rtt-f030/bsp/rx/RPDL/Interrupt_SPI.c

569 lines
15 KiB
C

/*""FILE COMMENT""*******************************************************
* System Name : Interrupt program for RX62Nxx
* File Name : Interrupt_SPI.c
* Version : 1.02
* Contents : Interrupt handlers for all SPI channels
* Customer :
* Model :
* Order :
* CPU : RX
* Compiler : RXC
* OS : Nothing
* Programmer :
* Note :
************************************************************************
* Copyright, 2011. Renesas Electronics Corporation
* and Renesas Solutions Corporation
************************************************************************
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FILE COMMENT END""**************************************************/
#include "r_pdl_spi.h"
#include "r_pdl_definitions.h"
#include "r_pdl_user_definitions.h"
/*""FUNC COMMENT""***************************************************
* Module outline: SPIn receive data error interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_RSPIn_SPEIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Output : None
*-------------------------------------------------------------------
* Use function : rpdl_SPI_callback_func[n]
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_RSPI0_SPEI0
__fast_interrupt void Interrupt_RSPI0_SPEI0(void)
#else
#pragma vector = VECT_RSPI0_SPEI0
__interrupt void Interrupt_RSPI0_SPEI0(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SPI_callback_func[0] != PDL_NO_FUNC)
{
/* Notify the user */
rpdl_SPI_callback_func[0]();
}
}
#if FAST_INTC_VECTOR == VECT_RSPI1_SPEI1
__fast_interrupt void Interrupt_RSPI1_SPEI1(void)
#else
#pragma vector = VECT_RSPI1_SPEI1
__interrupt void Interrupt_RSPI1_SPEI1(void)
#endif
{
/* Will the user handle the errors? */
if (rpdl_SPI_callback_func[1] != PDL_NO_FUNC)
{
/* Notify the user */
rpdl_SPI_callback_func[1]();
}
}
/*""FUNC COMMENT""***************************************************
* Module outline: SPIn receive data interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_RSPIn_SPRIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Input : (I/ ) : SPDCR, SBDR
* Output : (I/O) : SPCR, SPCR2
*-------------------------------------------------------------------
* Use function : None
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_RSPI0_SPRI0
__fast_interrupt void Interrupt_RSPI0_SPRI0(void)
#else
#pragma vector = VECT_RSPI0_SPRI0
__interrupt void Interrupt_RSPI0_SPRI0(void)
#endif
{
uint8_t frame_count;
uint32_t received_frame;
uint8_t spdcr_copy;
uint8_t splw;
uint8_t spfc;
volatile uint32_t * rx_data_ptr;
/* Ok to process the data? */
if (rpdl_SPI_method[0] == SPI_USING_IRQ)
{
spdcr_copy = RSPI0.SPDCR.BYTE;
splw = (uint8_t)(spdcr_copy & BIT_5);
spfc = (uint8_t)(spdcr_copy & 0x03u);
rx_data_ptr = rpdl_SPI_rx_ptr[0];
/* Load the data register */
for (frame_count = 0; frame_count <= spfc; frame_count++)
{
if (splw == 0)
{
/* Read the data */
received_frame = (uint32_t)RSPI0.SPDR.WORD.H;
}
else
{
/* Read the data */
received_frame = RSPI0.SPDR.LONG;
}
/* Store the data? */
if (rx_data_ptr != PDL_NO_PTR)
{
*rx_data_ptr = received_frame;
/* Increment the address pointer */
rx_data_ptr ++;
}
/* Increment the frame counter */
rpdl_SPI_rx_frame_counter[0] ++;
}
/* Store the updated pointer */
rpdl_SPI_rx_ptr[0] = rx_data_ptr;
/* All data read? */
if (rpdl_SPI_rx_frame_counter[0] == rpdl_SPI_frame_total[0])
{
/* Increment the loop counter */
rpdl_SPI_rx_sequence_counter[0]++;
/* All loops completed? */
if (rpdl_SPI_rx_sequence_counter[0] == rpdl_SPI_sequence_count[0])
{
/* Disable receive interrupts */
RSPI0.SPCR.BIT.SPRIE = 0;
/* Master mode? */
if (RSPI0.SPCR.BIT.MSTR == 1)
{
/* Enable idle interrupts */
