Commit f5473692 authored by Tali Perry's avatar Tali Perry Committed by Wolfram Sang

i2c: npcm7xx: Add support for slave mode for Nuvoton

Add support for slave mode for Nuvoton
NPCM BMC I2C controller driver.
Signed-off-by: default avatarTali Perry <tali.perry1@gmail.com>
Reviewed-by: default avatarAndy Shevchenko <andriy.shevchenko@linux.intel.com>
Signed-off-by: default avatarWolfram Sang <wsa@kernel.org>
parent 56a1485b
...@@ -71,6 +71,24 @@ enum i2c_state { ...@@ -71,6 +71,24 @@ enum i2c_state {
I2C_STOP_PENDING, I2C_STOP_PENDING,
}; };
#if IS_ENABLED(CONFIG_I2C_SLAVE)
/* Module supports setting multiple own slave addresses */
enum i2c_addr {
I2C_SLAVE_ADDR1 = 0,
I2C_SLAVE_ADDR2,
I2C_SLAVE_ADDR3,
I2C_SLAVE_ADDR4,
I2C_SLAVE_ADDR5,
I2C_SLAVE_ADDR6,
I2C_SLAVE_ADDR7,
I2C_SLAVE_ADDR8,
I2C_SLAVE_ADDR9,
I2C_SLAVE_ADDR10,
I2C_GC_ADDR,
I2C_ARP_ADDR,
};
#endif
/* init register and default value required to enable module */ /* init register and default value required to enable module */
#define NPCM_I2CSEGCTL 0xE4 #define NPCM_I2CSEGCTL 0xE4
#define NPCM_I2CSEGCTL_INIT_VAL 0x0333F000 #define NPCM_I2CSEGCTL_INIT_VAL 0x0333F000
...@@ -98,6 +116,21 @@ enum i2c_state { ...@@ -98,6 +116,21 @@ enum i2c_state {
#define NPCM_I2CADDR6 0x16 #define NPCM_I2CADDR6 0x16
#define NPCM_I2CADDR10 0x17 #define NPCM_I2CADDR10 0x17
#if IS_ENABLED(CONFIG_I2C_SLAVE)
/*
* npcm_i2caddr array:
* The module supports having multiple own slave addresses.
* Since the addr regs are sprinkled all over the address space,
* use this array to get the address or each register.
*/
#define I2C_NUM_OWN_ADDR 10
const int npcm_i2caddr[I2C_NUM_OWN_ADDR] = {
NPCM_I2CADDR1, NPCM_I2CADDR2, NPCM_I2CADDR3, NPCM_I2CADDR4,
NPCM_I2CADDR5, NPCM_I2CADDR6, NPCM_I2CADDR7, NPCM_I2CADDR8,
NPCM_I2CADDR9, NPCM_I2CADDR10,
};
#endif
#define NPCM_I2CCTL4 0x1A #define NPCM_I2CCTL4 0x1A
#define NPCM_I2CCTL5 0x1B #define NPCM_I2CCTL5 0x1B
#define NPCM_I2CSCLLT 0x1C /* SCL Low Time */ #define NPCM_I2CSCLLT 0x1C /* SCL Low Time */
...@@ -265,6 +298,16 @@ struct npcm_i2c { ...@@ -265,6 +298,16 @@ struct npcm_i2c {
bool read_block_use; bool read_block_use;
unsigned long int_time_stamp; unsigned long int_time_stamp;
unsigned long bus_freq; /* in Hz */ unsigned long bus_freq; /* in Hz */
#if IS_ENABLED(CONFIG_I2C_SLAVE)
u8 own_slave_addr;
struct i2c_client *slave;
int slv_rd_size;
int slv_rd_ind;
int slv_wr_size;
int slv_wr_ind;
u8 slv_rd_buf[I2C_HW_FIFO_SIZE];
u8 slv_wr_buf[I2C_HW_FIFO_SIZE];
#endif
struct dentry *debugfs; /* debugfs device directory */ struct dentry *debugfs; /* debugfs device directory */
u64 ber_cnt; u64 ber_cnt;
u64 rec_succ_cnt; u64 rec_succ_cnt;
...@@ -296,6 +339,10 @@ static void npcm_i2c_init_params(struct npcm_i2c *bus) ...@@ -296,6 +339,10 @@ static void npcm_i2c_init_params(struct npcm_i2c *bus)
bus->int_time_stamp = 0; bus->int_time_stamp = 0;
