Mihail Stoyanov
/
USBDevice
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USBDevice/TARGET_RENESAS/TARGET_RZ_A1H/usb1/src/userdef/usb1_function_dmacdrv.c
- Committer:
- screamer
- Date:
- 2017-04-28
- Branch:
- stm32-support
- Revision:
- 75:75970000c5b7
- Parent:
- 46:378357d7e90d
File content as of revision 75:75970000c5b7:
/*******************************************************************************
* DISCLAIMER
* This software is supplied by Renesas Electronics Corporation and is only
* intended for use with Renesas products. No other uses are authorized. This
* software is owned by Renesas Electronics Corporation and is protected under
* all applicable laws, including copyright laws.
* THIS SOFTWARE IS PROVIDED "AS IS" AND RENESAS MAKES NO WARRANTIES REGARDING
* THIS SOFTWARE, WHETHER EXPRESS, IMPLIED OR STATUTORY, INCLUDING BUT NOT
* LIMITED TO WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE
* AND NON-INFRINGEMENT. ALL SUCH WARRANTIES ARE EXPRESSLY DISCLAIMED.
* TO THE MAXIMUM EXTENT PERMITTED NOT PROHIBITED BY LAW, NEITHER RENESAS
* ELECTRONICS CORPORATION NOR ANY OF ITS AFFILIATED COMPANIES SHALL BE LIABLE
* FOR ANY DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR
* ANY REASON RELATED TO THIS SOFTWARE, EVEN IF RENESAS OR ITS AFFILIATES HAVE
* BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
* Renesas reserves the right, without notice, to make changes to this software
* and to discontinue the availability of this software. By using this software,
* you agree to the additional terms and conditions found by accessing the
* following link:
* http://www.renesas.com/disclaimer
* Copyright (C) 2012 - 2014 Renesas Electronics Corporation. All rights reserved.
*******************************************************************************/
/*******************************************************************************
* File Name : usb1_function_dmacdrv.c
* $Rev: 1116 $
* $Date:: 2014-07-09 16:29:19 +0900#$
* Device(s) : RZ/A1H
* Tool-Chain :
* OS : None
* H/W Platform :
* Description : RZ/A1H R7S72100 USB Sample Program
* Operation :
* Limitations :
*******************************************************************************/
/*******************************************************************************
Includes <System Includes> , "Project Includes"
*******************************************************************************/
#include <stdio.h>
#include "r_typedefs.h"
#include "iodefine.h"
#include "rza_io_regrw.h"
#include "usb1_function_dmacdrv.h"
/*******************************************************************************
Typedef definitions
*******************************************************************************/
/*******************************************************************************
Macro definitions
*******************************************************************************/
#define DMAC_INDEFINE (255) /* Macro definition when REQD bit is not used */
/* ==== Request setting information for on-chip peripheral module ==== */
typedef enum dmac_peri_req_reg_type
{
DMAC_REQ_MID,
DMAC_REQ_RID,
DMAC_REQ_AM,
DMAC_REQ_LVL,
DMAC_REQ_REQD
} dmac_peri_req_reg_type_t;
/*******************************************************************************
Imported global variables and functions (from other files)
*******************************************************************************/
/*******************************************************************************
Exported global variables and functions (to be accessed by other files)
*******************************************************************************/
/*******************************************************************************
Private global variables and functions
*******************************************************************************/
/* ==== Prototype declaration ==== */
/* ==== Global variable ==== */
/* On-chip peripheral module request setting table */
static const uint8_t usb1_function_dmac_peri_req_init_table[8][5] =
{
/* MID,RID,AM,LVL,REQD */
{32, 3, 2, 1, 1}, /* USB_0 channel 0 transmit FIFO empty */
{32, 3, 2, 1, 0}, /* USB_0 channel 0 receive FIFO full */
{33, 3, 2, 1, 1}, /* USB_0 channel 1 transmit FIFO empty */
{33, 3, 2, 1, 0}, /* USB_0 channel 1 receive FIFO full */
{34, 3, 2, 1, 1}, /* USB_1 channel 0 transmit FIFO empty */
{34, 3, 2, 1, 0}, /* USB_1 channel 0 receive FIFO full */
{35, 3, 2, 1, 1}, /* USB_1 channel 1 transmit FIFO empty */
{35, 3, 2, 1, 0}, /* USB_1 channel 1 receive FIFO full */
};
/*******************************************************************************
* Function Name: usb1_function_DMAC3_PeriReqInit
* Description : Sets the register mode for DMA mode and the on-chip peripheral
* : module request for transfer request for DMAC channel 1.
