lpc17xx_gpdma.c
435 lines
| 16.0 KiB
| text/x-c
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CLexer
jeandet@pc-de-jeandet3.LAB-LPP.LOCAL
|
r18 | /** | ||
* @file : lpc17xx_gpdma.c | ||||
* @brief : Contains all functions support for GPDMA firmware library on LPC17xx | ||||
* @version : 1.0 | ||||
* @date : 20. Apr. 2009 | ||||
* @author : HieuNguyen | ||||
************************************************************************** | ||||
* Software that is described herein is for illustrative purposes only | ||||
* which provides customers with programming information regarding the | ||||
* products. This software is supplied "AS IS" without any warranties. | ||||
* NXP Semiconductors assumes no responsibility or liability for the | ||||
* use of the software, conveys no license or title under any patent, | ||||
* copyright, or mask work right to the product. NXP Semiconductors | ||||
* reserves the right to make changes in the software without | ||||
* notification. NXP Semiconductors also make no representation or | ||||
* warranty that such application will be suitable for the specified | ||||
* use without further testing or modification. | ||||
**********************************************************************/ | ||||
/* Peripheral group ----------------------------------------------------------- */ | ||||
/** @addtogroup GPDMA | ||||
* @{ | ||||
*/ | ||||
/* Includes ------------------------------------------------------------------- */ | ||||
#include "lpc17xx_gpdma.h" | ||||
#include "lpc17xx_clkpwr.h" | ||||
/* If this source file built with example, the LPC17xx FW library configuration | ||||
* file in each example directory ("lpc17xx_libcfg.h") must be included, | ||||
* otherwise the default FW library configuration file must be included instead | ||||
*/ | ||||
#ifdef __BUILD_WITH_EXAMPLE__ | ||||
#include "lpc17xx_libcfg.h" | ||||
#else | ||||
#include "lpc17xx_libcfg_default.h" | ||||
#endif /* __BUILD_WITH_EXAMPLE__ */ | ||||
#ifdef _GPDMA | ||||
/* Private Variables ---------------------------------------------------------- */ | ||||
/** @defgroup GPDMA_Private_Variables | ||||
* @{ | ||||
*/ | ||||
/** | ||||
* @brief Lookup Table of Connection Type matched with | ||||
* Peripheral Data (FIFO) register base address | ||||
*/ | ||||
#ifdef __IAR_SYSTEMS_ICC__ | ||||
volatile const void *GPDMA_LUTPerAddr[] = { | ||||
(&LPC_SSP0->DR), // SSP0 Tx | ||||
(&LPC_SSP0->DR), // SSP0 Rx | ||||
(&LPC_SSP1->DR), // SSP1 Tx | ||||
(&LPC_SSP1->DR), // SSP1 Rx | ||||
(&LPC_ADC->ADGDR), // ADC | ||||
(&LPC_I2S->I2STXFIFO), // I2S Tx | ||||
(&LPC_I2S->I2SRXFIFO), // I2S Rx | ||||
(&LPC_DAC->DACR), // DAC | ||||
(&LPC_UART0->/*RBTHDLR.*/THR), // UART0 Tx | ||||
(&LPC_UART0->/*RBTHDLR.*/RBR), // UART0 Rx | ||||
(&LPC_UART1->/*RBTHDLR.*/THR), // UART1 Tx | ||||
(&LPC_UART1->/*RBTHDLR.*/RBR), // UART1 Rx | ||||
(&LPC_UART2->/*RBTHDLR.*/THR), // UART2 Tx | ||||
(&LPC_UART2->/*RBTHDLR.*/RBR), // UART2 Rx | ||||
