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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-21 17:43:51 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-21 17:43:51 +0000 |
commit | be58c81aff4cd4c0ccf43dbd7998da4a6a08c03b (patch) | |
tree | 779c248fb61c83f65d1f0dc867f2053d76b4e03a /drivers/mentor | |
parent | Initial commit. (diff) | |
download | arm-trusted-firmware-be58c81aff4cd4c0ccf43dbd7998da4a6a08c03b.tar.xz arm-trusted-firmware-be58c81aff4cd4c0ccf43dbd7998da4a6a08c03b.zip |
Adding upstream version 2.10.0+dfsg.upstream/2.10.0+dfsgupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'drivers/mentor')
-rw-r--r-- | drivers/mentor/i2c/mi2cv.c | 614 |
1 files changed, 614 insertions, 0 deletions
diff --git a/drivers/mentor/i2c/mi2cv.c b/drivers/mentor/i2c/mi2cv.c new file mode 100644 index 0000000..b0270c9 --- /dev/null +++ b/drivers/mentor/i2c/mi2cv.c @@ -0,0 +1,614 @@ +/* + * Copyright (C) 2018 Marvell International Ltd. + * Copyright (C) 2018 Icenowy Zheng <icenowy@aosc.io> + * + * SPDX-License-Identifier: BSD-3-Clause + * https://spdx.org/licenses + */ + +/* + * This driver is for Mentor Graphics Inventra MI2CV IP core, which is used + * for Marvell and Allwinner SoCs in ATF. + */ + +#include <errno.h> + +#include <common/debug.h> +#include <drivers/delay_timer.h> +#include <drivers/mentor/mi2cv.h> +#include <lib/mmio.h> + +#include <mentor_i2c_plat.h> + +#if LOG_LEVEL >= LOG_LEVEL_VERBOSE +#define DEBUG_I2C +#endif + +#define I2C_TIMEOUT_VALUE 0x500 +#define I2C_MAX_RETRY_CNT 1000 +#define I2C_CMD_WRITE 0x0 +#define I2C_CMD_READ 0x1 + +#define I2C_DATA_ADDR_7BIT_OFFS 0x1 +#define I2C_DATA_ADDR_7BIT_MASK (0xFF << I2C_DATA_ADDR_7BIT_OFFS) + +#define I2C_CONTROL_ACK 0x00000004 +#define I2C_CONTROL_IFLG 0x00000008 +#define I2C_CONTROL_STOP 0x00000010 +#define I2C_CONTROL_START 0x00000020 +#define I2C_CONTROL_TWSIEN 0x00000040 +#define I2C_CONTROL_INTEN 0x00000080 + +#define I2C_STATUS_START 0x08 +#define I2C_STATUS_REPEATED_START 0x10 +#define I2C_STATUS_ADDR_W_ACK 0x18 +#define I2C_STATUS_DATA_W_ACK 0x28 +#define I2C_STATUS_LOST_ARB_DATA_ADDR_TRANSFER 0x38 +#define I2C_STATUS_ADDR_R_ACK 0x40 +#define I2C_STATUS_DATA_R_ACK 0x50 +#define I2C_STATUS_DATA_R_NAK 0x58 +#define I2C_STATUS_LOST_ARB_GENERAL_CALL 0x78 +#define I2C_STATUS_IDLE 0xF8 + +#define I2C_UNSTUCK_TRIGGER 0x1 +#define I2C_UNSTUCK_ONGOING 0x2 +#define I2C_UNSTUCK_ERROR 0x4 + +static struct mentor_i2c_regs *base; + +static int mentor_i2c_lost_arbitration(uint32_t *status) +{ + *status = mmio_read_32((uintptr_t)&base->status); + if ((*status == I2C_STATUS_LOST_ARB_DATA_ADDR_TRANSFER) || + (*status == I2C_STATUS_LOST_ARB_GENERAL_CALL)) + return -EAGAIN; + + return 0; +} + +static void mentor_i2c_interrupt_clear(void) +{ + uint32_t reg; + + reg = mmio_read_32((uintptr_t)&base->control); +#ifndef I2C_INTERRUPT_CLEAR_INVERTED + reg &= ~(I2C_CONTROL_IFLG); +#else + reg |= I2C_CONTROL_IFLG; +#endif + mmio_write_32((uintptr_t)&base->control, reg); + /* Wait for 1 us for the clear to take effect */ + udelay(1); +} + +static bool