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-rw-r--r--src/soc/intel/fsp_baytrail/i2c.c47
1 files changed, 24 insertions, 23 deletions
diff --git a/src/soc/intel/fsp_baytrail/i2c.c b/src/soc/intel/fsp_baytrail/i2c.c
index c6c8f65721..5a0d59dfa6 100644
--- a/src/soc/intel/fsp_baytrail/i2c.c
+++ b/src/soc/intel/fsp_baytrail/i2c.c
@@ -23,7 +23,8 @@
/* Wait for the transmit FIFO till there is at least one slot empty.
* FIFO stall due to transmit abort will be checked and resolved
*/
-static int wait_tx_fifo(char *base_adr) {
+static int wait_tx_fifo(char *base_adr)
+{
int i;
if (read32(base_adr + I2C_ABORT_SOURCE) & 0x1ffff) {
@@ -35,7 +36,7 @@ static int wait_tx_fifo(char *base_adr) {
/* Wait here for a free slot in TX-FIFO */
i = I2C_TIMEOUT_US;
- while ((!(*((volatile unsigned int *)(base_adr + I2C_STATUS)) & I2C_TFNF))) {
+ while (!(read32(base_adr + I2C_STATUS) & I2C_TFNF)) {
udelay(1);
if (!--i)
return I2C_ERR_TIMEOUT;
@@ -47,7 +48,8 @@ static int wait_tx_fifo(char *base_adr) {
/* Wait for the receive FIFO till there is at least one valid entry to read.
* FIFO stall due to transmit abort will be checked and resolved
*/
-static int wait_rx_fifo(char *base_adr) {
+static int wait_rx_fifo(char *base_adr)
+{
int i;
if (read32(base_adr + I2C_ABORT_SOURCE) & 0x1ffff) {
/* Reading back I2C_CLR_TX_ABRT resets abort lock on TX FIFO */
@@ -58,7 +60,7 @@ static int wait_rx_fifo(char *base_adr) {
/* Wait here for a received entry in RX-FIFO */
i = I2C_TIMEOUT_US;
- while ((!(*((volatile unsigned int *)(base_adr + I2C_STATUS)) & I2C_RFNE))) {
+ while (!(read32(base_adr + I2C_STATUS) & I2C_RFNE)) {
udelay(1);
if (!--i)
return I2C_ERR_TIMEOUT;
@@ -74,20 +76,19 @@ static int wait_rx_fifo(char *base_adr) {
static int wait_for_idle(char *base_adr)
{
int i;
- volatile int status;
+ int status;
/* For IDLE, increase timeout by ten times */
i = I2C_TIMEOUT_US * 10;
- status = *((volatile unsigned int *)(base_adr + I2C_STATUS));
+ status = read32(base_adr + I2C_STATUS);
while (((status & I2C_MST_ACTIVITY) || (!(status & I2C_TFE)))) {
- status = *((volatile unsigned int *)(base_adr + I2C_STATUS));
+ status = read32(base_adr + I2C_STATUS);
udelay(1);
if (!--i)
return I2C_ERR_TIMEOUT;
}
return I2C_SUCCESS;
-
}
/** \brief Enables I2C-controller, sets up BAR and timing parameters
@@ -101,6 +102,7 @@ int i2c_init(unsigned bus)
I2C3_MEM_BASE, I2C4_MEM_BASE, I2C5_MEM_BASE,
I2C6_MEM_BASE};
char *base_ptr;
+
/* Ensure the desired device is valid */
if (bus >= ARRAY_SIZE(base_adr)) {
printk(BIOS_ERR, "I2C: Only I2C controllers 0...6 are available.\n");
@@ -126,20 +128,19 @@ int i2c_init(unsigned bus)
(pci_read_config32(dev, PCI_COMMAND) | 0x2));
/* Set up some settings of I2C controller */
- *((unsigned int *)(base_ptr + I2C_CTRL)) = (I2C_RESTART_EN |