bus->PEC_use = false; bus->PEC_use = false;
bus->PEC_mask = 0; bus->PEC_mask = 0;
#if IS_ENABLED(CONFIG_I2C_SLAVE)
if (bus->slave)
bus->master_or_slave = I2C_SLAVE;
#endif
} }
static inline void npcm_i2c_wr_byte(struct npcm_i2c *bus, u8 data) static inline void npcm_i2c_wr_byte(struct npcm_i2c *bus, u8 data)
...@@ -341,6 +388,18 @@ static void npcm_i2c_disable(struct npcm_i2c *bus) ...@@ -341,6 +388,18 @@ static void npcm_i2c_disable(struct npcm_i2c *bus)
{ {
u8 i2cctl2; u8 i2cctl2;
#if IS_ENABLED(CONFIG_I2C_SLAVE)
int i;
/* select bank 0 for I2C addresses */
npcm_i2c_select_bank(bus, I2C_BANK_0);
/* Slave addresses removal */
for (i = I2C_SLAVE_ADDR1; i < I2C_NUM_OWN_ADDR; i++)
iowrite8(0, bus->reg + npcm_i2caddr[i]);
npcm_i2c_select_bank(bus, I2C_BANK_1);
#endif
/* Disable module */ /* Disable module */
i2cctl2 = ioread8(bus->reg + NPCM_I2CCTL2); i2cctl2 = ioread8(bus->reg + NPCM_I2CCTL2);
i2cctl2 = i2cctl2 & ~I2CCTL2_ENABLE; i2cctl2 = i2cctl2 & ~I2CCTL2_ENABLE;
...@@ -504,6 +563,61 @@ static inline void npcm_i2c_nack(struct npcm_i2c *bus) ...@@ -504,6 +563,61 @@ static inline void npcm_i2c_nack(struct npcm_i2c *bus)
iowrite8(val, bus->reg + NPCM_I2CCTL1); iowrite8(val, bus->reg + NPCM_I2CCTL1);
} }
#if IS_ENABLED(CONFIG_I2C_SLAVE)
static void npcm_i2c_slave_int_enable(struct npcm_i2c *bus, bool enable)
{
u8 i2cctl1;
/* enable interrupt on slave match: */
i2cctl1 = ioread8(bus->reg + NPCM_I2CCTL1);
i2cctl1 &= ~NPCM_I2CCTL1_RWS;
if (enable)
i2cctl1 |= NPCM_I2CCTL1_NMINTE;
else
i2cctl1 &= ~NPCM_I2CCTL1_NMINTE;
iowrite8(i2cctl1, bus->reg + NPCM_I2CCTL1);
}
static int npcm_i2c_slave_enable(struct npcm_i2c *bus, enum i2c_addr addr_type,
u8 addr, bool enable)
{
u8 i2cctl1;
u8 i2cctl3;
u8 sa_reg;
sa_reg = (addr & 0x7F) | FIELD_PREP(NPCM_I2CADDR_SAEN, enable);
if (addr_type == I2C_GC_ADDR) {
i2cctl1 = ioread8(bus->reg + NPCM_I2CCTL1);
if (enable)
i2cctl1 |= NPCM_I2CCTL1_GCMEN;
else
i2cctl1 &= ~NPCM_I2CCTL1_GCMEN;
iowrite8(i2cctl1, bus->reg + NPCM_I2CCTL1);
return 0;
}
if (addr_type == I2C_ARP_ADDR) {
i2cctl3 = ioread8(bus->reg + NPCM_I2CCTL3);
if (enable)
i2cctl3 |= I2CCTL3_ARPMEN;
else
i2cctl3 &= ~I2CCTL3_ARPMEN;
iowrite8(i2cctl3, bus->reg + NPCM_I2CCTL3);
return 0;
}
if (addr_type >= I2C_ARP_ADDR)
return -EFAULT;
/* select bank 0 for address 3 to 10 */
if (addr_type > I2C_SLAVE_ADDR2)
npcm_i2c_select_bank(bus, I2C_BANK_0);
/* Set and enable the address */
iowrite8(sa_reg, bus->reg + npcm_i2caddr[addr_type]);
npcm_i2c_slave_int_enable(bus, enable);
if (addr_type > I2C_SLAVE_ADDR2)
npcm_i2c_select_bank(bus, I2C_BANK_1);
return 0;
}
#endif
static void npcm_i2c_reset(struct npcm_i2c *bus) static void npcm_i2c_reset(struct npcm_i2c *bus)
{ {
/* /*
...@@ -511,6 +625,9 @@ static void npcm_i2c_reset(struct npcm_i2c *bus) ...@@ -511,6 +625,9 @@ static void npcm_i2c_reset(struct npcm_i2c *bus)
* is disabled. * is disabled.
