rtt-f030/bsp/AE210P/board/ae210p_regs.h

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/*****************************************************************************
*
* Copyright Andes Technology Corporation 2014
* All Rights Reserved.
*
****************************************************************************/
#ifndef __AE210P_REGS_H__
#define __AE210P_REGS_H__
#ifndef __ASSEMBLER__
#include <inttypes.h>
#include <nds32_intrinsic.h>
#endif
#if (defined(CONFIG_CPU_ICACHE_ENABLE) || defined(CONFIG_CPU_DCACHE_ENABLE))
/*
* The NTC1 is set to noncache region and NTM1 is mapped to partition 0 (I/O region).
* Map the I/O address to NTC1 to be uncachable.
*/
#define UNCACHE_MAP(addr) ((addr) | 0x40000000)
#else
#define UNCACHE_MAP(addr) (addr)
#endif
#define _IO_(addr) UNCACHE_MAP(addr)
/*****************************************************************************
* ExLM - AE210P AHB
* **************************************************************************/
#define EILM_BASE 0x00000000
#ifdef CONFIG_OSC_SUPPORT
#define EDLM_BASE 0x00100000
#else
#define EDLM_BASE 0x00200000
#endif
#define SPIAHBMEM_BASE 0x00800000
/*****************************************************************************
* AHBC - AE210P AHB
****************************************************************************/
#define AHBC_BASE_4_7 _IO_(0x00400000) /* Vendor AHB Slave 8~9 */
#define AHBC_BASE_0_3 _IO_(0x00E20000) /* Vendor AHB Slave 0~7 */
/*****************************************************************************
* BMC - AE210P AHB
****************************************************************************/
#define BMC_BASE _IO_(0x00E00000) /* Device base address */
/*****************************************************************************
* OSC - AE210P OSC
****************************************************************************/
#define OSC_BASE _IO_(0x00E01000)
/* OSC register */
#define OSC_CTRL (OSC_BASE + 0x00)
#define OSC_OVLFS (OSC_BASE + 0x04)
#define OSC_OVLBASE (OSC_BASE + 0x08)
#define OSC_OVLEND (OSC_BASE + 0x0C)
#define OSC_DMAST (OSC_BASE + 0x10)
/*****************************************************************************
* DMAC - AE210P AHB
****************************************************************************/
#define DMAC_BASE _IO_(0x00E0E000) /* Device base address */
/*****************************************************************************
* APBBRG - AE210P APB
****************************************************************************/
#define APBBR_BASE _IO_(0x00F00000) /* Device base address */
/*****************************************************************************
* SMU - AE210P
****************************************************************************/
#define SMU_BASE _IO_(0x00F01000) /* Device base address */
/*****************************************************************************
* UARTx - AE210P
****************************************************************************/
#define UART1_BASE _IO_(0x00F02000) /* Device base address */
#define UART2_BASE _IO_(0x00F03000) /* Device base address */
#define STUARTC_BASE UART2_BASE /* standard/IR UART */
/* UART register offsets (4~8-bit width) */
/* SD_LCR_DLAB == 0 */
#define UARTC_RBR_OFFSET 0x20 /* receiver biffer register */
#define UARTC_THR_OFFSET 0x20 /* transmitter holding register */
#define UARTC_IER_OFFSET 0x24 /* interrupt enable register */
#define UARTC_IIR_OFFSET 0x28 /* interrupt identification register */
#define UARTC_FCR_OFFSET 0x28 /* FIFO control register */
#define UARTC_LCR_OFFSET 0x2c /* line control regitser */
