rtt-f030/bsp/lpc5410x/Libraries/lpc_chip/chip_5410x/hw_i2csd.c

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2014-12-16 19:54:29 +08:00
/*
* @brief I2C slave ROM API declarations and functions
*
* @note
* Copyright(C) NXP Semiconductors, 2014
* All rights reserved.
*
* @par
* Software that is described herein is for illustrative purposes only
* which provides customers with programming information regarding the
* LPC products. This software is supplied "AS IS" without any warranties of
* any kind, and NXP Semiconductors and its licensor disclaim any and
* all warranties, express or implied, including all implied warranties of
* merchantability, fitness for a particular purpose and non-infringement of
* intellectual property rights. NXP Semiconductors assumes no responsibility
* or liability for the use of the software, conveys no license or rights under any
* patent, copyright, mask work right, or any other intellectual property rights in
* or to any products. NXP Semiconductors reserves the right to make changes
* in the software without notification. NXP Semiconductors also makes no
* representation or warranty that such application will be suitable for the
* specified use without further testing or modification.
*
* @par
* Permission to use, copy, modify, and distribute this software and its
* documentation is hereby granted, under NXP Semiconductors' and its
* licensor's relevant copyrights in the software, without fee, provided that it
* is used in conjunction with NXP Semiconductors microcontrollers. This
* copyright, permission, and disclaimer notice must appear in all copies of
* this code.
*/
#include <stdint.h>
#include <string.h>
#include "hw_i2csd.h"
#define DRVVERSION 0x0100
/* Private data structure used for the I2C slave driver, holds the driver and
peripheral context */
typedef struct {
void *pUserData; /*!< Pointer to user data used by driver instance, use NULL if not used */
LPC_I2C_T *base; /*!< Base address of I2C peripheral to use */
i2cSlaveStartCB pXferStartCB; /*!< Transfer start callback */
i2cSlaveTransmitCB pTranTranCb; /*!< Data transmit callback */
i2cSlaveReceiveCB pTranRecvCb; /*!< Data Receive callback */
i2cSlaveCompleteCB pXferCompCB; /*!< Transfer complete callback */
ROM_I2CS_XFER_T *pXfer; /*!< Pointer to current transfer */
ErrorCode_t pendingStatus; /*!< Pending transfer status */
} I2CS_DATACONTEXT_T;
#define _rom_i2csEnable(pI2C) (pI2C->CFG |= I2C_CFG_SLVEN);
#define _rom_i2csGetSlaveAddr(pI2C, slvNum) ((pI2C->SLVADR[slvNum] >> 1) & 0x7F)
#define _rom_i2csGetSlaveMatchIndex(pI2C) ((pI2C->STAT & I2C_STAT_SLVIDX) >> 12)
#define _rom_i2csGetSlaveState(pI2C) (((pI2C->STAT & I2C_STAT_SLVSTATE) >> 9) & 0x3)
