rtl00TstMinAmebaV35a/component/soc/realtek/8195a/fwlib/rtl8195a/rtl8195a_gdma.h

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2016-09-23 04:21:45 +00:00
/*
* Routines to access hardware
*
* Copyright (c) 2013 Realtek Semiconductor Corp.
*
* This module is a confidential and proprietary property of RealTek and
* possession or use of this module requires written permission of RealTek.
*/
#ifndef _RTL8195A_GDMA_H_
#define _RTL8195A_GDMA_H_
// Define GDMA Handshake interface with peripheral, 0 -> GDMA0, 1-> GDMA1
// Set this Hnadshake interface map to register REG_PESOC_SOC_CTRL
#define GDMA_HANDSHAKE_UART0_TX 0
#define GDMA_HANDSHAKE_UART0_RX 1
#define GDMA_HANDSHAKE_UART1_TX 2
#define GDMA_HANDSHAKE_UART1_RX 3
#define GDMA_HANDSHAKE_UART2_TX 14 // Only on GDMA 0, hardware fixed
#define GDMA_HANDSHAKE_UART2_RX 14 // Only on GDMA 1, hardware fixed
#define GDMA_HANDSHAKE_SSI0_TX 4
#define GDMA_HANDSHAKE_SSI0_RX 5
#define GDMA_HANDSHAKE_SSI1_TX 6
#define GDMA_HANDSHAKE_SSI1_RX 7
#define GDMA_HANDSHAKE_SSI2_TX 15 // Only on GDMA 0, hardware fixed
#define GDMA_HANDSHAKE_SSI2_RX 15 // Only on GDMA 1, hardware fixed
#define GDMA_HANDSHAKE_I2C0_TX 8
#define GDMA_HANDSHAKE_I2C0_RX 9
#define GDMA_HANDSHAKE_I2C1_TX 10
#define GDMA_HANDSHAKE_I2C1_RX 11
#define GDMA_HANDSHAKE_ADC 12
#define GDMA_HANDSHAKE_DAC0 13 // Only on GDMA 0, hardware fixed
#define GDMA_HANDSHAKE_DAC1 13 // Only on GDMA 1, hardware fixed
#define HAL_GDMAX_READ32(GdmaIndex, addr) \
HAL_READ32(GDMA0_REG_BASE+ (GdmaIndex*GDMA1_REG_OFF), addr)
#define HAL_GDMAX_WRITE32(GdmaIndex, addr, value) \
HAL_WRITE32((GDMA0_REG_BASE+ (GdmaIndex*GDMA1_REG_OFF)), addr, value)
#define HAL_GDMAX_READ16(GdmaIndex, addr) \
HAL_READ16(GDMA0_REG_BASE+ (GdmaIndex*GDMA1_REG_OFF), addr)
#define HAL_GDMAX_WRITE16(GdmaIndex, addr, value) \
HAL_WRITE16(GDMA0_REG_BASE+ (GdmaIndex*GDMA1_REG_OFF), addr, value)
#define HAL_GDMAX_READ8(GdmaIndex, addr) \
HAL_READ8(GDMA0_REG_BASE+ (GdmaIndex*GDMA1_REG_OFF), addr)
#define HAL_GDMAX_WRITE8(GdmaIndex, addr, value) \
HAL_WRITE8(GDMA0_REG_BASE+ (GdmaIndex*GDMA1_REG_OFF), addr, value)
#define GDMA_CH_MAX 0x06
#define REG_GDMA_CH_OFF 0x058
#define REG_GDMA_CH_SAR 0x000