RSPI0.SPCR2.BIT.SPIIE = 1;
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[0]();
}
}
}
else
{
/* Reset the frame counter */
rpdl_SPI_rx_frame_counter[0] = 0;
}
}
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[0]();
}
}
}
#if FAST_INTC_VECTOR == VECT_RSPI1_SPRI1
__fast_interrupt void Interrupt_RSPI1_SPRI1(void)
#else
#pragma vector = VECT_RSPI1_SPRI1
__interrupt void Interrupt_RSPI1_SPRI1(void)
#endif
{
uint8_t frame_count;
uint32_t received_frame;
uint8_t spdcr_copy;
uint8_t splw;
uint8_t spfc;
volatile uint32_t * rx_data_ptr;
/* Ok to process the data? */
if (rpdl_SPI_method[1] == SPI_USING_IRQ)
{
spdcr_copy = RSPI1.SPDCR.BYTE;
splw = (uint8_t)(spdcr_copy & BIT_5);
spfc = (uint8_t)(spdcr_copy & 0x03u);
rx_data_ptr = rpdl_SPI_rx_ptr[1];
/* Load the data register */
for (frame_count = 0; frame_count <= spfc; frame_count++)
{
if (splw == 0)
{
/* Read the data */
received_frame = (uint32_t)RSPI1.SPDR.WORD.H;
}
else
{
/* Read the data */
received_frame = RSPI1.SPDR.LONG;
}
/* Store the data? */
if (rx_data_ptr != PDL_NO_PTR)
{
*rx_data_ptr = received_frame;
/* Increment the address pointer */
rx_data_ptr ++;
}
/* Increment the frame counter */
rpdl_SPI_rx_frame_counter[1] ++;
}
/* Store the updated pointer */
rpdl_SPI_rx_ptr[1] = rx_data_ptr;
/* All data read? */
if (rpdl_SPI_rx_frame_counter[1] == rpdl_SPI_frame_total[1])
{
/* Increment the loop counter */
rpdl_SPI_rx_sequence_counter[1]++;
/* All loops completed? */
if (rpdl_SPI_rx_sequence_counter[1] == rpdl_SPI_sequence_count[1])
{
/* Disable receive interrupts */
RSPI1.SPCR.BIT.SPRIE = 0;
/* Master mode? */
if (RSPI1.SPCR.BIT.MSTR == 1)
{
/* Enable idle interrupts */
RSPI1.SPCR2.BIT.SPIIE = 1;
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[1]();
}
}
}
else
{
/* Reset the frame counter */
rpdl_SPI_rx_frame_counter[1] = 0;
}
}
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[1]();
}
}
}
/*""FUNC COMMENT""***************************************************
* Module outline: SPIn transmit data interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_RSPIn_SPTIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Input : (I/ ) : SPDCR
* Output : ( /O) : SBDR
* : (I/O) : SPCR, SPCR2
*-------------------------------------------------------------------
* Use function :
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_RSPI0_SPTI0
__fast_interrupt void Interrupt_RSPI0_SPTI0(void)
#else
#pragma vector = VECT_RSPI0_SPTI0
__interrupt void Interrupt_RSPI0_SPTI0(void)
#endif
{
uint8_t frame_count;
uint8_t spdcr_copy;
uint8_t splw;
uint8_t spfc;
volatile const uint32_t * tx_data_ptr;
/* Ok to process the string? */
if (rpdl_SPI_method[0] == SPI_USING_IRQ)
{
spdcr_copy = RSPI0.SPDCR.BYTE;
splw = (uint8_t)(spdcr_copy & BIT_5);
spfc = (uint8_t)(spdcr_copy & 0x03u);
tx_data_ptr = rpdl_SPI_tx_ptr[0];
/* Load the data register */
for (frame_count = 0; frame_count <= spfc; frame_count++)
{
if (splw == 0)
{
RSPI0.SPDR.WORD.H = (uint16_t)*tx_data_ptr;
}
else
{
RSPI0.SPDR.LONG = *tx_data_ptr;
}
/* Increment the address pointer? */
if (tx_data_ptr != PDL_NO_PTR)
{
tx_data_ptr ++;
}
/* Increment the frame counter */
rpdl_SPI_tx_frame_counter[0] ++;
}
/* Store the updated pointer */
rpdl_SPI_tx_ptr[0] = tx_data_ptr;
/* All data written? */
if (rpdl_SPI_tx_frame_counter[0] == rpdl_SPI_frame_total[0])
{
/* Increment the loop counter */
rpdl_SPI_tx_sequence_counter[0]++;
/* All loops completed? */
if (rpdl_SPI_tx_sequence_counter[0] == rpdl_SPI_sequence_count[0])
{
/* Disable transmit interrupts */
RSPI0.SPCR.BIT.SPTIE = 0;
/* Transmit only? */
if (RSPI0.SPCR.BIT.TXMD == 1)
{
/* Master mode? */
if (RSPI0.SPCR.BIT.MSTR == 1)
{
/* Enable idle interrupts */
RSPI0.SPCR2.BIT.SPIIE = 1;