#define UARTC_MCR_OFFSET 0x30 /* modem control register */
#define UARTC_LSR_OFFSET 0x34 /* line status register */
#define UARTC_TST_OFFSET 0x34 /* testing register */
#define UARTC_MSR_OFFSET 0x38 /* modem status register */
#define UARTC_SPR_OFFSET 0x3c /* scratch pad register */
/* SD_LCR_DLAB == 0 */
#define UARTC_DLL_OFFSET 0x20 /* baudrate divisor latch LSB */
#define UARTC_DLM_OFFSET 0x24 /* baudrate divisor latch MSB */
#define UARTC_PSR_OFFSET 0x28 /* prescaler register */
/*****************************************************************************
* PIT - AE210P
****************************************************************************/
#define PIT_BASE _IO_(0x00F04000) /* Device base address */
/* PIT register (32-bit width) */
#define PIT_ID_REV (PIT_BASE + 0x00 ) /* (ro) PIT ID and Revision Register */
#define PIT_CFG (PIT_BASE + 0x10 ) /* (ro) PIT Configuration Register */
#define PIT_INT_EN (PIT_BASE + 0x14 ) /* (rw) PIT Interrupt Enable Register*/
#define PIT_INT_ST (PIT_BASE + 0x18 ) /* (w1c) PIT Interrupt Status Register*/
#define PIT_CH_EN (PIT_BASE + 0x1C ) /* (rw) PIT Channel Enable Register */
/* _chn_ from 0 to 3*/
/* (rw) PIT Channel x Control Register (32-bit width) */
#define PIT_CHNx_CTL(_chn_) ( PIT_BASE + 0x20 + ( (_chn_)* 0x10) )
/* (rw) PIT Channel x Reload Register (32-bit width) */
#define PIT_CHNx_LOAD(_chn_) ( PIT_BASE + 0x24 + ( (_chn_)* 0x10) )
/* (ro) PIT Channel x Counter Register (32-bit width) */
#define PIT_CHNx_COUNT(_chn_) ( PIT_BASE + 0x28 + ( (_chn_)* 0x10) )
/*****************************************************************************
* WDT - AE210P
****************************************************************************/
#define WDTC_BASE _IO_(0x00F05000) /* Device base address */
/*****************************************************************************
* RTC - AE210P
****************************************************************************/
#define RTC_BASE _IO_(0x00F06000) /* Device base address */
/*****************************************************************************
* GPIO - AE210P
****************************************************************************/
#define GPIOC_BASE _IO_(0x00F07000) /* Device base address */
/*****************************************************************************
* I2C - AE210P
****************************************************************************/
#define I2C_BASE _IO_(0x00F0A000) /* Device base address */
/*****************************************************************************
* SPI1 - AE210P
****************************************************************************/
#define SPI1_BASE _IO_(0x00F0B000) /* Device base address */
/*****************************************************************************
* I2S/AC97 - AE210P (SSP2)
****************************************************************************/
#define SPI2_BASE _IO_(0x00F0F000) /* Device base address */
/*****************************************************************************
* APB_SLAVE - AE210P Vender APB Slave 0~4
****************************************************************************/
#define APB_SLAVE_BASE _IO_(0x00F19000) /* Device base address */
/*****************************************************************************
* Macros for Register Access
****************************************************************************/
#define REG32(reg) ( *( (volatile uint32_t *) (reg) ) )
#ifdef REG_IO_HACK
/* 8 bit access */
//#define IN8(reg) ( *( (volatile uint8_t *) (reg) ) )
#define OUT8(reg, data) ( (*( (volatile uint8_t *) (reg) ) ) = (uint8_t)(data) )