#define REG_GDMA_CH_DAR 0x008
#define REG_GDMA_CH_LLP 0x010
#define REG_GDMA_CH_CTL 0x018
#define REG_GDMA_CH_SSTAT 0x020
#define REG_GDMA_CH_DSTAT 0x028
#define REG_GDMA_CH_SSTATAR 0x030
#define REG_GDMA_CH_DSTATAR 0x038
#define REG_GDMA_CH_CFG 0x040
#define REG_GDMA_CH_SGR 0x048
#define REG_GDMA_CH_DSR 0x050
#define MAX_DMA_BLOCK_SIZE 4092
//3 Interrupt Registers
#define REG_GDMA_RAW_INT_BASE 0x2C0
#define REG_GDMA_RAW_INT_TFR 0x2C0
#define REG_GDMA_RAW_INT_BLOCK 0x2c8
#define REG_GDMA_RAW_INT_SRC_TRAN 0x2D0
#define REG_GDMA_RAW_INT_DST_TRAN 0x2D8
#define REG_GDMA_RAW_INT_ERR 0x2E0
#define REG_GDMA_STATUS_INT_BASE 0x2E8
#define REG_GDMA_STATUS_INT_TFR 0x2E8
#define REG_GDMA_STATUS_INT_BLOCK 0x2F0
#define REG_GDMA_STATUS_INT_SRC_TRAN 0x2F8
#define REG_GDMA_STATUS_INT_DST_TRAN 0x300
#define REG_GDMA_STATUS_INT_ERR 0x308
#define REG_GDMA_MASK_INT_BASE 0x310
#define REG_GDMA_MASK_INT_TFR 0x310
#define REG_GDMA_MASK_INT_BLOCK 0x318
#define REG_GDMA_MASK_INT_SRC_TRAN 0x320
#define REG_GDMA_MASK_INT_DST_TRAN 0x328
#define REG_GDMA_MASK_INT_INT_ERR 0x330
#define REG_GDMA_CLEAR_INT_BASE 0x338
#define REG_GDMA_CLEAR_INT_TFR 0x338
#define REG_GDMA_CLEAR_INT_BLOCK 0x340
#define REG_GDMA_CLEAR_INT_SRC_TRAN 0x348
#define REG_GDMA_CLEAR_INT_DST_TRAN 0x350
#define REG_GDMA_CLEAR_INT_ERR 0x358
#define REG_GDMA_STATUS_INT 0x360
//3 Software handshaking Registers
#define REG_GDMA_REQ_SRC 0x368
#define REG_GDMA_REQ_DST 0x370
#define REG_GDMA_REQ_SGL_REQ 0x378
#define REG_GDMA_REQ_DST_REQ 0x380
#define REG_GDMA_REQ_LST_SRC 0x388
#define REG_GDMA_REQ_LST_DST 0x390
//3 Miscellaneous Registers
#define REG_GDMA_DMAC_CFG 0x398
#define REG_GDMA_CH_EN 0x3A0
#define REG_GDMA_DMA_ID 0x3A8
#define REG_GDMA_DMA_TEST 0x3B0
#define REG_GDMA_DMA_COM_PARAMS6 0x3C8
#define REG_GDMA_DMA_COM_PARAMS5 0x3D0
#define REG_GDMA_DMA_COM_PARAMS4 0x3D8
#define REG_GDMA_DMA_COM_PARAMS3 0x3E0
#define REG_GDMA_DMA_COM_PARAMS2 0x3E8
#define REG_GDMA_DMA_COM_PARAMS1 0x3F0
#define REG_GDMA_DMA_COM_PARAMS0 0x3F8
//3 CTL Register Bit Control
#define BIT_SHIFT_CTLX_LO_INT_EN 0
#define BIT_MASK_CTLX_LO_INT_EN 0x1
#define BIT_CTLX_LO_INT_EN(x)(((x) & BIT_MASK_CTLX_LO_INT_EN) << BIT_SHIFT_CTLX_LO_INT_EN)
