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/* Copyright 2019 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
/* I2C module for Chrome EC */
#include "clock.h"
#include "compile_time_macros.h"
#include "console.h"
#include "gpio.h"
#include "hooks.h"
#include "i2c_slave.h"
#include "registers.h"
#include <stddef.h>
#include <string.h>
#include "task.h"
/* Console output macros */
#define CPRINTS(format, args...) cprints(CC_I2C, format, ## args)
/* The size must be a power of 2 */
#define I2C_MAX_BUFFER_SIZE 0x100
#define I2C_SIZE_MASK (I2C_MAX_BUFFER_SIZE - 1)
#define I2C_READ_MAXFIFO_DATA 16
#define I2C_ENHANCED_CH_INTERVAL 0x80
/* Store master to slave data of channel D, E, F by DMA */
static uint8_t in_data[I2C_ENHANCED_PORT_COUNT][I2C_MAX_BUFFER_SIZE]
__attribute__((section(".h2ram.pool.i2cslv")));
/* Store slave to master data of channel D, E, F by DMA */
static uint8_t out_data[I2C_ENHANCED_PORT_COUNT][I2C_MAX_BUFFER_SIZE]
__attribute__((section(".h2ram.pool.i2cslv")));
/* Store read and write data of channel A by FIFO mode */
static uint8_t pbuffer[I2C_MAX_BUFFER_SIZE];
static uint32_t w_index;
static uint32_t r_index;
static int wr_done[I2C_ENHANCED_PORT_COUNT];
void buffer_index_reset(void)
{
/* Reset write buffer index */
w_index = 0;
/* Reset read buffer index */
r_index = 0;
}
/* Data structure to define I2C slave control configuration. */
struct i2c_slv_ctrl_t {
int irq; /* slave irq */
/* offset from base 0x00F03500 register; -1 means unused. */
int offset;
enum clock_gate_offsets clock_gate;
int dma_index;
};
/* I2C slave control */
const struct i2c_slv_ctrl_t i2c_slv_ctrl[] = {
[IT83XX_I2C_CH_A] = {.irq = IT83XX_IRQ_SMB_A, .offset = -1,
.clock_gate = CGC_OFFSET_SMBA, .dma_index = -1},
[IT83XX_I2C_CH_D] = {.irq = IT83XX_IRQ_SMB_D, .offset = 0x180,
.clock_gate = CGC_OFFSET_SMBD, .dma_index = 0},
[IT83XX_I2C_CH_E] = {.irq = IT83XX_IRQ_SMB_E, .offset = 0x0,
.clock_gate = CGC_OFFSET_SMBE, .dma_index = 1},
[IT83XX_I2C_CH_F] = {.irq = IT83XX_IRQ_SMB_F, .offset = 0x80,
.clock_gate = CGC_OFFSET_SMBF, .dma_index = 2},
};
void i2c_slave_read_write_data(int port)
{
int slv_status, i;
/* I2C slave channel A FIFO mode */
if (port < I2C_STANDARD_PORT_COUNT) {
int count;
slv_status = IT83XX_SMB_SLSTA;
/* bit0-4 : FIFO byte count */
count = IT83XX_SMB_SFFSTA & 0x1F;
/* Slave data register is waiting for read or write. */
if (slv_status & IT83XX_SMB_SDS) {
/* Master to read data */
if (slv_status & IT83XX_SMB_RCS) {
for (i = 0; i < I2C_READ_MAXFIFO_DATA; i++)
/* Return buffer data to master */
IT83XX_SMB_SLDA =
pbuffer[(i + r_index) & I2C_SIZE_MASK];
/* Index to next 16 bytes of read buffer */
r_index += I2C_READ_MAXFIFO_DATA;
}
/* Master to write data */
else {
/* FIFO Full */