#define CLR8(reg) ( *( (volatile uint8_t *) (reg) ) = (uint8_t)0 )
#define MASK8(reg, mask) ( *( (volatile uint8_t *) (reg) ) & (uint8_t)(mask) )
#define UMSK8(reg, mask) ( *( (volatile uint8_t *) (reg) ) & ~( (uint8_t)(mask) ) )
#define SETR8SHL(reg, mask, shift, v) ( *( (volatile uint8_t *) (reg) ) = \
( ( *( (volatile uint8_t *) (reg) ) & ~( (uint8_t)(mask) ) ) | \
( ( (uint8_t)(v) << (shift) ) & (uint8_t)(mask) ) ) )
#define SETR8(reg, mask) ( *( (volatile uint8_t *) (reg) ) = \
( ( *( (volatile uint8_t *) (reg) ) & ~( (uint8_t)(mask) ) ) | (uint8_t)(mask) ) )
#define CLRR8(reg, mask) ( *( (volatile uint8_t *) (reg) ) &= ~( (uint8_t)(mask) ) )
#define SETB8(reg, bit) ( *( (volatile uint8_t *) (reg) ) |= (uint8_t)( (uint8_t)1 << (bit) ) )
#define CLRB8(reg, bit) ( *( (volatile uint8_t *) (reg) ) &= ( ~( (uint8_t) ( (uint8_t)1 << (bit) ) ) ) )
#define GETB8(reg, bit) ( *( (volatile uint8_t *) (reg) ) & (uint8_t) ( (uint8_t)1 << (bit) ) )
#define GETB8SHR(reg, bit) ( (*( (volatile uint8_t *) (reg) ) & (uint8_t) ( (uint8_t)1 << (bit) )) >> (bit) )
/* 16 bit access */
#define IN16(reg) ( *( (volatile uint16_t *) (reg) ) )
#define OUT16(reg, data) ( (*( (volatile uint16_t *) (reg) ) ) = (uint16_t)(data) )
#define CLR16(reg) ( *( (volatile uint16_t *) (reg) ) = (uint16_t)0 )
#define MASK16(reg, mask) ( *( (volatile uint16_t *) (reg) ) & (uint16_t)(mask) )
#define UMSK16(reg, mask) ( *( (volatile uint16_t *) (reg) ) & ~( (uint16_t)(mask) ) )
#define SETR16SHL(reg, mask, shift, v) ( *( (volatile uint16_t *) (reg) ) = \
( ( *( (volatile uint16_t *) (reg) ) & ~( (uint16_t)(mask) ) ) | \
( ( (uint16_t)(v) << (shift) ) & (uint16_t)(mask) ) ) )
#define SETR16(reg, mask) ( *( (volatile uint16_t *) (reg) ) = \
( ( *( (volatile uint16_t *) (reg) ) & ~( (uint16_t)(mask) ) ) | (uint16_t)(mask) ) )
#define CLRR16(reg, mask) ( *( (volatile uint16_t *) (reg) ) &= ~( (uint16_t)(mask) ) )
#define SETB16(reg, bit) ( *( (volatile uint16_t *) (reg) ) |= (uint16_t)( (uint16_t)1 << (bit) ) )
#define CLRB16(reg, bit) ( *( (volatile uint16_t *) (reg) ) &= ( ~( (uint16_t) ( (uint16_t)1 << (bit) ) ) ) )
#define GETB16(reg, bit) ( *( (volatile uint16_t *) (reg) ) & (uint16_t) ( (uint16_t)1 << (bit) ) )
#define GETB16SHR(reg, bit) ( (*( (volatile uint16_t *) (reg) ) & (uint16_t) ( (uint16_t)1 << (bit) )) >> (bit) )
/* 32 bit access */
#define IN32(reg) _IN32((uint32_t)(reg))
#define OUT32(reg, data) _OUT32((uint32_t)(reg), (uint32_t)(data))
#define CLR32(reg) _CLR32((uint32_t)(reg))
#define MASK32(reg, mask) _MASK32((uint32_t)(reg), (uint32_t)(mask))
#define UMSK32(reg, mask) _UMSK32((uint32_t)(reg), (uint32_t)(mask))
#define SETR32SHL(reg, mask, shift, v) _SETR32SHL((uint32_t)(reg), (uint32_t)(mask), (uint32_t)(shift), (uint32_t)(v))
#define SETR32(reg, mask) _SETR32((uint32_t)(reg), (uint32_t)(mask))
#define CLRR32(reg, mask) _CLRR32((uint32_t)(reg), (uint32_t)(mask))
#define SETB32(reg, bit) _SETB32((uint32_t)(reg), (uint32_t)(bit))
#define CLRB32(reg, bit) _CLRB32((uint32_t)(reg), (uint32_t)(bit))
#define GETB32(reg, bit) _GETB32((uint32_t)(reg), (uint32_t)(bit))
#define GETB32SHR(reg, bit) _GETB32SHR((uint32_t)(reg), (uint32_t)(bit))
#else /* REG_IO_HACK */
/* 8 bit access */
//#define IN8(reg) ( *( (volatile uint8_t *) (reg) ) )
#define OUT8(reg, data) ( (*( (volatile uint8_t *) (reg) ) ) = (uint8_t)(data) )
#define CLR8(reg) ( *( (volatile uint8_t *) (reg) ) = (uint8_t)0 )
#define MASK8(reg, mask) ( *( (volatile uint8_t *) (reg) ) & (uint8_t)(mask) )
#define UMSK8(reg, mask) ( *( (volatile uint8_t *) (reg) ) & ~( (uint8_t)(mask) ) )
#define SETR8SHL(reg, mask, shift, v) ( *( (volatile uint8_t *) (reg) ) = \