* : Executes DMAC initial setting using the DMA information
* : specified by the argument *trans_info and the enabled/disabled
* : continuous transfer specified by the argument continuation.
* : Registers DMAC channel 1 interrupt handler function and sets
* : the interrupt priority level. Then enables transfer completion
* : interrupt.
* Arguments : dmac_transinfo_t *trans_info : Setting information to DMAC register
* : uint32_t dmamode : DMA mode (only for DMAC_MODE_REGISTER)
* : uint32_t continuation : Set continuous transfer to be valid
* : after DMA transfer has been completed
* : DMAC_SAMPLE_CONTINUATION : Execute continuous transfer
* : DMAC_SAMPLE_SINGLE : Do not execute continuous transfer
* : uint32_t request_factor : Factor for on-chip peripheral module request
* : DMAC_REQ_OSTM0TINT : OSTM_0 compare match
* : DMAC_REQ_OSTM1TINT : OSTM_1 compare match
* : DMAC_REQ_TGI0A : MTU2_0 input capture/compare match
* : :
* : uint32_t req_direction: Setting value of CHCFG_n register REQD bit
* Return Value : none
*******************************************************************************/
void usb1_function_DMAC3_PeriReqInit (const dmac_transinfo_t * trans_info,
uint32_t dmamode, uint32_t continuation,
uint32_t request_factor, uint32_t req_direction)
{
/* ==== Register mode ==== */
if (DMAC_MODE_REGISTER == dmamode)
{
/* ==== Next0 register set ==== */
DMAC3.N0SA_n = trans_info->src_addr; /* Start address of transfer source */
DMAC3.N0DA_n = trans_info->dst_addr; /* Start address of transfer destination */
DMAC3.N0TB_n = trans_info->count; /* Total transfer byte count */
/* DAD : Transfer destination address counting direction */
/* SAD : Transfer source address counting direction */
/* DDS : Transfer destination transfer size */
/* SDS : Transfer source transfer size */
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
trans_info->daddr_dir,
DMAC3_CHCFG_n_DAD_SHIFT,
DMAC3_CHCFG_n_DAD);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
trans_info->saddr_dir,
DMAC3_CHCFG_n_SAD_SHIFT,
DMAC3_CHCFG_n_SAD);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
trans_info->dst_size,
DMAC3_CHCFG_n_DDS_SHIFT,
DMAC3_CHCFG_n_DDS);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
trans_info->src_size,
DMAC3_CHCFG_n_SDS_SHIFT,
DMAC3_CHCFG_n_SDS);
/* DMS : Register mode */
/* RSEL : Select Next0 register set */
/* SBE : No discharge of buffer data when aborted */
/* DEM : No DMA interrupt mask */
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_DMS_SHIFT,
DMAC3_CHCFG_n_DMS);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_RSEL_SHIFT,
DMAC3_CHCFG_n_RSEL);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_SBE_SHIFT,
DMAC3_CHCFG_n_SBE);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_DEM_SHIFT,
DMAC3_CHCFG_n_DEM);
/* ---- Continuous transfer ---- */
if (DMAC_SAMPLE_CONTINUATION == continuation)
{
/* REN : Execute continuous transfer */
/* RSW : Change register set when DMA transfer is completed. */
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
1,
DMAC3_CHCFG_n_REN_SHIFT,
DMAC3_CHCFG_n_REN);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
1,
DMAC3_CHCFG_n_RSW_SHIFT,
DMAC3_CHCFG_n_RSW);
}
/* ---- Single transfer ---- */
else
{
/* REN : Do not execute continuous transfer */