*/ */
u8 i2cctl1; u8 i2cctl1;
#if IS_ENABLED(CONFIG_I2C_SLAVE)
u8 addr;
#endif
i2cctl1 = ioread8(bus->reg + NPCM_I2CCTL1); i2cctl1 = ioread8(bus->reg + NPCM_I2CCTL1);
...@@ -531,6 +648,13 @@ static void npcm_i2c_reset(struct npcm_i2c *bus) ...@@ -531,6 +648,13 @@ static void npcm_i2c_reset(struct npcm_i2c *bus)
/* Clear all fifo bits: */ /* Clear all fifo bits: */
iowrite8(NPCM_I2CFIF_CTS_CLR_FIFO, bus->reg + NPCM_I2CFIF_CTS); iowrite8(NPCM_I2CFIF_CTS_CLR_FIFO, bus->reg + NPCM_I2CFIF_CTS);
#if IS_ENABLED(CONFIG_I2C_SLAVE)
if (bus->slave) {
addr = bus->slave->addr;
npcm_i2c_slave_enable(bus, I2C_SLAVE_ADDR1, addr, true);
}
#endif
bus->state = I2C_IDLE; bus->state = I2C_IDLE;
} }
...@@ -596,6 +720,10 @@ static void npcm_i2c_callback(struct npcm_i2c *bus, ...@@ -596,6 +720,10 @@ static void npcm_i2c_callback(struct npcm_i2c *bus,
} }
bus->operation = I2C_NO_OPER; bus->operation = I2C_NO_OPER;
#if IS_ENABLED(CONFIG_I2C_SLAVE)
if (bus->slave)
bus->master_or_slave = I2C_SLAVE;
#endif
} }
static u8 npcm_i2c_fifo_usage(struct npcm_i2c *bus) static u8 npcm_i2c_fifo_usage(struct npcm_i2c *bus)
...@@ -707,6 +835,459 @@ static void npcm_i2c_master_abort(struct npcm_i2c *bus) ...@@ -707,6 +835,459 @@ static void npcm_i2c_master_abort(struct npcm_i2c *bus)
npcm_i2c_clear_master_status(bus); npcm_i2c_clear_master_status(bus);
} }
#if IS_ENABLED(CONFIG_I2C_SLAVE)
static u8 npcm_i2c_get_slave_addr(struct npcm_i2c *bus, enum i2c_addr addr_type)
{
u8 slave_add;
/* select bank 0 for address 3 to 10 */
if (addr_type > I2C_SLAVE_ADDR2)
npcm_i2c_select_bank(bus, I2C_BANK_0);
slave_add = ioread8(bus->reg + npcm_i2caddr[(int)addr_type]);
if (addr_type > I2C_SLAVE_ADDR2)
npcm_i2c_select_bank(bus, I2C_BANK_1);
return slave_add;
}
static int npcm_i2c_remove_slave_addr(struct npcm_i2c *bus, u8 slave_add)
{
int i;
/* Set the enable bit */
slave_add |= 0x80;
npcm_i2c_select_bank(bus, I2C_BANK_0);
for (i = I2C_SLAVE_ADDR1; i < I2C_NUM_OWN_ADDR; i++) {
if (ioread8(bus->reg + npcm_i2caddr[i]) == slave_add)
iowrite8(0, bus->reg + npcm_i2caddr[i]);
}
npcm_i2c_select_bank(bus, I2C_BANK_1);
return 0;
}
static void npcm_i2c_write_fifo_slave(struct npcm_i2c *bus, u16 max_bytes)
{
/*
* Fill the FIFO, while the FIFO is not full and there are more bytes
* to write
*/
npcm_i2c_clear_fifo_int(bus);
npcm_i2c_clear_tx_fifo(bus);
iowrite8(0, bus->reg + NPCM_I2CTXF_CTL);
while (max_bytes-- && I2C_HW_FIFO_SIZE != npcm_i2c_fifo_usage(bus)) {
if (bus->slv_wr_size <= 0)
break;
bus->slv_wr_ind = bus->slv_wr_ind % I2C_HW_FIFO_SIZE;
npcm_i2c_wr_byte(bus, bus->slv_wr_buf[bus->slv_wr_ind]);
bus->slv_wr_ind++;
bus->slv_wr_ind = bus->slv_wr_ind % I2C_HW_FIFO_SIZE;