#define BIT_INVC_CTLX_LO_INT_EN (~(BIT_MASK_CTLX_LO_INT_EN << BIT_SHIFT_CTLX_LO_INT_EN))
#define BIT_SHIFT_CTLX_LO_DST_TR_WIDTH 1
#define BIT_MASK_CTLX_LO_DST_TR_WIDTH 0x7
#define BIT_CTLX_LO_DST_TR_WIDTH(x) (((x) & BIT_MASK_CTLX_LO_DST_TR_WIDTH) << BIT_SHIFT_CTLX_LO_DST_TR_WIDTH)
#define BIT_INVC_CTLX_LO_DST_TR_WIDTH (~(BIT_MASK_CTLX_LO_DST_TR_WIDTH << BIT_SHIFT_CTLX_LO_DST_TR_WIDTH))
#define BIT_SHIFT_CTLX_LO_SRC_TR_WIDTH 4
#define BIT_MASK_CTLX_LO_SRC_TR_WIDTH 0x7
#define BIT_CTLX_LO_SRC_TR_WIDTH(x) (((x) & BIT_MASK_CTLX_LO_SRC_TR_WIDTH) << BIT_SHIFT_CTLX_LO_SRC_TR_WIDTH)
#define BIT_INVC_CTLX_LO_SRC_TR_WIDTH (~(BIT_MASK_CTLX_LO_SRC_TR_WIDTH << BIT_SHIFT_CTLX_LO_SRC_TR_WIDTH))
#define BIT_SHIFT_CTLX_LO_DINC 7
#define BIT_MASK_CTLX_LO_DINC 0x3
#define BIT_CTLX_LO_DINC(x)(((x) & BIT_MASK_CTLX_LO_DINC) << BIT_SHIFT_CTLX_LO_DINC)
#define BIT_INVC_CTLX_LO_DINC (~(BIT_MASK_CTLX_LO_DINC << BIT_SHIFT_CTLX_LO_DINC))
#define BIT_SHIFT_CTLX_LO_SINC 9
#define BIT_MASK_CTLX_LO_SINC 0x3
#define BIT_CTLX_LO_SINC(x)(((x) & BIT_MASK_CTLX_LO_SINC) << BIT_SHIFT_CTLX_LO_SINC)
#define BIT_INVC_CTLX_LO_SINC (~(BIT_MASK_CTLX_LO_SINC << BIT_SHIFT_CTLX_LO_SINC))
#define BIT_SHIFT_CTLX_LO_DEST_MSIZE 11
#define BIT_MASK_CTLX_LO_DEST_MSIZE 0x7
#define BIT_CTLX_LO_DEST_MSIZE(x)(((x) & BIT_MASK_CTLX_LO_DEST_MSIZE) << BIT_SHIFT_CTLX_LO_DEST_MSIZE)
#define BIT_INVC_CTLX_LO_DEST_MSIZE (~(BIT_MASK_CTLX_LO_DEST_MSIZE << BIT_SHIFT_CTLX_LO_DEST_MSIZE))
#define BIT_SHIFT_CTLX_LO_SRC_MSIZE 14
#define BIT_MASK_CTLX_LO_SRC_MSIZE 0x7
#define BIT_CTLX_LO_SRC_MSIZE(x)(((x) & BIT_MASK_CTLX_LO_SRC_MSIZE) << BIT_SHIFT_CTLX_LO_SRC_MSIZE)
#define BIT_INVC_CTLX_LO_SRC_MSIZE (~(BIT_MASK_CTLX_LO_SRC_MSIZE << BIT_SHIFT_CTLX_LO_SRC_MSIZE))
#define BIT_SHIFT_CTLX_LO_SRC_GATHER_EN 17
#define BIT_MASK_CTLX_LO_SRC_GATHER_EN 0x1
#define BIT_CTLX_LO_SRC_GATHER_EN(x)(((x) & BIT_MASK_CTLX_LO_SRC_GATHER_EN) << BIT_SHIFT_CTLX_LO_SRC_GATHER_EN)
#define BIT_INVC_CTLX_LO_SRC_GATHER_EN (~(BIT_MASK_CTLX_LO_SRC_GATHER_EN << BIT_SHIFT_CTLX_LO_SRC_GATHER_EN))
#define BIT_SHIFT_CTLX_LO_DST_SCATTER_EN 18
#define BIT_MASK_CTLX_LO_DST_SCATTER_EN 0x1
#define BIT_CTLX_LO_DST_SCATTER_EN(x)(((x) & BIT_MASK_CTLX_LO_DST_SCATTER_EN) << BIT_SHIFT_CTLX_LO_DST_SCATTER_EN)