/* RSW : Do not change register set when DMA transfer is completed. */
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_REN_SHIFT,
DMAC3_CHCFG_n_REN);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_RSW_SHIFT,
DMAC3_CHCFG_n_RSW);
}
/* TM : Single transfer */
/* SEL : Channel setting */
/* HIEN, LOEN : On-chip peripheral module request */
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_TM_SHIFT,
DMAC3_CHCFG_n_TM);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
3,
DMAC3_CHCFG_n_SEL_SHIFT,
DMAC3_CHCFG_n_SEL);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
1,
DMAC3_CHCFG_n_HIEN_SHIFT,
DMAC3_CHCFG_n_HIEN);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
0,
DMAC3_CHCFG_n_LOEN_SHIFT,
DMAC3_CHCFG_n_LOEN);
/* ---- Set factor by specified on-chip peripheral module request ---- */
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_AM],
DMAC3_CHCFG_n_AM_SHIFT,
DMAC3_CHCFG_n_AM);
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_LVL],
DMAC3_CHCFG_n_LVL_SHIFT,
DMAC3_CHCFG_n_LVL);
if (usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_REQD] != DMAC_INDEFINE)
{
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_REQD],
DMAC3_CHCFG_n_REQD_SHIFT,
DMAC3_CHCFG_n_REQD);
}
else
{
RZA_IO_RegWrite_32(&DMAC3.CHCFG_n,
req_direction,
DMAC3_CHCFG_n_REQD_SHIFT,
DMAC3_CHCFG_n_REQD);
}
RZA_IO_RegWrite_32(&DMAC23.DMARS,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_RID],
DMAC23_DMARS_CH3_RID_SHIFT,
DMAC23_DMARS_CH3_RID);
RZA_IO_RegWrite_32(&DMAC23.DMARS,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_MID],
DMAC23_DMARS_CH3_MID_SHIFT,
DMAC23_DMARS_CH3_MID);
/* PR : Round robin mode */
RZA_IO_RegWrite_32(&DMAC07.DCTRL_0_7,
1,
DMAC07_DCTRL_0_7_PR_SHIFT,
DMAC07_DCTRL_0_7_PR);
}
}
/*******************************************************************************
* Function Name: usb1_function_DMAC3_Open
* Description : Enables DMAC channel 3 transfer.
* Arguments : uint32_t req : DMAC request mode
* Return Value : 0 : Succeeded in enabling DMA transfer
* : -1 : Failed to enable DMA transfer (due to DMA operation)
*******************************************************************************/
int32_t usb1_function_DMAC3_Open (uint32_t req)
{
int32_t ret;
volatile uint8_t dummy;
/* Transferable? */
if ((0 == RZA_IO_RegRead_32(&DMAC3.CHSTAT_n,
DMAC3_CHSTAT_n_EN_SHIFT,
DMAC3_CHSTAT_n_EN)) &&
(0 == RZA_IO_RegRead_32(&DMAC3.CHSTAT_n,
DMAC3_CHSTAT_n_TACT_SHIFT,
DMAC3_CHSTAT_n_TACT)))
{
/* Clear Channel Status Register */
RZA_IO_RegWrite_32(&DMAC3.CHCTRL_n,
1,
DMAC3_CHCTRL_n_SWRST_SHIFT,
DMAC3_CHCTRL_n_SWRST);
dummy = RZA_IO_RegRead_32(&DMAC3.CHCTRL_n,
DMAC3_CHCTRL_n_SWRST_SHIFT,
DMAC3_CHCTRL_n_SWRST);
/* Enable DMA transfer */
RZA_IO_RegWrite_32(&DMAC3.CHCTRL_n,
1,
DMAC3_CHCTRL_n_SETEN_SHIFT,
DMAC3_CHCTRL_n_SETEN);
/* ---- Request by software ---- */
if (DMAC_REQ_MODE_SOFT == req)
{
/* DMA transfer Request by software */
RZA_IO_RegWrite_32(&DMAC3.CHCTRL_n,
1,
DMAC3_CHCTRL_n_STG_SHIFT,
DMAC3_CHCTRL_n_STG);
}
ret = 0;
}
else
{
ret = -1;
}
return ret;
}
/*******************************************************************************
* Function Name: usb1_function_DMAC3_Close
* Description : Aborts DMAC channel 3 transfer. Returns the remaining transfer
* : byte count at the time of DMA transfer abort to the argument
* : *remain.