// **********************************************************
uint32_t i2cs_get_mem_size(void)
{
return sizeof(I2CS_DATACONTEXT_T);
}
ROM_I2CS_HANDLE_T i2cs_init(void *mem, const ROM_I2CS_INIT_T *pInit)
{
I2CS_DATACONTEXT_T *pDrv;
/* Verify alignment is at least 4 bytes */
if (((uint32_t) mem & 0x3) != 0) {
return NULL;
}
pDrv = (I2CS_DATACONTEXT_T *) mem;
memset(pDrv, 0, sizeof(I2CS_DATACONTEXT_T));
/* Save base of peripheral and pointer to user data */
pDrv->pUserData = pInit->pUserData;
pDrv->base = (LPC_I2C_T *) pInit->base;
/* If this needs to be changed, it should be done in the app after
this call. */
pDrv->base->CLKDIV = 2;
/* Clear controller state */
pDrv->base->STAT = (I2C_STAT_SLVSEL | I2C_STAT_SLVDESEL);
/* Enable I2C slave interface */
_rom_i2csEnable(pDrv->base);
return pDrv;
}
void i2cs_setup_slave(ROM_I2CS_HANDLE_T pHandle, ROM_I2CS_SLAVE_T *pSlaveSetup)
{
uint32_t sa, idx;
I2CS_DATACONTEXT_T *pDrv = (I2CS_DATACONTEXT_T *) pHandle;
/* Limit usable slave address indexes to the maximum the controller can support */
if (pSlaveSetup->SlaveIndex <= 3) {
sa = (uint32_t) (pSlaveSetup->slaveAddr & 0x7F) << 1;
if (pSlaveSetup->EnableSlave == 0) {
sa |= I2C_SLVADR_SADISABLE; /* Disable slave address */
}
/* Setup slave address at index */
pDrv->base->SLVADR[pSlaveSetup->SlaveIndex] = sa;
}
/* Check all slave indexes. If any are enabled, then enable the slave interrupts,
else disable the slave interrupts. */
sa = 0;
for (idx = 0; ((idx <= 3) && (sa == 0)); idx++) {
if ((pDrv->base->SLVADR[idx] & I2C_SLVADR_SADISABLE) == 0) {
/* Slave is enabled */
sa = 1;
}
}
if (sa) {
pDrv->base->INTENSET = I2C_INTENSET_SLVPENDING;
}
else {
pDrv->base->INTENCLR = (I2C_INTENSET_SLVPENDING | I2C_INTENSET_SLVDESEL);
}
}
void i2cs_register_callback(ROM_I2CS_HANDLE_T pHandle, uint32_t cbIndex, void *pCB)
{
I2CS_DATACONTEXT_T *pDrv = (I2CS_DATACONTEXT_T *) pHandle;
if (cbIndex == ROM_I2CS_START_CB) {
pDrv->pXferStartCB = (i2cSlaveStartCB) pCB;
}
else if (cbIndex == ROM_I2CS_XFERSEND_CB) {
pDrv->pTranTranCb = (i2cSlaveTransmitCB) pCB;
}
else if (cbIndex == ROM_I2CS_XFERRECV_CB) {
pDrv->pTranRecvCb = (i2cSlaveReceiveCB) pCB;
}
else if (cbIndex == ROM_I2CS_DONE_CB) {
pDrv->pXferCompCB = (i2cSlaveCompleteCB) pCB;
}
}
ErrorCode_t i2cs_transfer(ROM_I2CS_HANDLE_T pHandle, ROM_I2CS_XFER_T *pXfer)
{
I2CS_DATACONTEXT_T *pDrv = (I2CS_DATACONTEXT_T *) pHandle;
/* Is transfer NULL? */
if (pXfer == NULL) {
return ERR_I2C_PARAM;
}
/* Save transfer descriptor */
pDrv->pXfer = pXfer;
pXfer->status = ERR_I2C_BUSY;
pDrv->pendingStatus = LPC_OK;
pXfer->bytesSent = 0;
pXfer->bytesRecv = 0;
return pXfer->status;
}
// Otime = "optimize for speed of code execution"
// ...add this pragma 1 line above the interrupt service routine function.