(&LPC_UART3->/*RBTHDLR.*/THR), // UART3 Tx | ||||
(&LPC_UART3->/*RBTHDLR.*/RBR), // UART3 Rx | ||||
(&LPC_TIM0->MR0), // MAT0.0 | ||||
(&LPC_TIM0->MR1), // MAT0.1 | ||||
(&LPC_TIM1->MR0), // MAT1.0 | ||||
(&LPC_TIM1->MR1), // MAT1.1 | ||||
(&LPC_TIM2->MR0), // MAT2.0 | ||||
(&LPC_TIM2->MR1), // MAT2.1 | ||||
(&LPC_TIM3->MR0), // MAT3.0 | ||||
(&LPC_TIM3->MR1), // MAT3.1 | ||||
}; | ||||
#else | ||||
const uint32_t GPDMA_LUTPerAddr[] = { | ||||
((uint32_t)&LPC_SSP0->DR), // SSP0 Tx | ||||
((uint32_t)&LPC_SSP0->DR), // SSP0 Rx | ||||
((uint32_t)&LPC_SSP1->DR), // SSP1 Tx | ||||
((uint32_t)&LPC_SSP1->DR), // SSP1 Rx | ||||
((uint32_t)&LPC_ADC->ADGDR), // ADC | ||||
((uint32_t)&LPC_I2S->I2STXFIFO), // I2S Tx | ||||
((uint32_t)&LPC_I2S->I2SRXFIFO), // I2S Rx | ||||
((uint32_t)&LPC_DAC->DACR), // DAC | ||||
((uint32_t)&LPC_UART0->/*RBTHDLR.*/THR), // UART0 Tx | ||||
((uint32_t)&LPC_UART0->/*RBTHDLR.*/RBR), // UART0 Rx | ||||
((uint32_t)&LPC_UART1->/*RBTHDLR.*/THR), // UART1 Tx | ||||
((uint32_t)&LPC_UART1->/*RBTHDLR.*/RBR), // UART1 Rx | ||||
((uint32_t)&LPC_UART2->/*RBTHDLR.*/THR), // UART2 Tx | ||||
((uint32_t)&LPC_UART2->/*RBTHDLR.*/RBR), // UART2 Rx | ||||
((uint32_t)&LPC_UART3->/*RBTHDLR.*/THR), // UART3 Tx | ||||
((uint32_t)&LPC_UART3->/*RBTHDLR.*/RBR), // UART3 Rx | ||||
((uint32_t)&LPC_TIM0->MR0), // MAT0.0 | ||||
((uint32_t)&LPC_TIM0->MR1), // MAT0.1 | ||||
((uint32_t)&LPC_TIM1->MR0), // MAT1.0 | ||||
((uint32_t)&LPC_TIM1->MR1), // MAT1.1 | ||||
((uint32_t)&LPC_TIM2->MR0), // MAT2.0 | ||||
((uint32_t)&LPC_TIM2->MR1), // MAT2.1 | ||||
((uint32_t)&LPC_TIM3->MR0), // MAT3.0 | ||||
((uint32_t)&LPC_TIM3->MR1), // MAT3.1 | ||||
}; | ||||
#endif | ||||
/** | ||||
* @brief Lookup Table of GPDMA Channel Number matched with | ||||
* GPDMA channel pointer | ||||
*/ | ||||
const LPC_GPDMACH_TypeDef *pGPDMACh[8] = { | ||||
LPC_GPDMACH0, // GPDMA Channel 0 | ||||
LPC_GPDMACH1, // GPDMA Channel 1 | ||||
LPC_GPDMACH2, // GPDMA Channel 2 | ||||
LPC_GPDMACH3, // GPDMA Channel 3 | ||||
LPC_GPDMACH4, // GPDMA Channel 4 | ||||
LPC_GPDMACH5, // GPDMA Channel 5 | ||||
LPC_GPDMACH6, // GPDMA Channel 6 | ||||
LPC_GPDMACH7, // GPDMA Channel 7 | ||||
}; | ||||
/** | ||||
* @brief Optimized Peripheral Source and Destination burst size | ||||
*/ | ||||
const uint8_t GPDMA_LUTPerBurst[] = { | ||||
GPDMA_BSIZE_4, // SSP0 Tx | ||||
GPDMA_BSIZE_4, // SSP0 Rx | ||||
GPDMA_BSIZE_4, // SSP1 Tx | ||||
GPDMA_BSIZE_4, // SSP1 Rx | ||||
GPDMA_BSIZE_4, // ADC | ||||
GPDMA_BSIZE_32, // I2S channel 0 | ||||
GPDMA_BSIZE_32, // I2S channel 1 | ||||
GPDMA_BSIZE_1, // DAC | ||||
GPDMA_BSIZE_1, // UART0 Tx | ||||
GPDMA_BSIZE_1, // UART0 Rx | ||||
GPDMA_BSIZE_1, // UART1 Tx | ||||
GPDMA_BSIZE_1, // UART1 Rx | ||||
GPDMA_BSIZE_1, // UART2 Tx | ||||
GPDMA_BSIZE_1, // UART2 Rx | ||||
GPDMA_BSIZE_1, // UART3 Tx | ||||
GPDMA_BSIZE_1, // UART3 Rx | ||||
GPDMA_BSIZE_1, // MAT0.0 | ||||
GPDMA_BSIZE_1, // MAT0.1 | ||||
GPDMA_BSIZE_1, // MAT1.0 | ||||
GPDMA_BSIZE_1, // MAT1.1 | ||||