* Arguments : uint32_t * remain : Remaining transfer byte count when
* : : DMA transfer is aborted
* Return Value : none
*******************************************************************************/
void usb1_function_DMAC3_Close (uint32_t * remain)
{
/* ==== Abort transfer ==== */
RZA_IO_RegWrite_32(&DMAC3.CHCTRL_n,
1,
DMAC3_CHCTRL_n_CLREN_SHIFT,
DMAC3_CHCTRL_n_CLREN);
while (1 == RZA_IO_RegRead_32(&DMAC3.CHSTAT_n,
DMAC3_CHSTAT_n_TACT_SHIFT,
DMAC3_CHSTAT_n_TACT))
{
/* Loop until transfer is aborted */
}
while (1 == RZA_IO_RegRead_32(&DMAC3.CHSTAT_n,
DMAC3_CHSTAT_n_EN_SHIFT,
DMAC3_CHSTAT_n_EN))
{
/* Loop until 0 is set in EN before checking the remaining transfer byte count */
}
/* ==== Obtain remaining transfer byte count ==== */
*remain = DMAC3.CRTB_n;
}
/*******************************************************************************
* Function Name: usb1_function_DMAC3_Load_Set
* Description : Sets the transfer source address, transfer destination
* : address, and total transfer byte count respectively
* : specified by the argument src_addr, dst_addr, and count to
* : DMAC channel 3 as DMA transfer information.
* : Sets the register set selected by the CHCFG_n register
* : RSEL bit from the Next0 or Next1 register set.
* : This function should be called when DMA transfer of DMAC
* : channel 3 is aboted.
* Arguments : uint32_t src_addr : Transfer source address
* : uint32_t dst_addr : Transfer destination address
* : uint32_t count : Total transfer byte count
* Return Value : none
*******************************************************************************/
void usb1_function_DMAC3_Load_Set (uint32_t src_addr, uint32_t dst_addr, uint32_t count)
{
uint8_t reg_set;
/* Obtain register set in use */
reg_set = RZA_IO_RegRead_32(&DMAC3.CHSTAT_n,
DMAC3_CHSTAT_n_SR_SHIFT,
DMAC3_CHSTAT_n_SR);
/* ==== Load ==== */
if (0 == reg_set)
{
/* ---- Next0 Register Set ---- */
DMAC3.N0SA_n = src_addr; /* Start address of transfer source */
DMAC3.N0DA_n = dst_addr; /* Start address of transfer destination */
DMAC3.N0TB_n = count; /* Total transfer byte count */
}
else
{
/* ---- Next1 Register Set ---- */
DMAC3.N1SA_n = src_addr; /* Start address of transfer source */
DMAC3.N1DA_n = dst_addr; /* Start address of transfer destination */
DMAC3.N1TB_n = count; /* Total transfer byte count */
}
}
/*******************************************************************************
* Function Name: usb1_function_DMAC4_PeriReqInit
* Description : Sets the register mode for DMA mode and the on-chip peripheral
* : module request for transfer request for DMAC channel 2.
* : Executes DMAC initial setting using the DMA information
* : specified by the argument *trans_info and the enabled/disabled
* : continuous transfer specified by the argument continuation.
* : Registers DMAC channel 2 interrupt handler function and sets
* : the interrupt priority level. Then enables transfer completion
* : interrupt.
* Arguments : dmac_transinfo_t * trans_info : Setting information to DMAC
* : : register
* : uint32_t dmamode : DMA mode (only for DMAC_MODE_REGISTER)
* : uint32_t continuation : Set continuous transfer to be valid
* : : after DMA transfer has been completed
* : DMAC_SAMPLE_CONTINUATION : Execute continuous transfer
* : DMAC_SAMPLE_SINGLE : Do not execute continuous
* : : transfer
* : uint32_t request_factor : Factor for on-chip peripheral module
* : : request
* : DMAC_REQ_OSTM0TINT : OSTM_0 compare match
* : DMAC_REQ_OSTM1TINT : OSTM_1 compare match
* : DMAC_REQ_TGI0A : MTU2_0 input capture/compare match
* : :
* : uint32_t req_direction : Setting value of CHCFG_n register
* : : REQD bit
*******************************************************************************/
void usb1_function_DMAC4_PeriReqInit (const dmac_transinfo_t * trans_info,
uint32_t dmamode, uint32_t continuation,
uint32_t request_factor, uint32_t req_direction)
{