void i2cs_transfer_handler(ROM_I2CS_HANDLE_T pHandle)
{
I2CS_DATACONTEXT_T *pDrv = (I2CS_DATACONTEXT_T *) pHandle;
ROM_I2CS_XFER_T *pXfer = pDrv->pXfer;
uint32_t done = 0;
uint16_t data = 0;
uint32_t status = pDrv->base->INTSTAT;
/* Transfer complete? */
if ((status & I2C_INTENSET_SLVDESEL) != 0) {
pDrv->base->INTENCLR = I2C_INTENSET_SLVDESEL;
pDrv->base->STAT = I2C_STAT_SLVDESEL;
if (pXfer) {
pXfer->status = pDrv->pendingStatus;
pDrv->pXfer = NULL;
}
if (pDrv->pXferCompCB) {
pDrv->pXferCompCB(pHandle, pXfer);
}
return;
}
else if ((status & I2C_INTENSET_SLVPENDING) != 0) {
/* Determine the current I2C slave state */
switch (_rom_i2csGetSlaveState(pDrv->base)) {
case I2C_STAT_SLVCODE_ADDR:
/* Get slave address that needs servicing */
data = _rom_i2csGetSlaveAddr(pDrv->base, _rom_i2csGetSlaveMatchIndex(pDrv->base));
/* Call address callback */
if (pDrv->pXferStartCB) {
pDrv->pXferStartCB(pHandle, data);
/* Update transfer descriptor */
pXfer = pDrv->pXfer;
}
pDrv->base->INTENSET = I2C_INTENSET_SLVDESEL;
break;
case I2C_STAT_SLVCODE_RX:
/* Receive from master */
/* A byte has been received in thee receive FIFO */
if ((pXfer == NULL) || (pXfer->bytesRecv >= pXfer->rxSz)) {
/* No more data, call receive data callback */
if (pDrv->pTranRecvCb) {
done = pDrv->pTranRecvCb(pHandle, pXfer);
if (pDrv->pXfer) {
pXfer = pDrv->pXfer;
pXfer->bytesRecv = 0;
}
}
}
/* Not using DMA */
if (!(done == ROM_I2CS_DMA)) {
data = (uint8_t) pDrv->base->SLVDAT;
if (pXfer == NULL) {
/* Toss data and NAK, no buffer space */
done = ROM_I2CS_NAK;
pDrv->pendingStatus = ERR_I2C_BUFFER_OVERFLOW;
}
else {
uint8_t *p8 = pXfer->rxBuff;
if ((p8 == NULL) || (pXfer->bytesRecv >= pXfer->rxSz)) {
/* Toss data and NAK, no buffer space */
done = ROM_I2CS_NAK;
pDrv->pendingStatus = ERR_I2C_BUFFER_OVERFLOW;
}
else {
p8[pXfer->bytesRecv] = (uint8_t) data;
pDrv->pXfer->bytesRecv++;
}
}
}
break;
case I2C_STAT_SLVCODE_TX:
/* Send to master */
/* A byte needs to be placed into the transmit FIFO */
if ((pXfer == NULL) || (pXfer->bytesSent >= pXfer->txSz)) {
/* Does callback exist? */
if (pDrv->pTranTranCb) {
done = pDrv->pTranTranCb(pHandle, pXfer);
/* Can't really NAK on read, so switch to continue */
if (pDrv->pXfer) {
pXfer = pDrv->pXfer;
pXfer->bytesSent = 0;
}
if (done == ROM_I2CS_NAK) {
pDrv->base->SLVDAT = 0;
}
}
}
/* Continue if not DMA or NAK */
if (!((done == ROM_I2CS_NAK) || (done == ROM_I2CS_DMA))) {
if (pXfer == NULL) {
pDrv->base->SLVDAT = 0;
pDrv->pendingStatus = ERR_I2C_BUFFER_UNDERFLOW;
done = 0;
}
else {
uint8_t *p8 = (uint8_t *) pXfer->txBuff;
/* Not using DMA, so this is a normal transfer */
if ((p8 == NULL) || (pXfer->bytesSent >= pXfer->txSz)) {
/* Have to send something, so NAK with 0 */
pDrv->base->SLVDAT = 0;
pDrv->pendingStatus = ERR_I2C_BUFFER_UNDERFLOW;
done = 0;
}
else {
pDrv->base->SLVDAT = (uint32_t) p8[pXfer->bytesSent];
pDrv->pXfer->bytesSent++;
}
}
}
break;
}
if (done == ROM_I2CS_NAK) {
pDrv->base->SLVCTL = I2C_SLVCTL_SLVNACK;
}
else if (done == ROM_I2CS_DMA) {
pDrv->base->SLVCTL = I2C_SLVCTL_SLVDMA;
}
else {
pDrv->base->SLVCTL = I2C_SLVCTL_SLVCONTINUE;
}
}
}
uint32_t i2cs_get_driver_version(void)
{
return DRVVERSION;
}
// *********************************************************