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[0]();
}
}
}
}
else
{
/* Reset the frame counter */
rpdl_SPI_tx_frame_counter[0] = 0;
}
}
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[0]();
}
}
}
#if FAST_INTC_VECTOR == VECT_RSPI1_SPTI1
__fast_interrupt void Interrupt_RSPI1_SPTI1(void)
#else
#pragma vector = VECT_RSPI1_SPTI1
__interrupt void Interrupt_RSPI1_SPTI1(void)
#endif
{
uint8_t frame_count;
uint8_t spdcr_copy;
uint8_t splw;
uint8_t spfc;
volatile const uint32_t * tx_data_ptr;
/* Ok to process the string? */
if (rpdl_SPI_method[1] == SPI_USING_IRQ)
{
spdcr_copy = RSPI1.SPDCR.BYTE;
splw = (uint8_t)(spdcr_copy & BIT_5);
spfc = (uint8_t)(spdcr_copy & 0x03u);
tx_data_ptr = rpdl_SPI_tx_ptr[1];
/* Load the data register */
for (frame_count = 0; frame_count <= spfc; frame_count++)
{
if (splw == 0)
{
RSPI1.SPDR.WORD.H = (uint16_t)*tx_data_ptr;
}
else
{
RSPI1.SPDR.LONG = *tx_data_ptr;
}
/* Increment the address pointer? */
if (tx_data_ptr != PDL_NO_PTR)
{
tx_data_ptr ++;
}
/* Increment the frame counter */
rpdl_SPI_tx_frame_counter[1] ++;
}
/* Store the updated pointer */
rpdl_SPI_tx_ptr[1] = tx_data_ptr;
/* All data written? */
if (rpdl_SPI_tx_frame_counter[1] == rpdl_SPI_frame_total[1])
{
/* Increment the loop counter */
rpdl_SPI_tx_sequence_counter[1]++;
/* All loops completed? */
if (rpdl_SPI_tx_sequence_counter[1] == rpdl_SPI_sequence_count[1])
{
/* Disable transmit interrupts */
RSPI1.SPCR.BIT.SPTIE = 0;
/* Transmit only? */
if (RSPI1.SPCR.BIT.TXMD == 1)
{
/* Master mode? */
if (RSPI1.SPCR.BIT.MSTR == 1)
{
/* Enable idle interrupts */
RSPI1.SPCR2.BIT.SPIIE = 1;
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[1]();
}
}
}
}
else
{
/* Reset the frame counter */
rpdl_SPI_tx_frame_counter[1] = 0;
}
}
}
else
{
/* Notify the user */
if (rpdl_SPI_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[1]();
}
}
}
/*""FUNC COMMENT""***************************************************
* Module outline: SPIn idle interrupt processing
*-------------------------------------------------------------------
* Declaration : void Interrupt_RSPIn_SPIIn(void)
*-------------------------------------------------------------------
* Function :
*-------------------------------------------------------------------
* Argument : Nothing
*-------------------------------------------------------------------
* Return value : Nothing
*-------------------------------------------------------------------
* Output : SPCR, SPCR2
*-------------------------------------------------------------------
* Use function : rpdl_SPI_callback_func()
*-------------------------------------------------------------------
* Notes :
*-------------------------------------------------------------------
* History : 2011.04.08
* : Ver 1.02
* : CS-5 release.
*""FUNC COMMENT END""**********************************************/
#if FAST_INTC_VECTOR == VECT_RSPI0_SPII0
__fast_interrupt void Interrupt_RSPI0_SPII0(void)
#else
#pragma vector = VECT_RSPI0_SPII0
__interrupt void Interrupt_RSPI0_SPII0(void)
#endif
{
/* Disable the channel */
RSPI0.SPCR.BIT.SPE = 0;
/* Disable idle interrupts */
RSPI0.SPCR2.BIT.SPIIE = 0;
/* Call the callback function */
if (rpdl_SPI_callback_func[0] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[0]();
}
}
#if FAST_INTC_VECTOR == VECT_RSPI1_SPII1
__fast_interrupt void Interrupt_RSPI1_SPII1(void)
#else
#pragma vector = VECT_RSPI1_SPII1
__interrupt void Interrupt_RSPI1_SPII1(void)
#endif
{
/* Disable the channel */
RSPI1.SPCR.BIT.SPE = 0;
/* Disable idle interrupts */
RSPI1.SPCR2.BIT.SPIIE = 0;
/* Call the callback function */
if (rpdl_SPI_callback_func[1] != PDL_NO_FUNC)
{
rpdl_SPI_callback_func[1]();
}
}
/* End of file */