/* ==== Register mode ==== */
if (DMAC_MODE_REGISTER == dmamode)
{
/* ==== Next0 register set ==== */
DMAC4.N0SA_n = trans_info->src_addr; /* Start address of transfer source */
DMAC4.N0DA_n = trans_info->dst_addr; /* Start address of transfer destination */
DMAC4.N0TB_n = trans_info->count; /* Total transfer byte count */
/* DAD : Transfer destination address counting direction */
/* SAD : Transfer source address counting direction */
/* DDS : Transfer destination transfer size */
/* SDS : Transfer source transfer size */
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
trans_info->daddr_dir,
DMAC4_CHCFG_n_DAD_SHIFT,
DMAC4_CHCFG_n_DAD);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
trans_info->saddr_dir,
DMAC4_CHCFG_n_SAD_SHIFT,
DMAC4_CHCFG_n_SAD);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
trans_info->dst_size,
DMAC4_CHCFG_n_DDS_SHIFT,
DMAC4_CHCFG_n_DDS);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
trans_info->src_size,
DMAC4_CHCFG_n_SDS_SHIFT,
DMAC4_CHCFG_n_SDS);
/* DMS : Register mode */
/* RSEL : Select Next0 register set */
/* SBE : No discharge of buffer data when aborted */
/* DEM : No DMA interrupt mask */
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_DMS_SHIFT,
DMAC4_CHCFG_n_DMS);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_RSEL_SHIFT,
DMAC4_CHCFG_n_RSEL);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_SBE_SHIFT,
DMAC4_CHCFG_n_SBE);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_DEM_SHIFT,
DMAC4_CHCFG_n_DEM);
/* ---- Continuous transfer ---- */
if (DMAC_SAMPLE_CONTINUATION == continuation)
{
/* REN : Execute continuous transfer */
/* RSW : Change register set when DMA transfer is completed. */
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
1,
DMAC4_CHCFG_n_REN_SHIFT,
DMAC4_CHCFG_n_REN);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
1,
DMAC4_CHCFG_n_RSW_SHIFT,
DMAC4_CHCFG_n_RSW);
}
/* ---- Single transfer ---- */
else
{
/* REN : Do not execute continuous transfer */
/* RSW : Do not change register set when DMA transfer is completed. */
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_REN_SHIFT,
DMAC4_CHCFG_n_REN);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_RSW_SHIFT,
DMAC4_CHCFG_n_RSW);
}
/* TM : Single transfer */
/* SEL : Channel setting */
/* HIEN, LOEN : On-chip peripheral module request */
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_TM_SHIFT,
DMAC4_CHCFG_n_TM);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
4,
DMAC4_CHCFG_n_SEL_SHIFT,
DMAC4_CHCFG_n_SEL);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
1,
DMAC4_CHCFG_n_HIEN_SHIFT,
DMAC4_CHCFG_n_HIEN);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
0,
DMAC4_CHCFG_n_LOEN_SHIFT,
DMAC4_CHCFG_n_LOEN);
/* ---- Set factor by specified on-chip peripheral module request ---- */
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_AM],
DMAC4_CHCFG_n_AM_SHIFT,
DMAC4_CHCFG_n_AM);
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_LVL],
DMAC4_CHCFG_n_LVL_SHIFT,
DMAC4_CHCFG_n_LVL);
if (usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_REQD] != DMAC_INDEFINE)
{
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_REQD],
DMAC4_CHCFG_n_REQD_SHIFT,
DMAC4_CHCFG_n_REQD);
}
else
{
RZA_IO_RegWrite_32(&DMAC4.CHCFG_n,
req_direction,
DMAC4_CHCFG_n_REQD_SHIFT,
DMAC4_CHCFG_n_REQD);
}
RZA_IO_RegWrite_32(&DMAC45.DMARS,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_RID],
DMAC45_DMARS_CH4_RID_SHIFT,
DMAC45_DMARS_CH4_RID);
RZA_IO_RegWrite_32(&DMAC45.DMARS,
usb1_function_dmac_peri_req_init_table[request_factor][DMAC_REQ_MID],
DMAC45_DMARS_CH4_MID_SHIFT,
DMAC45_DMARS_CH4_MID);
/* PR : Round robin mode */
RZA_IO_RegWrite_32(&DMAC07.DCTRL_0_7,
1,
DMAC07_DCTRL_0_7_PR_SHIFT,
DMAC07_DCTRL_0_7_PR);
}
}
/*******************************************************************************
* Function Name: usb1_function_DMAC4_Open
* Description : Enables DMAC channel 4 transfer.
