rtt-f030/bsp/rm48x50/HALCoGen/source/sys_dma.c

323 lines
9.8 KiB
C

/** @file dma.c
* @brief DMA Driver Inmplmentation File
* @date 29.May.2013
* @version 03.05.02
*
*/
/* (c) Texas Instruments 2009-2013, All rights reserved. */
#include "sys_dma.h"
/** @fn void dmaEnable(void)
* @brief enables DMA module
*
* This function brings DMA out of reset
*/
void dmaEnable(void)
{
dmaREG->GCTRL = 0x00000001U; /* reset dma */
dmaREG->GCTRL |= 0x00010000U; /* enable dma */
dmaREG->GCTRL |= 0x00000300U; /* stop at suspend */
}
/** @fn void dmaDisable(void)
* @brief disables DMA module
*
* This function disables DMA module
*/
void dmaDisable(void)
{
/* Wait until DMA's external bus has completed data transfer */
while((dmaREG->GCTRL & DMA_GCTRL_BUSBUSY) != 0U)
{
} /* Wait */
/* Disable DMA module */
dmaREG->GCTRL = 0U;
}
/** @fn void dmaReqAssign(uint32 channel,uint32 reqline)
* @brief Initializes the DMA Driver
* @param[in] channel DMA channel
* @param[in] reqline DMA request line
*
* This function assigns dma request lines to channels
*/
void dmaReqAssign(uint32 channel,uint32 reqline)
{
register uint32 i=0U,j=0U;
i = channel >> 2U; /* Find the register to configure */
j = channel -(i<<2U); /* Find the offset of the type */
j = 3U-j; /* reverse the byte order */
j = j<<3U; /* find the bit location */
/* mapping channel 'i' to request line 'j' */
dmaREG->DREQASI[i] &= ~(0xffU<<j);
dmaREG->DREQASI[i] |= (reqline<<j);
}
/** @fn uint32 dmaGetReq(uint32 channel)
* @brief Gets the request line number mapped to the selected channel
* @param[in] channel DMA channel
*
* This function returns the request line number mapped to the selected channel
*/
uint32 dmaGetReq(uint32 channel)
{
register uint32 i=0U,j=0U;
i = channel >> 2U; /* Find the register to configure */
j = channel -(i<<2U); /* Find the offset of the type */
j = 3U-j; /* reverse the byte order */
j = j<<3U; /* find the bit location */
return ((dmaREG->DREQASI[i] >> j) &0xffU);
}
/** @fn void dmaSetCtrlPacket(uint32 channel)
* @brief Initializes the DMA Driver
*
* This function sets control packet
*/
void dmaSetCtrlPacket(uint32 channel, g_dmaCTRL g_dmaCTRLPKT)
{
register uint32 i=0U,j=0U;
dmaRAMREG->PCP[channel].ISADDR = g_dmaCTRLPKT.SADD;
dmaRAMREG->PCP[channel].IDADDR = g_dmaCTRLPKT.DADD;
dmaRAMREG->PCP[channel].ITCOUNT = (g_dmaCTRLPKT.FRCNT << 16U) | g_dmaCTRLPKT.ELCNT;
dmaRAMREG->PCP[channel].CHCTRL = (g_dmaCTRLPKT.RDSIZE << 14U) | (g_dmaCTRLPKT.WRSIZE << 12U) | (g_dmaCTRLPKT.TTYPE << 8U)| \
(g_dmaCTRLPKT.ADDMODERD << 3U ) | (g_dmaCTRLPKT.ADDMODEWR << 1U ) | (g_dmaCTRLPKT.AUTOINIT);
dmaRAMREG->PCP[channel].CHCTRL |= (g_dmaCTRLPKT.CHCTRL << 16U);
dmaRAMREG->PCP[channel].EIOFF = (g_dmaCTRLPKT.ELDOFFSET << 16U) | (g_dmaCTRLPKT.ELSOFFSET);
dmaRAMREG->PCP[channel].FIOFF = (g_dmaCTRLPKT.FRDOFFSET << 16U) | (g_dmaCTRLPKT.FRSOFFSET);
i = channel >> 3U; /* Find the register to write */
j = channel -(i << 3U); /* Find the offset of the 4th bit */
j = 7U -j; /* Reverse the order of the 4th bit offset */
j = j<<2U; /* Find the bit location of the 4th bit to write */
dmaREG->PAR[i] &= ~(0xfU<<j);
dmaREG->PAR[i] |= (g_dmaCTRLPKT.PORTASGN<<j);
}
/** @fn void dmaSetChEnable(uint32 channel,uint32 type)
* @brief Enable channel
* @param[in] channel DMA channel
* @param[in] type Type of triggering
* - DMA_HW: Enables the selected DMA channel for hardware triggering
* - DMA_SW: Enables the selected DMA channel for software triggering
*
* This function enables the DMA channel for hardware or software triggering
*/
void dmaSetChEnable(uint32 channel,uint32 type)
{
if(type == DMA_HW)
{
dmaREG->HWCHENAS = (1U << channel);
}
else if(type == DMA_SW)
{
dmaREG->SWCHENAS = (1U << channel);
}
else
{
/** Empty */
}
}
/** @fn void dmaSetPriority(uint32 channel, dmaPRIORITY_t priority)
* @brief Assign Priority to the channel
* @param[in] channel DMA channel
* @param[in] priority Priority queue to which channel needs to be assigned
* - LOWPRIORITY : The selected channel will be assigned to low priority queue
* - HIGHPRIORITY: The selected channel will be assigned to high priority queue
*
* This function assigns the selected priority to the selected channel
*/
void dmaSetPriority(uint32 channel, dmaPRIORITY_t priority)
{
if (priority == LOWPRIORITY)
{
dmaREG->CHPRIOR |= 1U << channel;
}
else
{
dmaREG->CHPRIOS |= 1U << channel;