bus->slv_wr_size--;
}
}
static void npcm_i2c_read_fifo_slave(struct npcm_i2c *bus, u8 bytes_in_fifo)
{
u8 data;
if (!bus->slave)
return;
while (bytes_in_fifo--) {
data = npcm_i2c_rd_byte(bus);
bus->slv_rd_ind = bus->slv_rd_ind % I2C_HW_FIFO_SIZE;
bus->slv_rd_buf[bus->slv_rd_ind] = data;
bus->slv_rd_ind++;
/* 1st byte is length in block protocol: */
if (bus->slv_rd_ind == 1 && bus->read_block_use)
bus->slv_rd_size = data + bus->PEC_use + 1;
}
}
static int npcm_i2c_slave_get_wr_buf(struct npcm_i2c *bus)
{
int i;
u8 value;
int ind;
int ret = bus->slv_wr_ind;
/* fill a cyclic buffer */
for (i = 0; i < I2C_HW_FIFO_SIZE; i++) {
if (bus->slv_wr_size >= I2C_HW_FIFO_SIZE)
break;
i2c_slave_event(bus->slave, I2C_SLAVE_READ_REQUESTED, &value);
ind = (bus->slv_wr_ind + bus->slv_wr_size) % I2C_HW_FIFO_SIZE;
bus->slv_wr_buf[ind] = value;
bus->slv_wr_size++;
i2c_slave_event(bus->slave, I2C_SLAVE_READ_PROCESSED, &value);
}
return I2C_HW_FIFO_SIZE - ret;
}
static void npcm_i2c_slave_send_rd_buf(struct npcm_i2c *bus)
{
int i;
for (i = 0; i < bus->slv_rd_ind; i++)
i2c_slave_event(bus->slave, I2C_SLAVE_WRITE_RECEIVED,
&bus->slv_rd_buf[i]);
/*
* once we send bytes up, need to reset the counter of the wr buf
* got data from master (new offset in device), ignore wr fifo:
*/
if (bus->slv_rd_ind) {
bus->slv_wr_size = 0;
bus->slv_wr_ind = 0;
}
bus->slv_rd_ind = 0;
bus->slv_rd_size = bus->adap.quirks->max_read_len;
npcm_i2c_clear_fifo_int(bus);
npcm_i2c_clear_rx_fifo(bus);
}
static void npcm_i2c_slave_receive(struct npcm_i2c *bus, u16 nread,
u8 *read_data)
{
bus->state = I2C_OPER_STARTED;
bus->operation = I2C_READ_OPER;
bus->slv_rd_size = nread;
bus->slv_rd_ind = 0;
iowrite8(0, bus->reg + NPCM_I2CTXF_CTL);
iowrite8(I2C_HW_FIFO_SIZE, bus->reg + NPCM_I2CRXF_CTL);
npcm_i2c_clear_tx_fifo(bus);
npcm_i2c_clear_rx_fifo(bus);
}
static void npcm_i2c_slave_xmit(struct npcm_i2c *bus, u16 nwrite,
u8 *write_data)
{
if (nwrite == 0)
return;
bus->state = I2C_OPER_STARTED;
bus->operation = I2C_WRITE_OPER;
/* get the next buffer */
npcm_i2c_slave_get_wr_buf(bus);
npcm_i2c_write_fifo_slave(bus, nwrite);
}
/*
* npcm_i2c_slave_wr_buf_sync:
* currently slave IF only supports single byte operations.
* in order to utilyze the npcm HW FIFO, the driver will ask for 16 bytes
* at a time, pack them in buffer, and then transmit them all together
* to the FIFO and onward to the bus.
* NACK on read will be once reached to bus->adap->quirks->max_read_len.
* sending a NACK wherever the backend requests for it is not supported.
* the next two functions allow reading to local buffer before writing it all
* to the HW FIFO.