* Arguments : uint32_t req : DMAC request mode
* Return Value : 0 : Succeeded in enabling DMA transfer
* : -1 : Failed to enable DMA transfer (due to DMA operation)
*******************************************************************************/
int32_t usb1_function_DMAC4_Open (uint32_t req)
{
int32_t ret;
volatile uint8_t dummy;
/* Transferable? */
if ((0 == RZA_IO_RegRead_32(&DMAC4.CHSTAT_n,
DMAC4_CHSTAT_n_EN_SHIFT,
DMAC4_CHSTAT_n_EN)) &&
(0 == RZA_IO_RegRead_32(&DMAC4.CHSTAT_n,
DMAC4_CHSTAT_n_TACT_SHIFT,
DMAC4_CHSTAT_n_TACT)))
{
/* Clear Channel Status Register */
RZA_IO_RegWrite_32(&DMAC4.CHCTRL_n,
1,
DMAC4_CHCTRL_n_SWRST_SHIFT,
DMAC4_CHCTRL_n_SWRST);
dummy = RZA_IO_RegRead_32(&DMAC4.CHCTRL_n,
DMAC4_CHCTRL_n_SWRST_SHIFT,
DMAC4_CHCTRL_n_SWRST);
/* Enable DMA transfer */
RZA_IO_RegWrite_32(&DMAC4.CHCTRL_n,
1,
DMAC4_CHCTRL_n_SETEN_SHIFT,
DMAC4_CHCTRL_n_SETEN);
/* ---- Request by software ---- */
if (DMAC_REQ_MODE_SOFT == req)
{
/* DMA transfer Request by software */
RZA_IO_RegWrite_32(&DMAC4.CHCTRL_n,
1,
DMAC4_CHCTRL_n_STG_SHIFT,
DMAC4_CHCTRL_n_STG);
}
ret = 0;
}
else
{
ret = -1;
}
return ret;
}
/*******************************************************************************
* Function Name: usb1_function_DMAC4_Close
* Description : Aborts DMAC channel 4 transfer. Returns the remaining transfer
* : byte count at the time of DMA transfer abort to the argument
* : *remain.
* Arguments : uint32_t * remain : Remaining transfer byte count when
* : : DMA transfer is aborted
* Return Value : none
*******************************************************************************/
void usb1_function_DMAC4_Close (uint32_t * remain)
{
/* ==== Abort transfer ==== */
RZA_IO_RegWrite_32(&DMAC4.CHCTRL_n,
1,
DMAC4_CHCTRL_n_CLREN_SHIFT,
DMAC4_CHCTRL_n_CLREN);
while (1 == RZA_IO_RegRead_32(&DMAC4.CHSTAT_n,
DMAC4_CHSTAT_n_TACT_SHIFT,
DMAC4_CHSTAT_n_TACT))
{
/* Loop until transfer is aborted */
}
while (1 == RZA_IO_RegRead_32(&DMAC4.CHSTAT_n,
DMAC4_CHSTAT_n_EN_SHIFT,
DMAC4_CHSTAT_n_EN))
{
/* Loop until 0 is set in EN before checking the remaining transfer byte count */
}
/* ==== Obtain remaining transfer byte count ==== */
*remain = DMAC4.CRTB_n;
}
/*******************************************************************************
* Function Name: usb1_function_DMAC4_Load_Set
* Description : Sets the transfer source address, transfer destination
* : address, and total transfer byte count respectively
* : specified by the argument src_addr, dst_addr, and count to
* : DMAC channel 4 as DMA transfer information.
* : Sets the register set selected by the CHCFG_n register
* : RSEL bit from the Next0 or Next1 register set.
* : This function should be called when DMA transfer of DMAC
* : channel 4 is aboted.
* Arguments : uint32_t src_addr : Transfer source address
* : uint32_t dst_addr : Transfer destination address
* : uint32_t count : Total transfer byte count
* Return Value : none
*******************************************************************************/
void usb1_function_DMAC4_Load_Set (uint32_t src_addr, uint32_t dst_addr, uint32_t count)
{
uint8_t reg_set;
/* Obtain register set in use */
reg_set = RZA_IO_RegRead_32(&DMAC4.CHSTAT_n,
DMAC4_CHSTAT_n_SR_SHIFT,
DMAC4_CHSTAT_n_SR);
/* ==== Load ==== */
if (0 == reg_set)
{
/* ---- Next0 Register Set ---- */
DMAC4.N0SA_n = src_addr; /* Start address of transfer source */
DMAC4.N0DA_n = dst_addr; /* Start address of transfer destination */
DMAC4.N0TB_n = count; /* Total transfer byte count */
}
else
{
/* ---- Next1 Register Set ---- */
DMAC4.N1SA_n = src_addr; /* Start address of transfer source */
DMAC4.N1DA_n = dst_addr; /* Start address of transfer destination */
DMAC4.N1TB_n = count; /* Total transfer byte count */
}
}
/* End of File */