GPDMA_BSIZE_1, // MAT2.0 | ||||
GPDMA_BSIZE_1, // MAT2.1 | ||||
GPDMA_BSIZE_1, // MAT3.0 | ||||
GPDMA_BSIZE_1, // MAT3.1 | ||||
}; | ||||
/** | ||||
* @brief Optimized Peripheral Source and Destination transfer width | ||||
*/ | ||||
const uint8_t GPDMA_LUTPerWid[] = { | ||||
GPDMA_WIDTH_BYTE, // SSP0 Tx | ||||
GPDMA_WIDTH_BYTE, // SSP0 Rx | ||||
GPDMA_WIDTH_BYTE, // SSP1 Tx | ||||
GPDMA_WIDTH_BYTE, // SSP1 Rx | ||||
GPDMA_WIDTH_WORD, // ADC | ||||
GPDMA_WIDTH_WORD, // I2S channel 0 | ||||
GPDMA_WIDTH_WORD, // I2S channel 1 | ||||
GPDMA_WIDTH_BYTE, // DAC | ||||
GPDMA_WIDTH_BYTE, // UART0 Tx | ||||
GPDMA_WIDTH_BYTE, // UART0 Rx | ||||
GPDMA_WIDTH_BYTE, // UART1 Tx | ||||
GPDMA_WIDTH_BYTE, // UART1 Rx | ||||
GPDMA_WIDTH_BYTE, // UART2 Tx | ||||
GPDMA_WIDTH_BYTE, // UART2 Rx | ||||
GPDMA_WIDTH_BYTE, // UART3 Tx | ||||
GPDMA_WIDTH_BYTE, // UART3 Rx | ||||
GPDMA_WIDTH_WORD, // MAT0.0 | ||||
GPDMA_WIDTH_WORD, // MAT0.1 | ||||
GPDMA_WIDTH_WORD, // MAT1.0 | ||||
GPDMA_WIDTH_WORD, // MAT1.1 | ||||
GPDMA_WIDTH_WORD, // MAT2.0 | ||||
GPDMA_WIDTH_WORD, // MAT2.1 | ||||
GPDMA_WIDTH_WORD, // MAT3.0 | ||||
GPDMA_WIDTH_WORD, // MAT3.1 | ||||
}; | ||||
/** Interrupt Call-back function pointer data for each GPDMA channel */ | ||||
static fnGPDMACbs_Type *_apfnGPDMACbs[8] = { | ||||
NULL, // GPDMA Call-back function pointer for Channel 0 | ||||
NULL, // GPDMA Call-back function pointer for Channel 1 | ||||
NULL, // GPDMA Call-back function pointer for Channel 2 | ||||
NULL, // GPDMA Call-back function pointer for Channel 3 | ||||
NULL, // GPDMA Call-back function pointer for Channel 4 | ||||
NULL, // GPDMA Call-back function pointer for Channel 5 | ||||
NULL, // GPDMA Call-back function pointer for Channel 6 | ||||
NULL, // GPDMA Call-back function pointer for Channel 7 | ||||
}; | ||||
/** | ||||
* @} | ||||
*/ | ||||
/* Public Functions ----------------------------------------------------------- */ | ||||
/** @addtogroup GPDMA_Public_Functions | ||||
* @{ | ||||
*/ | ||||
/********************************************************************//** | ||||
* @brief Initialize GPDMA controller | ||||
* @param None | ||||
* @return None | ||||
*********************************************************************/ | ||||
void GPDMA_Init(void) | ||||
{ | ||||
/* Enable GPDMA clock */ | ||||
CLKPWR_ConfigPPWR (CLKPWR_PCONP_PCGPDMA, ENABLE); | ||||
// Reset all channel configuration register | ||||
LPC_GPDMACH0->DMACCConfig = 0; | ||||
LPC_GPDMACH1->DMACCConfig = 0; | ||||
LPC_GPDMACH2->DMACCConfig = 0; | ||||
LPC_GPDMACH3->DMACCConfig = 0; | ||||
LPC_GPDMACH4->DMACCConfig = 0; | ||||
LPC_GPDMACH5->DMACCConfig = 0; | ||||
LPC_GPDMACH6->DMACCConfig = 0; | ||||
LPC_GPDMACH7->DMACCConfig = 0; | ||||
/* Clear all DMA interrupt and error flag */ | ||||
LPC_GPDMA->DMACIntTCClear = 0xFF; | ||||
LPC_GPDMA->DMACIntErrClr = 0xFF; | ||||
} | ||||
/********************************************************************//** | ||||
