rtt-f030/bsp/AE210P/reset.c

139 lines
3.6 KiB
C

#include "nds32_intrinsic.h"
#include "nds32.h"
#ifndef VECTOR_BASE
#define VECTOR_BASE 0x00000000
#endif
#define PSW_MSK \
(PSW_mskGIE | PSW_mskINTL | PSW_mskPOM | PSW_mskIFCON | PSW_mskCPL)
#define PSW_INIT \
(0x0UL << PSW_offGIE \
| 0x0UL << PSW_offINTL \
| 0x1UL << PSW_offPOM \
| 0x0UL << PSW_offIFCON \
| 0x7UL << PSW_offCPL)
#define IVB_MSK \
(IVB_mskEVIC | IVB_mskESZ | IVB_mskIVBASE)
#define IVB_INIT \
((VECTOR_BASE >> IVB_offIVBASE) << IVB_offIVBASE\
| 0x1UL << IVB_offESZ \
| 0x0UL << IVB_offEVIC)
#pragma weak c_startup = c_startup_common
void c_startup(void);
/*
* Default c_startup() function which used for those relocation from LMA to VMA.
*/
static void c_startup_common(void)
{
#ifdef XIP_MODE
/* Data section initialization */
#define MEMCPY(des, src, n) __builtin_memcpy ((des), (src), (n))
extern char __rw_lma_start, __rw_lma_end, __rw_vma_start;
unsigned int size = &__rw_lma_end - &__rw_lma_start;
/* Copy data section from LMA to VMA */
MEMCPY(&__rw_vma_start, &__rw_lma_start, size);
#else
/* We do nothing for those LMA equal to VMA */
#endif
}
static void cpu_init(void)
{
unsigned int reg;
/* Set PSW GIE/INTL to 0, superuser & CPL to 7 */
reg = (__nds32__mfsr(NDS32_SR_PSW) & ~PSW_MSK) | PSW_INIT;
__nds32__mtsr(reg, NDS32_SR_PSW);
__nds32__isb();
/* Set vector size: 16 byte, base: VECTOR_BASE, mode: IVIC */
reg = (__nds32__mfsr(NDS32_SR_IVB) & ~IVB_MSK) | IVB_INIT;
__nds32__mtsr(reg, NDS32_SR_IVB);
/*
* Check interrupt priority programmable (IVB.PROG_PRI_LVL)
* 0: Fixed priority, 1: Programmable priority
*/
if (reg & IVB_mskPROG_PRI_LVL)
{
/* Set PPL2FIX_EN to 0 to enable Programmable Priority Level */
__nds32__mtsr(0x0, NDS32_SR_INT_CTRL);
}
/* Mask and clear hardware interrupts */
if (reg & IVB_mskIVIC_VER)
{
/* IVB.IVIC_VER >= 1*/
__nds32__mtsr(0x0, NDS32_SR_INT_MASK2);
__nds32__mtsr(-1, NDS32_SR_INT_PEND2);
}
else
{
__nds32__mtsr(__nds32__mfsr(NDS32_SR_INT_MASK) & ~0xFFFF, NDS32_SR_INT_MASK);
}
}
/*
* Vectors initialization. This means to copy exception handler code to
* vector entry base address.
*/
static void vector_init(void)
{
extern unsigned int OS_Int_Vectors, OS_Int_Vectors_End;
if ((unsigned int)&OS_Int_Vectors != VECTOR_BASE)
{
volatile unsigned int *vector_srcptr = &OS_Int_Vectors;
volatile unsigned int *vector_dstptr = (unsigned int *)VECTOR_BASE;
/* copy vector table to VECTOR_BASE */
while (vector_srcptr != &OS_Int_Vectors_End)
*vector_dstptr++ = *vector_srcptr++;
}
}
/*
* NDS32 reset handler to reset all devices sequentially and call application
* entry function.
*/
void reset(void)
{
extern void hardware_init(void);
extern void bsp_init(void);
extern void rtthread_startup(void);
/*
* Initialize CPU to a post-reset state, ensuring the ground doesn't
* shift under us while we try to set things up.
*/
cpu_init();
/*
* Initialize LMA/VMA sections.
* Relocation for any sections that need to be copied from LMA to VMA.
*/
c_startup();
/* Copy vector table to vector base address */
vector_init();
/* Call platform specific hardware initialization */
hardware_init();
/* Setup the OS system required initialization */
bsp_init();
/* Application enrty function */
rtthread_startup();
/* Never go back here! */
while(1);
}