#define BIT_INVC_CTLX_LO_DST_SCATTER_EN (~(BIT_MASK_CTLX_LO_DST_SCATTER_EN << BIT_SHIFT_CTLX_LO_DST_SCATTER_EN))
#define BIT_SHIFT_CTLX_LO_TT_FC 20
#define BIT_MASK_CTLX_LO_TT_FC 0x7
#define BIT_CTLX_LO_TT_FC(x)(((x) & BIT_MASK_CTLX_LO_TT_FC) << BIT_SHIFT_CTLX_LO_TT_FC)
#define BIT_INVC_CTLX_LO_TT_FC (~(BIT_MASK_CTLX_LO_TT_FC << BIT_SHIFT_CTLX_LO_TT_FC))
#define BIT_SHIFT_CTLX_LO_DMS 23
#define BIT_MASK_CTLX_LO_DMS 0x3
#define BIT_CTLX_LO_DMS(x)(((x) & BIT_MASK_CTLX_LO_DMS) << BIT_MASK_CTLX_LO_DMS)
#define BIT_INVC_CTLX_LO_DMS (~(BIT_MASK_CTLX_LO_DMS << BIT_SHIFT_CTLX_LO_DMS))
#define BIT_SHIFT_CTLX_LO_SMS 25
#define BIT_MASK_CTLX_LO_SMS 0x3
#define BIT_CTLX_LO_SMS(x)(((x) & BIT_MASK_CTLX_LO_SMS) << BIT_SHIFT_CTLX_LO_SMS)
#define BIT_INVC_CTLX_LO_SMS (~(BIT_MASK_CTLX_LO_SMS << BIT_SHIFT_CTLX_LO_SMS))
#define BIT_SHIFT_CTLX_LO_LLP_DST_EN 27
#define BIT_MASK_CTLX_LO_LLP_DST_EN 0x1
#define BIT_CTLX_LO_LLP_DST_EN(x)(((x) & BIT_MASK_CTLX_LO_LLP_DST_EN) << BIT_SHIFT_CTLX_LO_LLP_DST_EN)
#define BIT_INVC_CTLX_LO_LLP_DST_EN (~(BIT_MASK_CTLX_LO_LLP_DST_EN << BIT_SHIFT_CTLX_LO_LLP_DST_EN))
#define BIT_SHIFT_CTLX_LO_LLP_SRC_EN 28
#define BIT_MASK_CTLX_LO_LLP_SRC_EN 0x1
#define BIT_CTLX_LO_LLP_SRC_EN(x)(((x) & BIT_MASK_CTLX_LO_LLP_SRC_EN) << BIT_SHIFT_CTLX_LO_LLP_SRC_EN)
#define BIT_INVC_CTLX_LO_LLP_SRC_EN (~(BIT_MASK_CTLX_LO_LLP_SRC_EN << BIT_SHIFT_CTLX_LO_LLP_SRC_EN))
#define BIT_SHIFT_CTLX_UP_BLOCK_BS 0
#define BIT_MASK_CTLX_UP_BLOCK_BS 0xFFF
#define BIT_CTLX_UP_BLOCK_BS(x)(((x) & BIT_MASK_CTLX_UP_BLOCK_BS) << BIT_SHIFT_CTLX_UP_BLOCK_BS)
#define BIT_INVC_CTLX_UP_BLOCK_BS (~(BIT_MASK_CTLX_UP_BLOCK_BS << BIT_SHIFT_CTLX_UP_BLOCK_BS))
#define BIT_SHIFT_CTLX_UP_DONE 12
#define BIT_MASK_CTLX_UP_DONE 0x1
#define BIT_CTLX_UP_DONE(x)(((x) & BIT_MASK_CTLX_UP_DONE) << BIT_SHIFT_CTLX_UP_DONE)
#define BIT_INVC_CTLX_UP_DONE (~(BIT_MASK_CTLX_UP_DONE << BIT_SHIFT_CTLX_UP_DONE))
//3 CFG Register Bit Control
#define BIT_SHIFT_CFGX_LO_CH_PRIOR 5
#define BIT_MASK_CFGX_LO_CH_PRIOR 0x7
#define BIT_CFGX_LO_CH_PRIOR(x)(((x) & BIT_MASK_CFGX_LO_CH_PRIOR) << BIT_SHIFT_CFGX_LO_CH_PRIOR)
#define BIT_INVC_CFGX_LO_CH_PRIOR (~(BIT_MASK_CFGX_LO_CH_PRIOR << BIT_SHIFT_CFGX_LO_CH_PRIOR))