*/
static void npcm_i2c_slave_wr_buf_sync(struct npcm_i2c *bus)
{
int left_in_fifo;
left_in_fifo = FIELD_GET(NPCM_I2CTXF_STS_TX_BYTES,
ioread8(bus->reg + NPCM_I2CTXF_STS));
/* fifo already full: */
if (left_in_fifo >= I2C_HW_FIFO_SIZE ||
bus->slv_wr_size >= I2C_HW_FIFO_SIZE)
return;
/* update the wr fifo index back to the untransmitted bytes: */
bus->slv_wr_ind = bus->slv_wr_ind - left_in_fifo;
bus->slv_wr_size = bus->slv_wr_size + left_in_fifo;
if (bus->slv_wr_ind < 0)
bus->slv_wr_ind += I2C_HW_FIFO_SIZE;
}
static void npcm_i2c_slave_rd_wr(struct npcm_i2c *bus)
{
if (NPCM_I2CST_XMIT & ioread8(bus->reg + NPCM_I2CST)) {
/*
* Slave got an address match with direction bit 1 so it should
* transmit data. Write till the master will NACK
*/
bus->operation = I2C_WRITE_OPER;
npcm_i2c_slave_xmit(bus, bus->adap.quirks->max_write_len,
bus->slv_wr_buf);
} else {
/*
* Slave got an address match with direction bit 0 so it should
* receive data.
* this module does not support saying no to bytes.
* it will always ACK.
*/
bus->operation = I2C_READ_OPER;
npcm_i2c_read_fifo_slave(bus, npcm_i2c_fifo_usage(bus));
bus->stop_ind = I2C_SLAVE_RCV_IND;
npcm_i2c_slave_send_rd_buf(bus);
npcm_i2c_slave_receive(bus, bus->adap.quirks->max_read_len,
bus->slv_rd_buf);
}
}
static irqreturn_t npcm_i2c_int_slave_handler(struct npcm_i2c *bus)
{
u8 val;
irqreturn_t ret = IRQ_NONE;
u8 i2cst = ioread8(bus->reg + NPCM_I2CST);
/* Slave: A NACK has occurred */
if (NPCM_I2CST_NEGACK & i2cst) {
bus->stop_ind = I2C_NACK_IND;
npcm_i2c_slave_wr_buf_sync(bus);
if (bus->fifo_use)
/* clear the FIFO */
iowrite8(NPCM_I2CFIF_CTS_CLR_FIFO,
bus->reg + NPCM_I2CFIF_CTS);
/* In slave write, NACK is OK, otherwise it is a problem */
bus->stop_ind = I2C_NO_STATUS_IND;
bus->operation = I2C_NO_OPER;
bus->own_slave_addr = 0xFF;
/*
* Slave has to wait for STOP to decide this is the end
* of the transaction. tx is not yet considered as done
*/
iowrite8(NPCM_I2CST_NEGACK, bus->reg + NPCM_I2CST);
ret = IRQ_HANDLED;
}
/* Slave mode: a Bus Error (BER) has been identified */
if (NPCM_I2CST_BER & i2cst) {
/*
* Check whether bus arbitration or Start or Stop during data
* xfer bus arbitration problem should not result in recovery
*/
bus->stop_ind = I2C_BUS_ERR_IND;
/* wait for bus busy before clear fifo */
iowrite8(NPCM_I2CFIF_CTS_CLR_FIFO, bus->reg + NPCM_I2CFIF_CTS);
bus->state = I2C_IDLE;
/*
* in BER case we might get 2 interrupts: one for slave one for
* master ( for a channel which is master\slave switching)
*/
if (completion_done(&bus->cmd_complete) == false) {
bus->cmd_err = -EIO;
complete(&bus->cmd_complete);
}
bus->own_slave_addr = 0xFF;
iowrite8(NPCM_I2CST_BER, bus->reg + NPCM_I2CST);
ret = IRQ_HANDLED;
}
/* A Slave Stop Condition has been identified */
if (NPCM_I2CST_SLVSTP & i2cst) {
u8 bytes_in_fifo = npcm_i2c_fifo_usage(bus);
bus->stop_ind = I2C_SLAVE_DONE_IND;
if (bus->operation == I2C_READ_OPER)
npcm_i2c_read_fifo_slave(bus, bytes_in_fifo);
/* if the buffer is empty nothing will be sent */
npcm_i2c_slave_send_rd_buf(bus);
/* Slave done transmitting or receiving */
bus->stop_ind = I2C_NO_STATUS_IND;
/*
* Note, just because we got here, it doesn't mean we through
* away the wr buffer.