}
}
/** @fn void dmaEnableInterrupt(uint32 channel, dmaInterrupt_t inttype)
* @brief Enable selected interrupt
* @param[in] channel DMA channel
* @param[in] inttype Interrupt to be enabled
* - FTC: Frame Transfer Complete Interrupt will be disabled for the selected channel
* - LFS: Last Frame Transfer Started Interrupt will be disabled for the selected channel
* - HBC: First Half Of Block Complete Interrupt will be disabled for the selected channel
* - BTC: Block transfer complete Interrupt will be disabled for the selected channel
* - BER: Bus Error Interrupt will be disabled for the selected channel
*
* This function enables the selected interrupt for the selected channel
*/
void dmaEnableInterrupt(uint32 channel, dmaInterrupt_t inttype)
{
dmaREG->GCHIENAS = 1 << channel;
switch (inttype)
{
case FTC: dmaREG->FTCINTENAS |= 1U << channel;
break;
case LFS: dmaREG->LFSINTENAS |= 1U << channel;
break;
case HBC: dmaREG->HBCINTENAS |= 1U << channel;
break;
case BTC: dmaREG->BTCINTENAS |= 1U << channel;
break;
default :
break;
}
}
/** @fn void dmaDisableInterrupt(uint32 channel, dmaInterrupt_t inttype)
* @brief Disable selected interrupt
* @param[in] channel DMA channel
* @param[in] inttype Interrupt to be disabled
* - FTC: Frame Transfer Complete Interrupt will be disabled for the selected channel
* - LFS: Last Frame Transfer Started Interrupt will be disabled for the selected channel
* - HBC: First Half Of Block Complete Interrupt will be disabled for the selected channel
* - BTC: Block transfer complete Interrupt will be disabled for the selected channel
* - BER: Bus Error Interrupt will be disabled for the selected channel
*
* This function disables the selected interrupt for the selected channel
*/
void dmaDisableInterrupt(uint32 channel, dmaInterrupt_t inttype)
{
switch (inttype)
{
case FTC: dmaREG->FTCINTENAR |= 1U << channel;
break;
case LFS: dmaREG->LFSINTENAR |= 1U << channel;
break;
case HBC: dmaREG->HBCINTENAR |= 1U << channel;
break;
case BTC: dmaREG->BTCINTENAR |= 1U << channel;
break;
default :
break;
}
}
/** @fn void dmaDefineRegion(dmaREGION_t region, uint32 start_add, uint32 end_add)
* @brief Configure start and end address of the region
* @param[in] region Memory Region
* - DMA_REGION0
* - DMA_REGION1
* - DMA_REGION2
* - DMA_REGION3
* @param[in] start_add Start address of the the region
* @param[in] end_add End address of the region
*
* This function configure start and end address of the selected region
*/
void dmaDefineRegion(dmaREGION_t region, uint32 start_add, uint32 end_add)
{
dmaREG->DMAMPR[region].STARTADD = start_add;
dmaREG->DMAMPR[region].ENDADD = end_add;
}
/** @fn void dmaEnableRegion(dmaREGION_t region, dmaRegionAccess_t access, boolean intenable)
* @brief Enable the selected region
* @param[in] region Memory Region
* - DMA_REGION0
* - DMA_REGION1
* - DMA_REGION2
* - DMA_REGION3
* @param[in] access Access permission of the selected region
* - FULLACCESS
* - READONLY
* - WRITEONLY
* - NOACCESS
* @param[in] intenable Interrupt to be enabled or not
* - INTERRUPT_ENABLE : Enable interrupt for the selected region
* - INTERRUPT_DISABLE: Disable interrupt for the selected region
*
* This function enables the selected region with selected access permission with or without interrupt enable
*/
void dmaEnableRegion(dmaREGION_t region, dmaRegionAccess_t access, boolean intenable)
{
/* Enable the region */
dmaREG->DMAMPCTRL |= 1U << (region*8U);
/* Set access permission for the region */
dmaREG->DMAMPCTRL |= access << ((region*8U) + 1U);
/* Enable or Disable interrupt */
dmaREG->DMAMPCTRL |= intenable << ((region*8U) + 3U);
}
/** @fn void dmaDisableRegion(dmaREGION_t region)
* @brief Disable the selected region
* @param[in] region Memory Region
* - DMA_REGION0
* - DMA_REGION1
* - DMA_REGION2
* - DMA_REGION3
*
* This function disables the selected region(no address checking done).
*/
void dmaDisableRegion(dmaREGION_t region)
{
dmaREG->DMAMPCTRL &= ~(1U << (region*8U));
}
/** @fn void dmaEnableParityCheck(void)
* @brief Enable Parity Check
*
* This function enables parit check
*/
void dmaEnableParityCheck(void)
{
dmaREG->DMAPCR = 0x5U;
}
/** @fn void dmaDisableParityCheck(void)
* @brief Disable Parity Check
*
* This function disables parity check
*/
void dmaDisableParityCheck(void)
{
dmaREG->DMAPCR = 0xAU;
}