#define BIT_SHIFT_CFGX_LO_CH_SUSP 8
#define BIT_MASK_CFGX_LO_CH_SUSP 0x1
#define BIT_CFGX_LO_CH_SUSP(x)(((x) & BIT_MASK_CFGX_LO_CH_SUSP) << BIT_SHIFT_CFGX_LO_CH_SUSP)
#define BIT_INVC_CFGX_LO_CH_SUSP (~(BIT_MASK_CFGX_LO_CH_SUSP << BIT_SHIFT_CFGX_LO_CH_SUSP))
#define BIT_SHIFT_CFGX_LO_FIFO_EMPTY 9
#define BIT_MASK_CFGX_LO_FIFO_EMPTY 0x1
#define BIT_CFGX_LO_FIFO_EMPTY(x)(((x) & BIT_MASK_CFGX_LO_FIFO_EMPTY) << BIT_SHIFT_CFGX_LO_FIFO_EMPTY)
#define BIT_INVC_CFGX_LO_FIFO_EMPTY (~(BIT_MASK_CFGX_LO_FIFO_EMPTY << BIT_SHIFT_CFGX_LO_FIFO_EMPTY))
#define BIT_SHIFT_CFGX_LO_HS_SEL_DST 10
#define BIT_MASK_CFGX_LO_HS_SEL_DST 0x1
#define BIT_CFGX_LO_HS_SEL_DST(x)(((x) & BIT_MASK_CFGX_LO_HS_SEL_DST) << BIT_SHIFT_CFGX_LO_HS_SEL_DST)
#define BIT_INVC_CFGX_LO_HS_SEL_DST (~(BIT_MASK_CFGX_LO_HS_SEL_DST << BIT_SHIFT_CFGX_LO_HS_SEL_DST))
#define BIT_SHIFT_CFGX_LO_HS_SEL_SRC 11
#define BIT_MASK_CFGX_LO_HS_SEL_SRC 0x1
#define BIT_CFGX_LO_HS_SEL_SRC(x)(((x) & BIT_MASK_CFGX_LO_HS_SEL_SRC) << BIT_SHIFT_CFGX_LO_HS_SEL_SRC)
#define BIT_INVC_CFGX_LO_HS_SEL_SRC (~(BIT_MASK_CFGX_LO_HS_SEL_SRC << BIT_SHIFT_CFGX_LO_HS_SEL_SRC))
#define BIT_SHIFT_CFGX_LO_LOCK_CH_L 12
#define BIT_MASK_CFGX_LO_LOCK_CH_L 0x3
#define BIT_CFGX_LO_LOCK_CH_L(x)(((x) & BIT_MASK_CFGX_LO_LOCK_CH_L) << BIT_SHIFT_CFGX_LO_LOCK_CH_L)
#define BIT_INVC_CFGX_LO_LOCK_CH_L (~(BIT_MASK_CFGX_LO_LOCK_CH_L << BIT_SHIFT_CFGX_LO_LOCK_CH_L))
#define BIT_SHIFT_CFGX_LO_LOCK_B_L 14
#define BIT_MASK_CFGX_LO_LOCK_B_L 0x3
#define BIT_CFGX_LO_LOCK_B_L(x)(((x) & BIT_MASK_CFGX_LO_LOCK_B_L) << BIT_SHIFT_CFGX_LO_LOCK_B_L)
#define BIT_INVC_CFGX_LO_LOCK_B_L (~(BIT_MASK_CFGX_LO_LOCK_B_L << BIT_SHIFT_CFGX_LO_LOCK_B_L))
#define BIT_SHIFT_CFGX_LO_LOCK_CH 16
#define BIT_MASK_CFGX_LO_LOCK_CH 0x1
#define BIT_CFGX_LO_LOCK_CH(x)(((x) & BIT_MASK_CFGX_LO_LOCK_CH) << BIT_SHIFT_CFGX_LO_LOCK_CH)
#define BIT_INVC_CFGX_LO_LOCK_CH (~(BIT_MASK_CFGX_LO_LOCK_CH << BIT_SHIFT_CFGX_LO_LOCK_CH))
#define BIT_SHIFT_CFGX_LO_LOCK_B 17
#define BIT_MASK_CFGX_LO_LOCK_B 0x1
#define BIT_CFGX_LO_LOCK_B(x)(((x) & BIT_MASK_CFGX_LO_LOCK_B) << BIT_SHIFT_CFGX_LO_LOCK_B)
#define BIT_INVC_CFGX_LO_LOCK_B (~(BIT_MASK_CFGX_LO_LOCK_B << BIT_SHIFT_CFGX_LO_LOCK_B))