* @brief Setup GPDMA channel peripheral according to the specified | ||||
* parameters in the GPDMAChannelConfig. | ||||
* @param[in] GPDMAChannelConfig Pointer to a GPDMA_CH_CFG_Type | ||||
* structure that contains the configuration | ||||
* information for the specified GPDMA channel peripheral. | ||||
* @param[in] pfnGPDMACbs Pointer to a GPDMA interrupt call-back function | ||||
* @return ERROR if selected channel is enabled before | ||||
* or SUCCESS if channel is configured successfully | ||||
*********************************************************************/ | ||||
Status GPDMA_Setup(GPDMA_Channel_CFG_Type *GPDMAChannelConfig, fnGPDMACbs_Type *pfnGPDMACbs) | ||||
{ | ||||
LPC_GPDMACH_TypeDef *pDMAch; | ||||
uint32_t tmp1, tmp2; | ||||
if (LPC_GPDMA->DMACEnbldChns & (GPDMA_DMACEnbldChns_Ch(GPDMAChannelConfig->ChannelNum))) { | ||||
// This channel is enabled, return ERROR, need to release this channel first | ||||
return ERROR; | ||||
} | ||||
// Get Channel pointer | ||||
pDMAch = (LPC_GPDMACH_TypeDef *) pGPDMACh[GPDMAChannelConfig->ChannelNum]; | ||||
// Setup call back function for this channel | ||||
_apfnGPDMACbs[GPDMAChannelConfig->ChannelNum] = pfnGPDMACbs; | ||||
// Reset the Interrupt status | ||||
LPC_GPDMA->DMACIntTCClear = GPDMA_DMACIntTCClear_Ch(GPDMAChannelConfig->ChannelNum); | ||||
LPC_GPDMA->DMACIntErrClr = GPDMA_DMACIntErrClr_Ch(GPDMAChannelConfig->ChannelNum); | ||||
// Clear DMA configure | ||||
pDMAch->DMACCControl = 0x00; | ||||
pDMAch->DMACCConfig = 0x00; | ||||
/* Assign Linker List Item value */ | ||||
pDMAch->DMACCLLI = GPDMAChannelConfig->DMALLI; | ||||
/* Set value to Channel Control Registers */ | ||||
switch (GPDMAChannelConfig->TransferType) | ||||
{ | ||||
// Memory to memory | ||||
case GPDMA_TRANSFERTYPE_M2M: | ||||
// Assign physical source and destination address | ||||
pDMAch->DMACCSrcAddr = GPDMAChannelConfig->SrcMemAddr; | ||||
pDMAch->DMACCDestAddr = GPDMAChannelConfig->DstMemAddr; | ||||
pDMAch->DMACCControl | ||||
= GPDMA_DMACCxControl_TransferSize(GPDMAChannelConfig->TransferSize) \ | ||||
| GPDMA_DMACCxControl_SBSize(GPDMA_BSIZE_32) \ | ||||
| GPDMA_DMACCxControl_DBSize(GPDMA_BSIZE_32) \ | ||||
| GPDMA_DMACCxControl_SWidth(GPDMAChannelConfig->TransferWidth) \ | ||||
| GPDMA_DMACCxControl_DWidth(GPDMAChannelConfig->TransferWidth) \ | ||||
| GPDMA_DMACCxControl_SI \ | ||||
| GPDMA_DMACCxControl_DI \ | ||||
| GPDMA_DMACCxControl_I; | ||||
break; | ||||
// Memory to peripheral | ||||
case GPDMA_TRANSFERTYPE_M2P: | ||||
// Assign physical source | ||||
pDMAch->DMACCSrcAddr = GPDMAChannelConfig->SrcMemAddr; | ||||
// Assign peripheral destination address | ||||
pDMAch->DMACCDestAddr = (uint32_t)GPDMA_LUTPerAddr[GPDMAChannelConfig->DstConn]; | ||||
pDMAch->DMACCControl | ||||
= GPDMA_DMACCxControl_TransferSize((uint32_t)GPDMAChannelConfig->TransferSize) \ | ||||
| GPDMA_DMACCxControl_SBSize((uint32_t)GPDMA_LUTPerBurst[GPDMAChannelConfig->DstConn]) \ | ||||