if (IT83XX_SMB_SFFSTA & IT83XX_SMB_SFFFULL) {
for (i = 0; i < count; i++)
/* Get data from master to buffer */
pbuffer[(w_index + i) &
I2C_SIZE_MASK] = IT83XX_SMB_SLDA;
}
/* Index to next byte of write buffer */
w_index += count;
}
}
/* Stop condition, indicate stop condition detected. */
if (slv_status & IT83XX_SMB_SPDS) {
/* Read data less 16 bytes status */
if (slv_status & IT83XX_SMB_RCS) {
/* Disable FIFO mode to clear left count */
IT83XX_SMB_SFFCTL &= ~IT83XX_SMB_SAFE;
/* Slave A FIFO Enable */
IT83XX_SMB_SFFCTL |= IT83XX_SMB_SAFE;
}
/* Master to write data */
else {
for (i = 0; i < count; i++)
/* Get data from master to buffer */
pbuffer[(i + w_index) &
I2C_SIZE_MASK] = IT83XX_SMB_SLDA;
}
/* Reset read and write buffer index */
buffer_index_reset();
}
/* Slave time status, timeout status occurs. */
if (slv_status & IT83XX_SMB_STS) {
/* Reset read and write buffer index */
buffer_index_reset();
}
/* Write clear the slave status */
IT83XX_SMB_SLSTA = slv_status;
}
/* Enhanced I2C slave channel D, E, F DMA mode */
else {
int ch, idx;
/* Get enhanced i2c channel */
ch = i2c_slv_ctrl[port].offset / I2C_ENHANCED_CH_INTERVAL;
idx = i2c_slv_ctrl[port].dma_index;
/* Interrupt pending */
if (IT83XX_I2C_STR(ch) & IT83XX_I2C_INTPEND) {
slv_status = IT83XX_I2C_IRQ_ST(ch);
/* Master to read data */
if (slv_status & IT83XX_I2C_IDR_CLR) {
/*
* TODO(b:129360157): Return buffer data by
* "out_data" array.
* Ex: Write data to buffer from 0x00 to 0xFF
*/
for (i = 0; i < I2C_MAX_BUFFER_SIZE; i++)
out_data[idx][i] = i;
}
/* Master to write data */
if (slv_status & IT83XX_I2C_IDW_CLR) {
/* Master to write data finish flag */
wr_done[idx] = 1;
}
/* Slave finish */
if (slv_status & IT83XX_I2C_P_CLR) {
if (wr_done[idx]) {
/*
* TODO(b:129360157): Handle master write
* data by "in_data" array.
*/
CPRINTS("WData: %ph",
HEX_BUF(in_data[idx],
I2C_MAX_BUFFER_SIZE));
wr_done[idx] = 0;
}
}
/* Write clear the slave status */
IT83XX_I2C_IRQ_ST(ch) = slv_status;
}
/* Hardware reset */
IT83XX_I2C_CTR(ch) |= IT83XX_I2C_HALT;
}
}
void i2c_slv_interrupt(int port)
{
/* Slave to read and write fifo data */
i2c_slave_read_write_data(port);
/* Clear the interrupt status */
task_clear_pending_irq(i2c_slv_ctrl[port].irq);
}
void i2c_slave_enable(int port, uint8_t slv_addr)
{
clock_enable_peripheral(i2c_slv_ctrl[port].clock_gate, 0, 0);
/* I2C slave channel A FIFO mode */
if (port < I2C_STANDARD_PORT_COUNT) {
/* This field defines the SMCLK0/1/2 clock/data low timeout. */
IT83XX_SMB_25MS = I2C_CLK_LOW_TIMEOUT;
/* bit0 : Slave A FIFO Enable */
IT83XX_SMB_SFFCTL |= IT83XX_SMB_SAFE;
/*
* bit1 : Slave interrupt enable.
* bit2 : SMCLK/SMDAT will be released if timeout.
* bit3 : Slave detect STOP condition interrupt enable.