#define BIT_SHIFT_CFGX_LO_DST_HS_POL 18
#define BIT_MASK_CFGX_LO_DST_HS_POL 0x1
#define BIT_CFGX_LO_DST_HS_POL(x)(((x) & BIT_MASK_CFGX_LO_DST_HS_POL) << BIT_SHIFT_CFGX_LO_DST_HS_POL)
#define BIT_INVC_CFGX_LO_DST_HS_POL (~(BIT_MASK_CFGX_LO_DST_HS_POL << BIT_SHIFT_CFGX_LO_DST_HS_POL))
#define BIT_SHIFT_CFGX_LO_SRC_HS_POL 19
#define BIT_MASK_CFGX_LO_SRC_HS_POL 0x1
#define BIT_CFGX_LO_SRC_HS_POL(x)(((x) & BIT_MASK_CFGX_LO_SRC_HS_POL) << BIT_SHIFT_CFGX_LO_SRC_HS_POL)
#define BIT_INVC_CFGX_LO_SRC_HS_POL (~(BIT_MASK_CFGX_LO_SRC_HS_POL << BIT_SHIFT_CFGX_LO_SRC_HS_POL))
#define BIT_SHIFT_CFGX_LO_MAX_ABRST 20
#define BIT_MASK_CFGX_LO_MAX_ABRST 0x3FF
#define BIT_CFGX_LO_MAX_ABRST(x)(((x) & BIT_MASK_CFGX_LO_MAX_ABRST) << BIT_SHIFT_CFGX_LO_MAX_ABRST)
#define BIT_INVC_CFGX_LO_MAX_ABRST (~(BIT_MASK_CFGX_LO_MAX_ABRST << BIT_SHIFT_CFGX_LO_MAX_ABRST))
#define BIT_SHIFT_CFGX_LO_RELOAD_SRC 30
#define BIT_MASK_CFGX_LO_RELOAD_SRC 0x1
#define BIT_CFGX_LO_RELOAD_SRC(x)(((x) & BIT_MASK_CFGX_LO_RELOAD_SRC) << BIT_SHIFT_CFGX_LO_RELOAD_SRC)
#define BIT_INVC_CFGX_LO_RELOAD_SRC (~(BIT_MASK_CFGX_LO_RELOAD_SRC << BIT_SHIFT_CFGX_LO_RELOAD_SRC))
#define BIT_SHIFT_CFGX_LO_RELOAD_DST 31
#define BIT_MASK_CFGX_LO_RELOAD_DST 0x1
#define BIT_CFGX_LO_RELOAD_DST(x)(((x) & BIT_MASK_CFGX_LO_RELOAD_DST) << BIT_SHIFT_CFGX_LO_RELOAD_DST)
#define BIT_INVC_CFGX_LO_RELOAD_DST (~(BIT_MASK_CFGX_LO_RELOAD_DST << BIT_SHIFT_CFGX_LO_RELOAD_DST))
#define BIT_SHIFT_CFGX_UP_FCMODE 0
#define BIT_MASK_CFGX_UP_FCMODE 0x1
#define BIT_CFGX_UP_FCMODE(x)(((x) & BIT_MASK_CFGX_UP_FCMODE) << BIT_SHIFT_CFGX_UP_FCMODE)
#define BIT_INVC_CFGX_UP_FCMODE (~(BIT_MASK_CFGX_UP_FCMODE << BIT_SHIFT_CFGX_UP_FCMODE))
#define BIT_SHIFT_CFGX_UP_FIFO_MODE 1
#define BIT_MASK_CFGX_UP_FIFO_MODE 0x1
#define BIT_CFGX_UP_FIFO_MODE(x)(((x) & BIT_MASK_CFGX_UP_FIFO_MODE) << BIT_SHIFT_CFGX_UP_FIFO_MODE)
#define BIT_INVC_CFGX_UP_FIFO_MODE (~(BIT_MASK_CFGX_UP_FIFO_MODE << BIT_SHIFT_CFGX_UP_FIFO_MODE))
#define BIT_SHIFT_CFGX_UP_PROTCTL 2
#define BIT_MASK_CFGX_UP_PROTCTL 0x7
#define BIT_CFGX_UP_PROTCTL(x)(((x) & BIT_MASK_CFGX_UP_PROTCTL) << BIT_SHIFT_CFGX_UP_PROTCTL)
#define BIT_INVC_CFGX_UP_PROTCTL (~(BIT_MASK_CFGX_UP_PROTCTL << BIT_SHIFT_CFGX_UP_PROTCTL))