| GPDMA_DMACCxControl_DBSize((uint32_t)GPDMA_LUTPerBurst[GPDMAChannelConfig->DstConn]) \ | ||||
| GPDMA_DMACCxControl_SWidth((uint32_t)GPDMA_LUTPerWid[GPDMAChannelConfig->DstConn]) \ | ||||
| GPDMA_DMACCxControl_DWidth((uint32_t)GPDMA_LUTPerWid[GPDMAChannelConfig->DstConn]) \ | ||||
| GPDMA_DMACCxControl_SI \ | ||||
| GPDMA_DMACCxControl_I; | ||||
break; | ||||
// Peripheral to memory | ||||
case GPDMA_TRANSFERTYPE_P2M: | ||||
// Assign peripheral source address | ||||
pDMAch->DMACCSrcAddr = (uint32_t)GPDMA_LUTPerAddr[GPDMAChannelConfig->SrcConn]; | ||||
// Assign memory destination address | ||||
pDMAch->DMACCDestAddr = GPDMAChannelConfig->DstMemAddr; | ||||
pDMAch->DMACCControl | ||||
= GPDMA_DMACCxControl_TransferSize((uint32_t)GPDMAChannelConfig->TransferSize) \ | ||||
| GPDMA_DMACCxControl_SBSize((uint32_t)GPDMA_LUTPerBurst[GPDMAChannelConfig->SrcConn]) \ | ||||
| GPDMA_DMACCxControl_DBSize((uint32_t)GPDMA_LUTPerBurst[GPDMAChannelConfig->SrcConn]) \ | ||||
| GPDMA_DMACCxControl_SWidth((uint32_t)GPDMA_LUTPerWid[GPDMAChannelConfig->SrcConn]) \ | ||||
| GPDMA_DMACCxControl_DWidth((uint32_t)GPDMA_LUTPerWid[GPDMAChannelConfig->SrcConn]) \ | ||||
| GPDMA_DMACCxControl_DI \ | ||||
| GPDMA_DMACCxControl_I; | ||||
break; | ||||
// Peripheral to peripheral | ||||
case GPDMA_TRANSFERTYPE_P2P: | ||||
// Assign peripheral source address | ||||
pDMAch->DMACCSrcAddr = (uint32_t)GPDMA_LUTPerAddr[GPDMAChannelConfig->SrcConn]; | ||||
// Assign peripheral destination address | ||||
pDMAch->DMACCDestAddr = (uint32_t)GPDMA_LUTPerAddr[GPDMAChannelConfig->DstConn]; | ||||
pDMAch->DMACCControl | ||||
= GPDMA_DMACCxControl_TransferSize((uint32_t)GPDMAChannelConfig->TransferSize) \ | ||||
| GPDMA_DMACCxControl_SBSize((uint32_t)GPDMA_LUTPerBurst[GPDMAChannelConfig->SrcConn]) \ | ||||
| GPDMA_DMACCxControl_DBSize((uint32_t)GPDMA_LUTPerBurst[GPDMAChannelConfig->DstConn]) \ | ||||
| GPDMA_DMACCxControl_SWidth((uint32_t)GPDMA_LUTPerWid[GPDMAChannelConfig->SrcConn]) \ | ||||
| GPDMA_DMACCxControl_DWidth((uint32_t)GPDMA_LUTPerWid[GPDMAChannelConfig->DstConn]) \ | ||||
| GPDMA_DMACCxControl_I; | ||||
break; | ||||
// Do not support any more transfer type, return ERROR | ||||
default: | ||||
return ERROR; | ||||
break; | ||||
} | ||||
/* Re-Configure DMA Request Select for source peripheral */ | ||||
if (GPDMAChannelConfig->SrcConn > 15) | ||||
{ | ||||
DMAREQSEL |= (1<<(GPDMAChannelConfig->SrcConn - 16)); | ||||
} else { | ||||
DMAREQSEL &= ~(1<<(GPDMAChannelConfig->SrcConn - 8)); | ||||
} | ||||
/* Re-Configure DMA Request Select for Destination peripheral */ | ||||
if (GPDMAChannelConfig->DstConn > 15) | ||||
{ | ||||
DMAREQSEL |= (1<<(GPDMAChannelConfig->DstConn - 16)); | ||||
} else { | ||||
DMAREQSEL &= ~(1<<(GPDMAChannelConfig->DstConn - 8)); | ||||
} | ||||
/* Enable DMA channels, little endian */ | ||||
LPC_GPDMA->DMACConfig = GPDMA_DMACConfig_E; | ||||
while (!(LPC_GPDMA->DMACConfig & GPDMA_DMACConfig_E)); | ||||
// Calculate absolute value for Connection number | ||||
