ADD r1,r4,r1 ; Compute the jump offset from IVR to the ; IRQ table entry. EIC_INI MOV r4, r1, LSL #16 ; Left shift the result STR r4, [r3, r5] ; Store the result in SIRx register ADD r1, r1, #4 ; Next IRQ address ADD r5, r5, #4 ; Next SIR SUBS r2, r2, #1 ; Decrement the number of SIR registers ; to initialize BNE EIC_INI ; If more then continue ENDM ;******************************************************************************* ;* Macro Name : PERIPHERAL_INIT ;* Description : This macro reset all device peripherals. ;* Input : None. ;* Output : None. ;******************************************************************************* PERIPHERAL_INIT MACRO LDR r1, =APB1_base_addr ; r0= APB1 base address LDR r2, =APB2_base_addr ; r0= APB2 base address LDR r0, =CKDIS1_config_all STRH r0, [r1, #CKDIS_off_addr]; Clock Disabling for all APB1 peripherals LDR r0, =CKDIS2_config_all STRH r0, [r2, #CKDIS_off_addr]; Clock Disabling for all APB2 peripherals LDR r0, =SWRES1_config_all STRH r0, [r1, #SWRES_off_addr]; Keep all APB1 peripherals under reset LDR r0, =SWRES2_config_all STRH r0, [r2, #SWRES_off_addr]; Keep all APB2 peripherals under reset MOV r7, #10 ; Wait that the selected macrocells exit from reset loop1 SUBS r7, r7, #1 BNE loop1 MOV r0, #0 STRH r0, [r1, #SWRES_off_addr]; Enable all all APB1 peripherals STRH r0, [r2, #SWRES_off_addr]; Enable all all APB2 peripherals STRH r0, [r1, #CKDIS_off_addr]; Clock Enabling for all APB1 peripherals STRH r0, [r2, #CKDIS_off_addr]; Clock Enabling for all APB2 peripherals MOV r7, #10 ; Wait that the selected macrocells exit from reset loop2 SUBS r7, r7, #1 BNE loop2 ENDM ;******************************************************************************************** ; define remapping ; If you need to remap memory before entring the main program ; uncomment next ligne ; #define remapping ; Then define which memory to remap to address 0x00000000 ; Uncomment next line if you want to remap RAM ; #define remap_ram ; Uncomment next line if you want to remap FLASH ; #define remap_flash IMPORT T0TIMI_Addr __iar_program_start LDR pc, =NextInst NextInst NOP ; Wait for OSC stabilization NOP NOP NOP NOP NOP NOP NOP NOP MSR CPSR_c, #Mode_ABT|F_Bit|I_Bit ldr sp,=SFE(ABT_STACK) ; End of ABT_STACK MSR CPSR_c, #Mode_UNDEF|F_Bit|I_Bit ldr sp,=SFE(UND_STACK) ; End of UNDEF_STACK MSR CPSR_c, #Mode_SVC|F_Bit|I_Bit ldr sp,=SFE(SVC_STACK) ; End of SVC_STACK ; Uncomment next ligne if you need to reset all device pripherals ; PERIPHERAL_INIT ; Reset all device peripherals ; Uncomment next ligne if you need to enable the EMI Bank 1 ; EMI_INIT ; Initialize EIM Bank 1 ;Uncomment next ligne if you need to initialize the EIC EIC_INIT ; Initialize EIC ;****************************************************************************** ;REMAPPING ;Description : Remapping memory whether RAM,FLASH ; at Address 0x0 after the application has started executing. ; Remapping is generally done to allow RAM to replace FLASH ; at 0x0. ; the remapping of RAM allow copying of vector table into RAM ; To enable the memory remapping uncomment: (see above) ; #define remapping to enable memory remapping ; AND ; #define remap_ram to remap RAM ; OR ; #define remap_flash to remap FLASH ;****************************************************************************** #ifdef remapping #ifdef remap_flash MOV r0, #FLASH_mask #endif #ifdef remap_ram MOV r0, #RAM_mask #endif LDR r1, =CPM_Base_addr LDRH r2, [r1, #BOOTCR_off_addr]; Read BOOTCR Register BIC r2, r2, #0x03 ; Reset the two LSB bits of BOOTCR ORR r2, r2, r0 ; change the two LSB bits of BOOTCR STRH r2, [r1, #BOOTCR_off_addr]; Write BOOTCR Register #endif MSR CPSR_c, #Mode_FIQ|I_Bit; Change to FIQ mode ldr sp,=SFE(FIQ_STACK) ; End of FIQ_STACK MSR CPSR_c, #Mode_IRQ|I_Bit; Change to IRQ mode ldr sp,=SFE(IRQ_STACK) ; End of IRQ_STACK MSR CPSR_c, #Mode_SYS ; Change to system mode, Enable IRQ and FIQ ldr sp,=SFE(CSTACK) ; End of CSTACK(user) ; --- Now branches to a C lib function that copies RO data from their ; load region to their execute region, create the RW and ZI regions ; then jumps to user C main program. ; main() must be called from Supervisor mode MSR CPSR_c, #Mode_SVC|F_Bit|I_Bit b ?main ; Note : use B not BL, because an application will ; never return this way LTORG END ;******************* (C) COPYRIGHT 2003 STMicroelectronics *****END OF FILE****
Go to most recent revision | Compare with Previous | Blame | View Log