#define BIT_SHIFT_CFGX_UP_DS_UPD_EN 5
#define BIT_MASK_CFGX_UP_DS_UPD_EN 0x1
#define BIT_CFGX_UP_DS_UPD_EN(x)(((x) & BIT_MASK_CFGX_UP_DS_UPD_EN) << BIT_SHIFT_CFGX_UP_DS_UPD_EN)
#define BIT_INVC_CFGX_UP_DS_UPD_EN (~(BIT_MASK_CFGX_UP_DS_UPD_EN << BIT_SHIFT_CFGX_UP_DS_UPD_EN))
#define BIT_SHIFT_CFGX_UP_SS_UPD_EN 6
#define BIT_MASK_CFGX_UP_SS_UPD_EN 0x1
#define BIT_CFGX_UP_SS_UPD_EN(x)(((x) & BIT_MASK_CFGX_UP_SS_UPD_EN) << BIT_SHIFT_CFGX_UP_SS_UPD_EN)
#define BIT_INVC_CFGX_UP_SS_UPD_EN (~(BIT_MASK_CFGX_UP_SS_UPD_EN << BIT_SHIFT_CFGX_UP_SS_UPD_EN))
#define BIT_SHIFT_CFGX_UP_SRC_PER 7
#define BIT_MASK_CFGX_UP_SRC_PER 0xF
#define BIT_CFGX_UP_SRC_PER(x)(((x) & BIT_MASK_CFGX_UP_SRC_PER) << BIT_SHIFT_CFGX_UP_SRC_PER)
#define BIT_INVC_CFGX_UP_SRC_PER (~(BIT_MASK_CFGX_UP_SRC_PER << BIT_SHIFT_CFGX_UP_SRC_PER))
#define BIT_SHIFT_CFGX_UP_DEST_PER 11
#define BIT_MASK_CFGX_UP_DEST_PER 0xF
#define BIT_CFGX_UP_DEST_PER(x)(((x) & BIT_MASK_CFGX_UP_DEST_PER) << BIT_SHIFT_CFGX_UP_DEST_PER)
#define BIT_INVC_CFGX_UP_DEST_PER (~(BIT_MASK_CFGX_UP_DEST_PER << BIT_SHIFT_CFGX_UP_DEST_PER))
typedef enum _GDMA_CHANNEL_NUM_ {
GdmaNoCh = 0x0000,
GdmaCh0 = 0x0101,
GdmaCh1 = 0x0202,
GdmaCh2 = 0x0404,
GdmaCh3 = 0x0808,
GdmaCh4 = 0x1010,
GdmaCh5 = 0x2020,
GdmaCh6 = 0x4040,
GdmaCh7 = 0x8080,
GdmaAllCh = 0xffff
}GDMA_CHANNEL_NUM, *PGDMA_CHANNEL_NUM;
//3 CTL register struct
typedef enum _GDMA_CTL_TT_FC_TYPE_ {
TTFCMemToMem = 0x00,
TTFCMemToPeri = 0x01,
TTFCPeriToMem = 0x02
}GDMA_CTL_TT_FC_TYPE, *PGDMA_CTL_TT_FC_TYPE;
//Max type = Bus Width
typedef enum _GDMA_CTL_TR_WIDTH_ {
TrWidthOneByte = 0x00,
TrWidthTwoBytes = 0x01,
TrWidthFourBytes = 0x02
}GDMA_CTL_TR_WIDTH, *PGDMA_CTL_TR_WIDTH;
typedef enum _GDMA_CTL_MSIZE_ {
MsizeOne = 0x00,
MsizeFour = 0x01,
MsizeEight = 0x02
}GDMA_CTL_MSIZE, *PGDMA_CTL_MSIZE;
typedef enum _GDMA_INC_TYPE_ {
IncType = 0x00,
DecType = 0x01,
NoChange = 0x02
}GDMA_INC_TYPE, *PGDMA_INC_TYPE;
typedef struct _GDMA_CTL_REG_ {
GDMA_CTL_TT_FC_TYPE TtFc;
GDMA_CTL_TR_WIDTH DstTrWidth;
GDMA_CTL_TR_WIDTH SrcTrWidth;
GDMA_INC_TYPE Dinc;
GDMA_INC_TYPE Sinc;
GDMA_CTL_MSIZE DestMsize;
GDMA_CTL_MSIZE SrcMsize;
u8 IntEn :1; // Bit 0
u8 SrcGatherEn :1; // Bit 1
u8 DstScatterEn :1; // Bit 2