- (I2C_STANDARD_MODE << 1) |
- I2C_MASTER_ENABLE);
+ write32(base_ptr + I2C_CTRL,
+ I2C_RESTART_EN | (I2C_STANDARD_MODE << 1) | I2C_MASTER_ENABLE);
/* Adjust frequency for standard mode to 100 kHz */
/* The counter value can be computed by N=100MHz/2/I2C_CLK */
/* Thus, for 100 kHz I2C_CLK, N is 0x1F4 */
- *((unsigned int *)(base_ptr + I2C_SS_SCL_HCNT)) = 0x1f4;
- *((unsigned int *)(base_ptr + I2C_SS_SCL_LCNT)) = 0x1f4;
+ write32(base_ptr + I2C_SS_SCL_HCNT, 0x1f4);
+ write32(base_ptr + I2C_SS_SCL_LCNT, 0x1f4);
/* For 400 kHz, the counter value is 0x7d */
- *((unsigned int *)(base_ptr + I2C_FS_SCL_HCNT)) = 0x7d;
- *((unsigned int *)(base_ptr + I2C_FS_SCL_LCNT)) = 0x7d;
+ write32(base_ptr + I2C_FS_SCL_HCNT, 0x7d);
+ write32(base_ptr + I2C_FS_SCL_LCNT, 0x7d);
/* Enable the I2C controller for operation */
- *((unsigned int *)(base_ptr + I2C_ENABLE)) = 0x1;
+ write32(base_ptr + I2C_ENABLE, 0x1);
printk(BIOS_INFO, "I2C: Controller %d enabled.\n", bus);
return I2C_SUCCESS;
@@ -177,20 +178,20 @@ int i2c_read(unsigned bus, unsigned chip, unsigned addr,
if (stat != I2C_SUCCESS)
return stat;
/* Now we can program the desired slave address and start transfer */
- *((unsigned int *)(base_ptr + I2C_TARGET_ADR)) = (chip & 0xff);
+ write32(base_ptr + I2C_TARGET_ADR, chip & 0xff);
/* Send address inside slave to read from */
- *((unsigned int *)(base_ptr + I2C_DATA_CMD)) = (addr & 0xff);
+ write32(base_ptr + I2C_DATA_CMD, addr & 0xff);
/* For the next byte we need a repeated start condition */
val = I2C_RW_CMD | I2C_RESTART;
/* Now we can read desired amount of data over I2C */
for (i = 0; i < len; i++) {
/* A read is initiated by writing dummy data to the DATA-register */
- *((unsigned int *)(base_ptr + I2C_DATA_CMD)) = val;
+ write32(base_ptr + I2C_DATA_CMD, val);
stat = wait_rx_fifo(base_ptr);
if (stat)
return stat;
- buf[i] = (*((unsigned int *)(base_ptr + I2C_DATA_CMD))) & 0xff;
+ buf[i] = read32(base_ptr + I2C_DATA_CMD) & 0xff;
val = I2C_RW_CMD;
if (i == (len - 2)) {
/* For the last byte we need a stop condition to be generated */
@@ -232,10 +233,10 @@ int i2c_write(unsigned bus, unsigned chip, unsigned addr,
return stat;
}
/* Program slave address to use for this transfer */
- *((unsigned int *)(base_ptr + I2C_TARGET_ADR)) = (chip & 0xff);
+ write32(base_ptr + I2C_TARGET_ADR, chip & 0xff);
/* Send address inside slave to write data to */
- *((unsigned int *)(base_ptr + I2C_DATA_CMD)) = (addr & 0xff);
+ write32(base_ptr + I2C_DATA_CMD, addr & 0xff);
for (i = 0; i < len; i++) {
val = (unsigned int)(buf[i] & 0xff); /* Take only 8 bits */
@@ -247,7 +248,7 @@ int i2c_write(unsigned bus, unsigned chip, unsigned addr,
if (stat) {
return stat;
}
- *((unsigned int *)(base_ptr + I2C_DATA_CMD)) = val;
+ write32(base_ptr + I2C_DATA_CMD, val);
}
return I2C_SUCCESS;
}