mentor_i2c_interrupt_get(void) +{ + uint32_t reg; + + /* get the interrupt flag bit */ + reg = mmio_read_32((uintptr_t)&base->control); + reg &= I2C_CONTROL_IFLG; + return (reg != 0U); +} + +static int mentor_i2c_wait_interrupt(void) +{ + uint32_t timeout = 0; + + while (!mentor_i2c_interrupt_get() && (timeout++ < I2C_TIMEOUT_VALUE)) + ; + if (timeout >= I2C_TIMEOUT_VALUE) + return -ETIMEDOUT; + + return 0; +} + +static int mentor_i2c_start_bit_set(void) +{ + int is_int_flag = 0; + uint32_t status; + + if (mentor_i2c_interrupt_get()) + is_int_flag = 1; + + /* set start bit */ + mmio_write_32((uintptr_t)&base->control, + mmio_read_32((uintptr_t)&base->control) | + I2C_CONTROL_START); + + /* in case that the int flag was set before i.e. repeated start bit */ + if (is_int_flag) { + VERBOSE("%s: repeated start Bit\n", __func__); + mentor_i2c_interrupt_clear(); + } + + if (mentor_i2c_wait_interrupt()) { + ERROR("Start clear bit timeout\n"); + return -ETIMEDOUT; + } + + /* check that start bit went down */ + if ((mmio_read_32((uintptr_t)&base->control) & + I2C_CONTROL_START) != 0) { + ERROR("Start bit didn't went down\n"); + return -EPERM; + } + + /* check the status */ + if (mentor_i2c_lost_arbitration(&status)) { + ERROR("%s - %d: Lost arbitration, got status %x\n", + __func__, __LINE__, status); + return -EAGAIN; + } + if ((status != I2C_STATUS_START) && + (status != I2C_STATUS_REPEATED_START)) { + ERROR("Got status %x after enable start bit.\n", status); + return -EPERM; + } + + return 0; +} + +static int mentor_i2c_stop_bit_set(void) +{ + int timeout; + uint32_t status; + + /* Generate stop bit */ + mmio_write_32((uintptr_t)&base->control, + mmio_read_32((uintptr_t)&base->control) | + I2C_CONTROL_STOP); + mentor_i2c_interrupt_clear(); + + timeout = 0; + /* Read control register, check the control stop bit */ + while ((mmio_read_32((uintptr_t)&base->control) & I2C_CONTROL_STOP) && + (timeout++ < I2C_TIMEOUT_VALUE)) + ; + if (timeout >= I2C_TIMEOUT_VALUE) { + ERROR("Stop bit didn't went down\n"); + return -ETIMEDOUT; + } + + /* check that stop bit went down */ + if ((mmio_read_32((uintptr_t)&base->control) & I2C_CONTROL_STOP) != 0) { + ERROR("Stop bit didn't went down\n"); + return -EPERM; + } + + /* check the status */ + if (mentor_i2c_lost_arbitration(&status)) { + ERROR("%s - %d: Lost arbitration, got status %x\n", + __func__, __LINE__, status); + return -EAGAIN; + } + if (status != I2C_STATUS_IDLE) { + ERROR("Got status %x after enable stop bit.\n", status); + return -EPERM; + } + + return 0; +} + +static int mentor_i2c_address_set(uint8_t chain, int command) +{ + uint32_t reg, status; + + reg = (chain << I2C_DATA_ADDR_7BIT_OFFS) & I2C_DATA_ADDR_7BIT_MASK; + reg |= command; + mmio_write_32((uintptr_t)&base->data, reg); + udelay(1); + + mentor_i2c_interrupt_clear(); + + if (mentor_i2c_wait_interrupt()) { + ERROR("Start clear bit timeout\n"); + return -ETIMEDOUT; + } + + /* check the status */ + if (mentor_i2c_lost_arbitration(&status)) { + ERROR("%s - %d: Lost arbitration, got status %x\n", + __func__, __LINE__, status); + return -EAGAIN; + } + if (((status != I2C_STATUS_ADDR_R_ACK) && (command == I2C_CMD_READ)) || + ((status != I2C_STATUS_ADDR_W_ACK) && (command == I2C_CMD_WRITE))) { + /* only in debug, since in boot we try to read the SPD + * of both DRAM, and we don't want error messages in cas + * DIMM doesn't exist. + */ + INFO("%s: ERROR - status %x addr in %s mode.