multimedia/device/mpp/sample/hisi_rtsp_demo-master/include/hi_vreg.h

122 lines
4.8 KiB
C

/******************************************************************************
Copyright (C), 2001-2011, Hisilicon Tech. Co., Ltd.
******************************************************************************
File Name : hi_vreg.h
Version : Initial Draft
Author : Hisilicon multimedia software group
Created : 2013/01/09
Description :
History :
1.Date : 2013/01/09
Author : n00168968
Modification: Created file
******************************************************************************/
#ifndef __HI_VREG_H__
#define __HI_VREG_H__
#include "hi_type.h"
#include "hi_comm_isp.h"
#ifdef __cplusplus
#if __cplusplus
extern "C"{
#endif
#endif /* End of #ifdef __cplusplus */
#define REG_ACCESS_WIDTH_1 0
#define REG_ACCESS_WIDTH 0 /* 1: 16bit 2: 8bit */
/* Vreg is a blok of memory alloced to simulate the regs.
* We try to differentiate vregs by baseaddr. Each vreg
* block's size should at least 4k bytes.
*/
/*---------------------------------------------------------------------------------------------------------*
*| 0x205A0000 | 0x10000 | 0x20000 | 0x21000 | ... | 0x30000 | ... | 0x40000 | ... | 0x80000 | ...|*
*|------------|-----------|----------|----------|-----|-----------|-----|----------|-----|----------|----|*
*| ISP_REG | ISP_VREG | AE1_VREG | AE2_VREG | ... | AWB1_VREG | ... | AF1_VREG | ... | VIU_VREG | ...|*
*---------------------------------------------------------------------------------------------------------*/
#define ISP_REG_BASE 0x205A0000
#define ISP_REG_SIZE 0x1ffff
#define VI_REG_BASE 0x20580000
#define VI_REG_SIZE 0x20000
#define VREG_SIZE_ALIGN 0x1000
#define EXT_REG_BASE 0x10000
#define ISP_VREG_BASE 0x10000
#define ISP_VREG_SIZE (VREG_SIZE_ALIGN << 4)
#define AE_LIB_VREG_BASE(id) (0x20000 + VREG_SIZE_ALIGN * (id))
#define AWB_LIB_VREG_BASE(id) (0x30000 + VREG_SIZE_ALIGN * (id))
#define AF_LIB_VREG_BASE(id) (0x40000 + VREG_SIZE_ALIGN * (id))
#define ALG_LIB_VREG_SIZE (VREG_SIZE_ALIGN)
#define MAX_ALG_LIB_VREG_NUM (1 << 4)
#define HISI_AE_LIB_EXTREG_ID_0 0
#define HISI_AE_LIB_EXTREG_ID_1 1
#define HISI_AWB_LIB_EXTREG_ID_0 0
#define HISI_AWB_LIB_EXTREG_ID_1 1
#define VIU_VREG_BASE 0x80000
#define VPP_VREG_BASE 0x90000
#define VEDU_VREG_BASE 0xa0000
#define VOU_VREG_BASE 0xb0000
HI_S32 VReg_Init(HI_U32 u32BaseAddr, HI_U32 u32Size);
HI_S32 VReg_Exit(HI_U32 u32BaseAddr, HI_U32 u32Size);
HI_U32 VReg_GetVirtAddr(HI_U32 u32BaseAddr);
HI_VOID VReg_Munmap(HI_VOID);
HI_U32 IO_READ32(HI_U32 u32Addr);
HI_S32 IO_WRITE32(HI_U32 u32Addr, HI_U32 u32Value);
HI_U16 IO_READ16(HI_U32 u32Addr);
HI_S32 IO_WRITE16(HI_U32 u32Addr, HI_U32 u32Value);
HI_U8 IO_READ8(HI_U32 u32Addr);
HI_S32 IO_WRITE8(HI_U32 u32Addr, HI_U32 u32Value);
/* Dynamic bus access functions, 4 byte align access */
//TODO: allocate dev addr (such as ISP_REG_BASE_ADDR) according to devId.
#define __IO_CALC_ADDRESS_DYNAMIC(BASE) (HI_U32)(((BASE >= (EXT_REG_BASE)) ? 0 : ISP_REG_BASE) + (BASE))
#define IORD_32DIRECT(BASE) IO_READ32(__IO_CALC_ADDRESS_DYNAMIC(BASE))
#define IORD_16DIRECT(BASE) IO_READ16(__IO_CALC_ADDRESS_DYNAMIC(BASE))
#define IORD_8DIRECT(BASE) IO_READ8(__IO_CALC_ADDRESS_DYNAMIC(BASE))
#define IOWR_32DIRECT(BASE, DATA) IO_WRITE32(__IO_CALC_ADDRESS_DYNAMIC(BASE), (DATA))
#define IOWR_16DIRECT(BASE, DATA) IO_WRITE16(__IO_CALC_ADDRESS_DYNAMIC(BASE), (DATA))
#define IOWR_8DIRECT(BASE, DATA) IO_WRITE8(__IO_CALC_ADDRESS_DYNAMIC(BASE), (DATA))
/*--------------------------------------------------------------------------------------*/
/* direct write or read ISP regs */
#define IORD_32DIRECT_ISP_REG(BASE) IO_READ32(ISP_REG_BASE + (BASE))
#define IORD_16DIRECT_ISP_REG(BASE) IO_READ16(ISP_REG_BASE + (BASE))
#define IORD_8DIRECT_ISP_REG(BASE) IO_READ8(ISP_REG_BASE + (BASE))
#define IOWR_32DIRECT_ISP_REG(BASE, DATA) IO_WRITE32((ISP_REG_BASE + (BASE)), (DATA))
#define IOWR_16DIRECT_ISP_REG(BASE, DATA) IO_WRITE16((ISP_REG_BASE + (BASE)), (DATA))
#define IOWR_8DIRECT_ISP_REG(BASE, DATA) IO_WRITE8((ISP_REG_BASE + (BASE)), (DATA))
/*--------------------------------------------------------------------------------------*/
/* write or read vi reg */
HI_U32 IO_READ32_VI(HI_U32 u32Addr);
HI_S32 IO_WRITE32_VI(HI_U32 u32Addr, HI_U32 u32Value);
#define __IO_CALC_ADDRESS_DYNAMIC_VI(BASE) (HI_U32)((VI_REG_BASE) + (BASE))
#define IORD_32DIRECT_VI(BASE) IO_READ32_VI(__IO_CALC_ADDRESS_DYNAMIC_VI(BASE))
#define IOWR_32DIRECT_VI(BASE, DATA) IO_WRITE32_VI(__IO_CALC_ADDRESS_DYNAMIC_VI(BASE), (DATA))
/*--------------------------------------------------------------------------------------*/
#ifdef __cplusplus
#if __cplusplus
}
#endif
#endif /* End of #ifdef __cplusplus */
#endif