* we keep it until the next received offset.
*/
bus->operation = I2C_NO_OPER;
bus->own_slave_addr = 0xFF;
i2c_slave_event(bus->slave, I2C_SLAVE_STOP, 0);
iowrite8(NPCM_I2CST_SLVSTP, bus->reg + NPCM_I2CST);
if (bus->fifo_use) {
npcm_i2c_clear_fifo_int(bus);
npcm_i2c_clear_rx_fifo(bus);
npcm_i2c_clear_tx_fifo(bus);
iowrite8(NPCM_I2CFIF_CTS_CLR_FIFO,
bus->reg + NPCM_I2CFIF_CTS);
}
bus->state = I2C_IDLE;
ret = IRQ_HANDLED;
}
/* restart condition occurred and Rx-FIFO was not empty */
if (bus->fifo_use && FIELD_GET(NPCM_I2CFIF_CTS_SLVRSTR,
ioread8(bus->reg + NPCM_I2CFIF_CTS))) {
bus->stop_ind = I2C_SLAVE_RESTART_IND;
bus->master_or_slave = I2C_SLAVE;
if (bus->operation == I2C_READ_OPER)
npcm_i2c_read_fifo_slave(bus, npcm_i2c_fifo_usage(bus));
bus->operation = I2C_WRITE_OPER;
iowrite8(0, bus->reg + NPCM_I2CRXF_CTL);
val = NPCM_I2CFIF_CTS_CLR_FIFO | NPCM_I2CFIF_CTS_SLVRSTR |
NPCM_I2CFIF_CTS_RXF_TXE;
iowrite8(val, bus->reg + NPCM_I2CFIF_CTS);
npcm_i2c_slave_rd_wr(bus);
ret = IRQ_HANDLED;
}
/* A Slave Address Match has been identified */
if (NPCM_I2CST_NMATCH & i2cst) {
u8 info = 0;
/* Address match automatically implies slave mode */
bus->master_or_slave = I2C_SLAVE;
npcm_i2c_clear_fifo_int(bus);
npcm_i2c_clear_rx_fifo(bus);
npcm_i2c_clear_tx_fifo(bus);
iowrite8(0, bus->reg + NPCM_I2CTXF_CTL);
iowrite8(I2C_HW_FIFO_SIZE, bus->reg + NPCM_I2CRXF_CTL);
if (NPCM_I2CST_XMIT & i2cst) {
bus->operation = I2C_WRITE_OPER;
} else {
i2c_slave_event(bus->slave, I2C_SLAVE_WRITE_REQUESTED,
&info);
bus->operation = I2C_READ_OPER;
}
if (bus->own_slave_addr == 0xFF) {
/* Check which type of address match */
val = ioread8(bus->reg + NPCM_I2CCST);
if (NPCM_I2CCST_MATCH & val) {
u16 addr;
enum i2c_addr eaddr;
u8 i2ccst2;
u8 i2ccst3;
i2ccst3 = ioread8(bus->reg + NPCM_I2CCST3);
i2ccst2 = ioread8(bus->reg + NPCM_I2CCST2);
/*
* the i2c module can response to 10 own SA.
* check which one was addressed by the master.
* repond to the first one.
*/
addr = ((i2ccst3 & 0x07) << 7) |
(i2ccst2 & 0x7F);
info = ffs(addr);
eaddr = (enum i2c_addr)info;
addr = npcm_i2c_get_slave_addr(bus, eaddr);
addr &= 0x7F;
bus->own_slave_addr = addr;
if (bus->PEC_mask & BIT(info))
bus->PEC_use = true;
else
bus->PEC_use = false;
} else {
if (NPCM_I2CCST_GCMATCH & val)
bus->own_slave_addr = 0;
if (NPCM_I2CCST_ARPMATCH & val)
bus->own_slave_addr = 0x61;
}
} else {
/*
* Slave match can happen in two options:
* 1. Start, SA, read (slave read without further ado)
* 2. Start, SA, read, data, restart, SA, read, ...
* (slave read in fragmented mode)
* 3. Start, SA, write, data, restart, SA, read, ..