u8 LlpDstEn :1; // Bit 3
u8 LlpSrcEn :1; // Bit 4
u8 Done :1; // Bit 5
u8 Rsvd6To7 :2; //Bit 6 -7
u16 BlockSize;
}GDMA_CTL_REG, *PGDMA_CTL_REG;
//3 CFG Register Structure
typedef enum _GDMA_CH_PRIORITY_ {
Prior0 = 0,
Prior1 = 1,
Prior2 = 2,
Prior3 = 3,
Prior4 = 4,
Prior5 = 5,
Prior6 = 6,
Prior7 = 7
}GDMA_CH_PRIORITY, *PGDMA_CH_PRIORITY;
typedef enum _GDMA_LOCK_LEVEL_ {
OverComplDmaTransfer = 0x00,
OverComplDmaBlockTransfer = 0x01,
OverComplDmaTransation = 0x02
}GDMA_LOCK_LEVEL, *PGDMA_LOCK_LEVEL;
typedef struct _GDMA_CFG_REG_ {
GDMA_CH_PRIORITY ChPrior;
GDMA_LOCK_LEVEL LockBL;
GDMA_LOCK_LEVEL LockChL;
u16 MaxAbrst;
u8 SrcPer;
u8 DestPer;
u16 ChSusp :1; //Bit 0
u16 FifoEmpty :1; //Bit 1
u16 HsSelDst :1; //Bit 2
u16 HsSelSrc :1; //Bit 3
u16 LockCh :1; //Bit 4
u16 LockB :1; //Bit 5
u16 DstHsPol :1; //Bit 6
u16 SrcHsPol :1; //Bit 7
u16 ReloadSrc :1; //Bit 8
u16 ReloadDst :1; //Bit 9
u16 FifoMode :1; //Bit 10
u16 DsUpdEn :1; //Bit 11
u16 SsUpdEn :1; //Bit 12
u16 Rsvd13To15 :3;
}GDMA_CFG_REG, *PGDMA_CFG_REG;
typedef enum _GDMA_ISR_TYPE_ {
TransferType = 0x1,
BlockType = 0x2,
SrcTransferType = 0x4,
DstTransferType = 0x8,
ErrType = 0x10
}GDMA_ISR_TYPE, *PGDMA_ISR_TYPE;
VOID
HalGdmaOnOffRtl8195a (
IN VOID *Data
);
BOOL
HalGdamChInitRtl8195a(
IN VOID *Data
);
BOOL
HalGdmaChSetingRtl8195a(
IN VOID *Data
);
BOOL
HalGdmaChBlockSetingRtl8195a(
IN VOID *Data
);
BOOL
HalGdmaChBlockSetingRtl8195a_Patch(
IN VOID *Data
);
VOID
HalGdmaChDisRtl8195a (
IN VOID *Data
);
VOID
HalGdmaChEnRtl8195a (
IN VOID *Data
);
VOID
HalGdmaChIsrEnAndDisRtl8195a (
IN VOID *Data
);
u8
HalGdmaChIsrCleanRtl8195a (
IN VOID *Data
);
VOID
HalGdmaChCleanAutoSrcRtl8195a (
IN VOID *Data
);
VOID
HalGdmaChCleanAutoDstRtl8195a (
IN VOID *Data
);
u32
HalGdmaQueryDArRtl8195a(
IN VOID *Data
);
u32
HalGdmaQuerySArRtl8195a(
IN VOID *Data
);
BOOL
HalGdmaQueryChEnRtl8195a (
IN VOID *Data
);
#ifdef CONFIG_CHIP_E_CUT
_LONG_CALL_ BOOL
HalGdmaChBlockSetingRtl8195a_V04(
IN VOID *Data
);
_LONG_CALL_ u32
HalGdmaQueryDArRtl8195a_V04(
IN VOID *Data
);
_LONG_CALL_ u32
HalGdmaQuerySArRtl8195a_V04(
IN VOID *Data
);
_LONG_CALL_ BOOL
HalGdmaQueryChEnRtl8195a_V04 (
IN VOID *Data
);
#endif // #ifdef CONFIG_CHIP_E_CUT
#endif