tmp1 = GPDMAChannelConfig->SrcConn; | ||||
tmp1 = ((tmp1 > 15) ? (tmp1 - 8) : tmp1); | ||||
tmp2 = GPDMAChannelConfig->DstConn; | ||||
tmp2 = ((tmp2 > 15) ? (tmp2 - 8) : tmp2); | ||||
// Configure DMA Channel, enable Error Counter and Terminate counter | ||||
pDMAch->DMACCConfig = GPDMA_DMACCxConfig_IE | GPDMA_DMACCxConfig_ITC /*| GPDMA_DMACCxConfig_E*/ \ | ||||
| GPDMA_DMACCxConfig_TransferType((uint32_t)GPDMAChannelConfig->TransferType) \ | ||||
| GPDMA_DMACCxConfig_SrcPeripheral(tmp1) \ | ||||
| GPDMA_DMACCxConfig_DestPeripheral(tmp2); | ||||
return SUCCESS; | ||||
} | ||||
/*********************************************************************//** | ||||
* @brief Enable/Disable DMA channel | ||||
* @param[in] channelNum GPDMA channel, should be in range from 0 to 7 | ||||
* @param[in] NewState New State of this command, should be: | ||||
* - ENABLE. | ||||
* - DISABLE. | ||||
* @return None | ||||
**********************************************************************/ | ||||
void GPDMA_ChannelCmd(uint8_t channelNum, FunctionalState NewState) | ||||
{ | ||||
LPC_GPDMACH_TypeDef *pDMAch; | ||||
// Get Channel pointer | ||||
pDMAch = (LPC_GPDMACH_TypeDef *) pGPDMACh[channelNum]; | ||||
if (NewState == ENABLE) { | ||||
pDMAch->DMACCConfig |= GPDMA_DMACCxConfig_E; | ||||
} else { | ||||
pDMAch->DMACCConfig &= ~GPDMA_DMACCxConfig_E; | ||||
} | ||||
} | ||||
/*********************************************************************//** | ||||
* @brief Standard GPDMA interrupt handler, this function will check | ||||
* all interrupt status of GPDMA channels, then execute the call | ||||
* back function id they're already installed | ||||
* @param[in] None | ||||
* @return None | ||||
**********************************************************************/ | ||||
void GPDMA_IntHandler(void) | ||||
{ | ||||
uint32_t tmp; | ||||
// Scan interrupt pending | ||||
for (tmp = 0; tmp <= 7; tmp++) { | ||||
if (LPC_GPDMA->DMACIntStat & GPDMA_DMACIntStat_Ch(tmp)) { | ||||
// Check counter terminal status | ||||
if (LPC_GPDMA->DMACIntTCStat & GPDMA_DMACIntTCStat_Ch(tmp)) { | ||||
// Clear terminate counter Interrupt pending | ||||
LPC_GPDMA->DMACIntTCClear = GPDMA_DMACIntTCClear_Ch(tmp); | ||||
// Execute call-back function if it is already installed | ||||
if(_apfnGPDMACbs[tmp] != NULL) { | ||||
_apfnGPDMACbs[tmp](GPDMA_STAT_INTTC); | ||||
} | ||||
} | ||||
// Check error terminal status | ||||
if (LPC_GPDMA->DMACIntErrStat & GPDMA_DMACIntErrStat_Ch(tmp)) { | ||||
// Clear error counter Interrupt pending | ||||
LPC_GPDMA->DMACIntErrClr = GPDMA_DMACIntErrClr_Ch(tmp); | ||||
// Execute call-back function if it is already installed | ||||
if(_apfnGPDMACbs[tmp] != NULL) { | ||||
_apfnGPDMACbs[tmp](GPDMA_STAT_INTERR); | ||||
} | ||||
} | ||||
} | ||||
} | ||||
} | ||||
/** | ||||
* @} | ||||
*/ | ||||
#endif /* _GPDMA */ | ||||
/** | ||||
* @} | ||||
*/ | ||||
/* --------------------------------- End Of File ------------------------------ */ | ||||