* (regular write-read mode)
*/
if ((bus->state == I2C_OPER_STARTED &&
bus->operation == I2C_READ_OPER &&
bus->stop_ind == I2C_SLAVE_XMIT_IND) ||
bus->stop_ind == I2C_SLAVE_RCV_IND) {
/* slave tx after slave rx w/o STOP */
bus->stop_ind = I2C_SLAVE_RESTART_IND;
}
}
if (NPCM_I2CST_XMIT & i2cst)
bus->stop_ind = I2C_SLAVE_XMIT_IND;
else
bus->stop_ind = I2C_SLAVE_RCV_IND;
bus->state = I2C_SLAVE_MATCH;
npcm_i2c_slave_rd_wr(bus);
iowrite8(NPCM_I2CST_NMATCH, bus->reg + NPCM_I2CST);
ret = IRQ_HANDLED;
}
/* Slave SDA status is set - tx or rx */
if ((NPCM_I2CST_SDAST & i2cst) ||
(bus->fifo_use &&
(npcm_i2c_tx_fifo_empty(bus) || npcm_i2c_rx_fifo_full(bus)))) {
npcm_i2c_slave_rd_wr(bus);
iowrite8(NPCM_I2CST_SDAST, bus->reg + NPCM_I2CST);
ret = IRQ_HANDLED;
} /* SDAST */
return ret;
}
static int npcm_i2c_reg_slave(struct i2c_client *client)
{
unsigned long lock_flags;
struct npcm_i2c *bus = i2c_get_adapdata(client->adapter);
bus->slave = client;
if (!bus->slave)
return -EINVAL;
if (client->flags & I2C_CLIENT_TEN)
return -EAFNOSUPPORT;
spin_lock_irqsave(&bus->lock, lock_flags);
npcm_i2c_init_params(bus);
bus->slv_rd_size = 0;
bus->slv_wr_size = 0;
bus->slv_rd_ind = 0;
bus->slv_wr_ind = 0;
if (client->flags & I2C_CLIENT_PEC)
bus->PEC_use = true;
dev_info(bus->dev, "i2c%d register slave SA=0x%x, PEC=%d\n", bus->num,
client->addr, bus->PEC_use);
npcm_i2c_slave_enable(bus, I2C_SLAVE_ADDR1, client->addr, true);
npcm_i2c_clear_fifo_int(bus);
npcm_i2c_clear_rx_fifo(bus);
npcm_i2c_clear_tx_fifo(bus);
npcm_i2c_slave_int_enable(bus, true);
spin_unlock_irqrestore(&bus->lock, lock_flags);
return 0;
}
static int npcm_i2c_unreg_slave(struct i2c_client *client)
{
struct npcm_i2c *bus = client->adapter->algo_data;
unsigned long lock_flags;
spin_lock_irqsave(&bus->lock, lock_flags);
if (!bus->slave) {
spin_unlock_irqrestore(&bus->lock, lock_flags);
return -EINVAL;
}
npcm_i2c_slave_int_enable(bus, false);
npcm_i2c_remove_slave_addr(bus, client->addr);
bus->slave = NULL;
spin_unlock_irqrestore(&bus->lock, lock_flags);
return 0;
}
#endif /* CONFIG_I2C_SLAVE */
static void npcm_i2c_master_fifo_read(struct npcm_i2c *bus) static void npcm_i2c_master_fifo_read(struct npcm_i2c *bus)
{ {
int rcount; int rcount;
...@@ -1372,6 +1953,9 @@ static int __npcm_i2c_init(struct npcm_i2c *bus, struct platform_device *pdev) ...@@ -1372,6 +1953,9 @@ static int __npcm_i2c_init(struct npcm_i2c *bus, struct platform_device *pdev)
bus->state = I2C_DISABLE; bus->state = I2C_DISABLE;
bus->master_or_slave = I2C_SLAVE; bus->master_or_slave = I2C_SLAVE;
bus->int_time_stamp = 0; bus->int_time_stamp = 0;
#if IS_ENABLED(CONFIG_I2C_SLAVE)
bus->slave = NULL;
#endif
ret = device_property_read_u32(&pdev->dev, "clock-frequency", ret = device_property_read_u32(&pdev->dev, "clock-frequency",
&clk_freq_hz); &clk_freq_hz);
...@@ -1401,6 +1985,12 @@ static irqreturn_t npcm_i2c_bus_irq(int irq, void *dev_id) ...@@ -1401,6 +1985,12 @@ static irqreturn_t npcm_i2c_bus_irq(int irq, void *dev_id)