*/
IT83XX_SMB_SICR = 0x0E;
/* Slave address 1 */
IT83XX_SMB_RESLADR = slv_addr;
/* Write clear all slave status */
IT83XX_SMB_SLSTA = 0xE7;
/* bit5 : Enable the SMBus slave device */
IT83XX_SMB_HOCTL2(port) |= IT83XX_SMB_SLVEN;
}
/* Enhanced I2C slave channel D, E, F DMA mode */
else {
int ch, idx;
uint32_t in_data_addr, out_data_addr;
/* Get enhanced i2c channel */
ch = i2c_slv_ctrl[port].offset / I2C_ENHANCED_CH_INTERVAL;
idx = i2c_slv_ctrl[port].dma_index;
switch (port) {
case IT83XX_I2C_CH_D:
/* Enable I2C D channel */
IT83XX_GPIO_GRC2 |= (1 << 5);
break;
case IT83XX_I2C_CH_E:
/* Enable I2C E channel */
IT83XX_GCTRL_PMER1 |= (1 << 0);
break;
case IT83XX_I2C_CH_F:
/* Enable I2C F channel */
IT83XX_GCTRL_PMER1 |= (1 << 1);
break;
}
/* Software reset */
IT83XX_I2C_DHTR(ch) |= (1 << 7);
IT83XX_I2C_DHTR(ch) &= ~(1 << 7);
/* This field defines the SMCLK3/4/5 clock/data low timeout. */
IT83XX_I2C_TOR(ch) = I2C_CLK_LOW_TIMEOUT;
/* Bit stretching */
IT83XX_I2C_TOS(ch) |= IT83XX_I2C_CLK_STR;
/* Slave address(8-bit)*/
IT83XX_I2C_IDR(ch) = slv_addr << 1;
/* I2C interrupt enable and set acknowledge */
IT83XX_I2C_CTR(ch) = IT83XX_I2C_HALT |
IT83XX_I2C_INTEN | IT83XX_I2C_ACK;
/*
* bit3 : Slave ID write flag
* bit2 : Slave ID read flag
* bit1 : Slave received data flag
* bit0 : Slave finish
*/
IT83XX_I2C_IRQ_ST(ch) = 0xFF;
/* Clear read and write data buffer of DMA */
memset(in_data[idx], 0, I2C_MAX_BUFFER_SIZE);
memset(out_data[idx], 0, I2C_MAX_BUFFER_SIZE);
if (IS_ENABLED(CHIP_ILM_DLM_ORDER)) {
in_data_addr = (uint32_t)in_data[idx] & 0xffffff;
out_data_addr = (uint32_t)out_data[idx] & 0xffffff;
} else {
in_data_addr = (uint32_t)in_data[idx] & 0xfff;
out_data_addr = (uint32_t)out_data[idx] & 0xfff;
}
/* DMA write target address register */
IT83XX_I2C_RAMHA(ch) = in_data_addr >> 8;
IT83XX_I2C_RAMLA(ch) = in_data_addr;
if (IS_ENABLED(CHIP_ILM_DLM_ORDER)) {
/*
* DMA write target address register
* for high order byte
*/
IT83XX_I2C_RAMH2A(ch) = in_data_addr >> 16;
/*
* DMA read target address register
* for high order byte
*/
IT83XX_I2C_CMD_ADDH2(ch) = out_data_addr >> 16;
IT83XX_I2C_CMD_ADDH(ch) = out_data_addr >> 8;
IT83XX_I2C_CMD_ADDL(ch) = out_data_addr;
} else {
/* DMA read target address register */
IT83XX_I2C_RAMHA2(ch) = out_data_addr >> 8;
IT83XX_I2C_RAMLA2(ch) = out_data_addr;
}
/* I2C module enable and command queue mode */
IT83XX_I2C_CTR1(ch) = IT83XX_I2C_COMQ_EN |
IT83XX_I2C_MDL_EN;
}
}
static void i2c_slave_init(void)
{
int i, p;
/* DLM 52k~56k size select enable */
IT83XX_GCTRL_MCCR2 |= (1 << 4);
/* Enable I2C Slave function */
for (i = 0; i < i2c_slvs_used; i++) {
/* I2c slave port mapping. */
p = i2c_slv_ports[i].port;
/* To enable slave ch[x] */
i2c_slave_enable(p, i2c_slv_ports[i].slave_adr);
/* Clear the interrupt status */
task_clear_pending_irq(i2c_slv_ctrl[p].irq);
/* enable i2c interrupt */
task_enable_irq(i2c_slv_ctrl[p].irq);
}
}
DECLARE_HOOK(HOOK_INIT, i2c_slave_init, HOOK_PRIO_INIT_I2C + 1);
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