( ( *( (volatile uint8_t *) (reg) ) & ~( (uint8_t)(mask) ) ) | \
( ( (uint8_t)(v) << (shift) ) & (uint8_t)(mask) ) ) )
#define SETR8(reg, mask) ( *( (volatile uint8_t *) (reg) ) = \
( ( *( (volatile uint8_t *) (reg) ) & ~( (uint8_t)(mask) ) ) | (uint8_t)(mask) ) )
#define CLRR8(reg, mask) ( *( (volatile uint8_t *) (reg) ) &= ~( (uint8_t)(mask) ) )
#define SETB8(reg, bit) ( *( (volatile uint8_t *) (reg) ) |= (uint8_t)( (uint8_t)1 << (bit) ) )
#define CLRB8(reg, bit) ( *( (volatile uint8_t *) (reg) ) &= ( ~( (uint8_t) ( (uint8_t)1 << (bit) ) ) ) )
#define GETB8(reg, bit) ( *( (volatile uint8_t *) (reg) ) & (uint8_t) ( (uint8_t)1 << (bit) ) )
#define GETB8SHR(reg, bit) ( (*( (volatile uint8_t *) (reg) ) & (uint8_t) ( (uint8_t)1 << (bit) )) >> (bit) )
/* 16 bit access */
#define IN16(reg) ( *( (volatile uint16_t *) (reg) ) )
#define OUT16(reg, data) ( (*( (volatile uint16_t *) (reg) ) ) = (uint16_t)(data) )
#define CLR16(reg) ( *( (volatile uint16_t *) (reg) ) = (uint16_t)0 )
#define MASK16(reg, mask) ( *( (volatile uint16_t *) (reg) ) & (uint16_t)(mask) )
#define UMSK16(reg, mask) ( *( (volatile uint16_t *) (reg) ) & ~( (uint16_t)(mask) ) )
#define SETR16SHL(reg, mask, shift, v) ( *( (volatile uint16_t *) (reg) ) = \
( ( *( (volatile uint16_t *) (reg) ) & ~( (uint16_t)(mask) ) ) | \
( ( (uint16_t)(v) << (shift) ) & (uint16_t)(mask) ) ) )
#define SETR16(reg, mask) ( *( (volatile uint16_t *) (reg) ) = \
( ( *( (volatile uint16_t *) (reg) ) & ~( (uint16_t)(mask) ) ) | (uint16_t)(mask) ) )
#define CLRR16(reg, mask) ( *( (volatile uint16_t *) (reg) ) &= ~( (uint16_t)(mask) ) )
#define SETB16(reg, bit) ( *( (volatile uint16_t *) (reg) ) |= (uint16_t)( (uint16_t)1 << (bit) ) )
#define CLRB16(reg, bit) ( *( (volatile uint16_t *) (reg) ) &= ( ~( (uint16_t) ( (uint16_t)1 << (bit) ) ) ) )
#define GETB16(reg, bit) ( *( (volatile uint16_t *) (reg) ) & (uint16_t) ( (uint16_t)1 << (bit) ) )
#define GETB16SHR(reg, bit) ( (*( (volatile uint16_t *) (reg) ) & (uint16_t) ( (uint16_t)1 << (bit) )) >> (bit) )
/* 32 bit access */
#define IN32(reg) ( *( (volatile uint32_t *) (reg) ) )
#define OUT32(reg, data) ( (*( (volatile uint32_t *) (reg) ) ) = (uint32_t)(data) )
#define CLR32(reg) ( *( (volatile uint32_t *) (reg) ) = (uint32_t)0 )
#define MASK32(reg, mask) ( *( (volatile uint32_t *) (reg) ) & (uint32_t)(mask) )
#define UMSK32(reg, mask) ( *( (volatile uint32_t *) (reg) ) & ~( (uint32_t)(mask) ) )
#define SETR32SHL(reg, mask, shift, v) ( *( (volatile uint32_t *) (reg) ) = \
( ( *( (volatile uint32_t *) (reg) ) & ~( (uint32_t)(mask) ) ) | \
( ( (uint32_t)(v) << (shift) ) & (uint32_t)(mask) ) ) )
#define SETR32(reg, mask) ( *( (volatile uint32_t *) (reg) ) = \
( ( *( (volatile uint32_t *) (reg) ) & ~( (uint32_t)(mask) ) ) | (uint32_t)(mask) ) )
#define CLRR32(reg, mask) ( *( (volatile uint32_t *) (reg) ) &= ~( (uint32_t)(mask) ) )
#define SETB32(reg, bit) ( *( (volatile uint32_t *) (reg) ) |= (uint32_t)( (uint32_t)1 << (bit) ) )
#define CLRB32(reg, bit) ( *( (volatile uint32_t *) (reg) ) &= ( ~( (uint32_t) ( (uint32_t)1 << (bit) ) ) ) )
#define GETB32(reg, bit) ( *( (volatile uint32_t *) (reg) ) & (uint32_t) ( (uint32_t)1 << (bit) ) )
#define GETB32SHR(reg, bit) ( (*( (volatile uint32_t *) (reg) ) & (uint32_t) ( (uint32_t)1 << (bit) )) >> (bit) )
#endif /* REG_IO_HACK */
#define SR_CLRB32(reg, bit) \
{ \
int mask = __nds32__mfsr(reg)& ~(1<<bit);\
__nds32__mtsr(mask, reg); \
__nds32__dsb(); \
}
#define SR_SETB32(reg,bit)\
{\
int mask = __nds32__mfsr(reg)|(1<<bit);\
__nds32__mtsr(mask, reg); \
__nds32__dsb(); \
}
#endif /* __AE210P_REGS_H__ */