if (!npcm_i2c_int_master_handler(bus)) if (!npcm_i2c_int_master_handler(bus))
return IRQ_HANDLED; return IRQ_HANDLED;
} }
#if IS_ENABLED(CONFIG_I2C_SLAVE)
if (bus->slave) {
bus->master_or_slave = I2C_SLAVE;
return npcm_i2c_int_slave_handler(bus);
}
#endif
return IRQ_NONE; return IRQ_NONE;
} }
...@@ -1520,6 +2110,11 @@ static int npcm_i2c_master_xfer(struct i2c_adapter *adap, struct i2c_msg *msgs, ...@@ -1520,6 +2110,11 @@ static int npcm_i2c_master_xfer(struct i2c_adapter *adap, struct i2c_msg *msgs,
*/ */
spin_lock_irqsave(&bus->lock, flags); spin_lock_irqsave(&bus->lock, flags);
bus_busy = ioread8(bus->reg + NPCM_I2CCST) & NPCM_I2CCST_BB; bus_busy = ioread8(bus->reg + NPCM_I2CCST) & NPCM_I2CCST_BB;
#if IS_ENABLED(CONFIG_I2C_SLAVE)
if (!bus_busy && bus->slave)
iowrite8((bus->slave->addr & 0x7F),
bus->reg + NPCM_I2CADDR1);
#endif
spin_unlock_irqrestore(&bus->lock, flags); spin_unlock_irqrestore(&bus->lock, flags);
} while (time_is_after_jiffies(time_left) && bus_busy); } while (time_is_after_jiffies(time_left) && bus_busy);
...@@ -1564,6 +2159,12 @@ static int npcm_i2c_master_xfer(struct i2c_adapter *adap, struct i2c_msg *msgs, ...@@ -1564,6 +2159,12 @@ static int npcm_i2c_master_xfer(struct i2c_adapter *adap, struct i2c_msg *msgs,
if (bus->cmd_err == -EAGAIN) if (bus->cmd_err == -EAGAIN)
ret = i2c_recover_bus(adap); ret = i2c_recover_bus(adap);
#if IS_ENABLED(CONFIG_I2C_SLAVE)
/* reenable slave if it was enabled */
if (bus->slave)
iowrite8((bus->slave->addr & 0x7F) | NPCM_I2CADDR_SAEN,
bus->reg + NPCM_I2CADDR1);
#endif
return bus->cmd_err; return bus->cmd_err;
} }
...@@ -1572,7 +2173,8 @@ static u32 npcm_i2c_functionality(struct i2c_adapter *adap) ...@@ -1572,7 +2173,8 @@ static u32 npcm_i2c_functionality(struct i2c_adapter *adap)
return I2C_FUNC_I2C | return I2C_FUNC_I2C |
I2C_FUNC_SMBUS_EMUL | I2C_FUNC_SMBUS_EMUL |
I2C_FUNC_SMBUS_BLOCK_DATA | I2C_FUNC_SMBUS_BLOCK_DATA |
I2C_FUNC_SMBUS_PEC; I2C_FUNC_SMBUS_PEC |
I2C_FUNC_SLAVE;
} }
static const struct i2c_adapter_quirks npcm_i2c_quirks = { static const struct i2c_adapter_quirks npcm_i2c_quirks = {
...@@ -1584,6 +2186,10 @@ static const struct i2c_adapter_quirks npcm_i2c_quirks = { ...@@ -1584,6 +2186,10 @@ static const struct i2c_adapter_quirks npcm_i2c_quirks = {
static const struct i2c_algorithm npcm_i2c_algo = { static const struct i2c_algorithm npcm_i2c_algo = {
.master_xfer = npcm_i2c_master_xfer, .master_xfer = npcm_i2c_master_xfer,
.functionality = npcm_i2c_functionality, .functionality = npcm_i2c_functionality,
#if IS_ENABLED(CONFIG_I2C_SLAVE)
.reg_slave = npcm_i2c_reg_slave,
.unreg_slave = npcm_i2c_unreg_slave,
#endif
}; };
/* i2c debugfs directory: used to keep health monitor of i2c devices */ /* i2c debugfs directory: used to keep health monitor of i2c devices */
......
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