\n", __func__, + status, (command == I2C_CMD_WRITE) ? "Write" : "Read"); + return -EPERM; + } + + return 0; +} + +/* + * The I2C module contains a clock divider to generate the SCL clock. + * This function calculates and sets the <N> and <M> fields in the I2C Baud + * Rate Register (t=01) to obtain given 'requested_speed'. + * The requested_speed will be equal to: + * CONFIG_SYS_TCLK / (10 * (M + 1) * (2 << N)) + * Where M is the value represented by bits[6:3] and N is the value represented + * by bits[2:0] of "I2C Baud Rate Register". + * Therefore max M which can be set is 16 (2^4) and max N is 8 (2^3). So the + * lowest possible baudrate is: + * CONFIG_SYS_TCLK/(10 * (16 +1) * (2 << 8), which equals to: + * CONFIG_SYS_TCLK/87040. Assuming that CONFIG_SYS_TCLK=250MHz, the lowest + * possible frequency is ~2,872KHz. + */ +static unsigned int mentor_i2c_bus_speed_set(unsigned int requested_speed) +{ + unsigned int n, m, freq, margin, min_margin = 0xffffffff; + unsigned int actual_n = 0, actual_m = 0; + int val; + + /* Calculate N and M for the TWSI clock baud rate */ + for (n = 0; n < 8; n++) { + for (m = 0; m < 16; m++) { + freq = CONFIG_SYS_TCLK / (10 * (m + 1) * (2 << n)); + val = requested_speed - freq; + margin = (val > 0) ? val : -val; + + if ((freq <= requested_speed) && + (margin < min_margin)) { + min_margin = margin; + actual_n = n; + actual_m = m; + } + } + } + VERBOSE("%s: actual_n = %u, actual_m = %u\n", + __func__, actual_n, actual_m); + /* Set the baud rate */ + mmio_write_32((uintptr_t)&base->baudrate, (actual_m << 3) | actual_n); + + return 0; +} + +#ifdef DEBUG_I2C +static int mentor_i2c_probe(uint8_t chip) +{ + int ret = 0; + + ret = mentor_i2c_start_bit_set(); + if (ret != 0) { + mentor_i2c_stop_bit_set(); + ERROR("%s - %d: %s", __func__, __LINE__, + "mentor_i2c_start_bit_set failed\n"); + return -EPERM; + } + + ret = mentor_i2c_address_set(chip, I2C_CMD_WRITE); + if (ret != 0) { + mentor_i2c_stop_bit_set(); + ERROR("%s - %d: %s", __func__, __LINE__, + "mentor_i2c_address_set failed\n"); + return -EPERM; + } + + mentor_i2c_stop_bit_set(); + + VERBOSE("%s: successful I2C probe\n", __func__); + + return ret; +} +#endif + +/* regular i2c transaction */ +static int mentor_i2c_data_receive(uint8_t *p_block, uint32_t block_size) +{ + uint32_t reg, status, block_size_read = block_size; + + /* Wait for cause interrupt */ + if (mentor_i2c_wait_interrupt()) { + ERROR("Start clear bit timeout\n"); + return -ETIMEDOUT; + } + while (block_size_read) { + if (block_size_read == 1) { + reg = mmio_read_32((uintptr_t)&base->control); + reg &= ~(I2C_CONTROL_ACK); + mmio_write_32((uintptr_t)&base->control, reg); + } + mentor_i2c_interrupt_clear(); + + if (mentor_i2c_wait_interrupt()) { + ERROR("Start clear bit timeout\n"); + return -ETIMEDOUT; + } + /* check the status */ + if (mentor_i2c_lost_arbitration(&status)) { + ERROR("%s - %d: Lost arbitration, got status %x\n", + __func__, __LINE__, status); + return -EAGAIN; + } + if ((status != I2C_STATUS_DATA_R_ACK) && + (block_size_read != 1)) { + ERROR("Status %x in read transaction\n", status); + return -EPERM; + } + if ((status != I2C_STATUS_DATA_R_NAK) && + (block_size_read == 1)) { + ERROR("Status %x in Rd Terminate\n", status); + return -EPERM; + } + + /* read the data */ + *p_block = (uint8_t) mmio_read_32((uintptr_t)&base->data); + VERBOSE("%s: place %d read %x\n", __func__, + block_size - block_size_read, *p_block); + p_block++; + block_size_read--; + } + + return 0; +} + +static int mentor_i2c_data_transmit(uint8_t *p_block, uint32_t block_size) +{ + uint32_t status, block_size_write = block_size; + + if (mentor_i2c_wait_interrupt()) { + ERROR("Start clear bit timeout\n"); + return -ETIMEDOUT; + } + + while (block_size_write) { + /* write the data */ + mmio_write_32((uintptr_t)&base->data, (uint32_t) *p_block); + VERBOSE("%s: index = %d, data = %x\n", __func__, + block_size - block_size_write, *p_block); + p_block++; + block_size_write--; + + mentor_i2c_interrupt_clear(); + + if (mentor_i2c_wait_interrupt()) { + ERROR("Start clear bit timeout\n"); + return -ETIMEDOUT; + } + + /* check the status */ + if (mentor_i2c_lost_arbitration(&status)) { + ERROR("%s - %d: Lost arbitration, got status %x\n", + __func__, __LINE__, status); + return -EAGAIN; + } + if (status != I2C_STATUS_DATA_W_ACK) { + ERROR("Status %x in write transaction\n", status); + return -EPERM; + } + } + + return 0; +} + +static int mentor_i2c_target_offset_set(uint8_t chip, uint32_t addr, int alen) +{ + uint8_t off_block[2]; + uint32_t off_size; + + if (alen == 2) { /* 2-byte addresses support */ + off_block[0] = (addr >> 8) & 0xff; + off_block[1] = addr & 0xff; + off_size = 2; + } else { /* 1-byte addresses support */ + off_block[0] = addr & 0xff; + off_size = 1; + } + VERBOSE("%s: off_size = %x addr1 = %x addr2 = %x\n", __func__, + off_size, off_block[0], off_block[1]); + return mentor_i2c_data_transmit(off_block, off_size); +} + +#ifdef I2C_CAN_UNSTUCK +static int mentor_i2c_unstuck(int ret) +{ + uint32_t v; + + if (ret != -ETIMEDOUT) + return ret; + VERBOSE("Trying to \"unstuck i2c\"... "); + i2c_init(base); + mmio_write_32((uintptr_t)&base->unstuck, I2C_UNSTUCK_TRIGGER); + do { + v = mmio_read_32((uintptr_t)&base->unstuck); + } while (v & I2C_UNSTUCK_ONGOING); + + if (v & I2C_UNSTUCK_ERROR) { + VERBOSE("failed - soft reset i2c\n"); + ret = -EPERM; + } else { + VERBOSE("ok\n"); + i2c_init(base); + ret = -EAGAIN; + } + return ret; +} +#else +static int mentor_i2c_unstuck(int ret) +{ + VERBOSE("Cannot \"unstuck i2c\" - soft reset i2c\n"); + return -EPERM; +} +#endif + +/* + * API Functions + */ +void i2c_init(void *i2c_base) +{ + /* For I2C speed and slave address, now we do not set them since + * we just provide the working speed and slave address otherwhere + * for i2c_init + */ + base = (struct mentor_i2c_regs *)i2c_base; + + /* Reset the I2C logic */ + mmio_write_32((uintptr_t)&base->soft_reset, 0); + + udelay(200); + + mentor_i2c_bus_speed_set(CONFIG_SYS_I2C_SPEED); + + /* Enable the I2C and slave */ + mmio_write_32((uintptr_t)&base->control, + I2C_CONTROL_TWSIEN | I2C_CONTROL_ACK); + + /* set the I2C slave address */ + mmio_write_32((uintptr_t)&base->xtnd_slave_addr, 0); + mmio_write_32((uintptr_t)&base->slave_address, CONFIG_SYS_I2C_SLAVE); + + /* unmask I2C interrupt */ + mmio_write_32((uintptr_t)&base->control, + mmio_read_32((uintptr_t)&base->control) | + I2C_CONTROL_INTEN); + + udelay(10); +} + +/* + * i2c_read: - Read multiple bytes from an i2c device + * + * The higher level routines take into account that this function is only + * called with len < page length of the device (see configuration file) + * + * @chip: address of the chip which is to be read + * @addr: i2c data address within the chip + * @alen: length of the i2c data address (1..2 bytes) + * @buffer: where to write the data + * @len: how much byte do we want to read + * @return: 0 in case of success + */ +int i2c_read(uint8_t chip, uint32_t addr, int alen, uint8_t *buffer, int len) +{ + int ret = 0; + uint32_t counter = 0; + +#ifdef DEBUG_I2C + mentor_i2c_probe(chip); +#endif + + do { + if (ret != -EAGAIN && ret) { + ERROR("i2c transaction failed, after %d retries\n", + counter); + mentor_i2c_stop_bit_set(); + return ret; + } + + /* wait for 1 us for the interrupt clear to take effect */ + if (counter > 0) + udelay(1); + counter++; + + ret = mentor_i2c_start_bit_set(); + if (ret) { + ret = mentor_i2c_unstuck(ret); + continue; + } + + /* if EEPROM device */ + if (alen != 0) { + ret = mentor_i2c_address_set(chip, I2C_CMD_WRITE); + if (ret) + continue; + + ret = mentor_i2c_target_offset_set(chip, addr, alen); + if (ret) + continue; + ret = mentor_i2c_start_bit_set(); + if (ret) + continue; + } + + ret = mentor_i2c_address_set(chip, I2C_CMD_READ); + if (ret) + continue; + + ret = mentor_i2c_data_receive(buffer, len); + if (ret) + continue; + + ret = mentor_i2c_stop_bit_set(); + } while ((ret == -EAGAIN) && (counter < I2C_MAX_RETRY_CNT)); + + if (counter == I2C_MAX_RETRY_CNT) { + ERROR("I2C transactions failed, got EAGAIN %d times\n", + I2C_MAX_RETRY_CNT); + ret = -EPERM; + } + mmio_write_32((uintptr_t)&base->control, + mmio_read_32((uintptr_t)&base->control) | + I2C_CONTROL_ACK); + + udelay(1); + return ret; +} + +/* + * i2c_write: - Write multiple bytes to an i2c device + * + * The higher level routines take into account that this function is only + * called with len < page length of the device (see configuration file) + * + * @chip: address of the chip which is to be written + * @addr: i2c data address within the chip + * @alen: length of the i2c data address (1..2 bytes) + * @buffer: where to find the data to be written + * @len: how much byte do we want to read + * @return: 0 in case of success + */ +int i2c_write(uint8_t chip, uint32_t addr, int alen, uint8_t *buffer, int len) +{ + int ret = 0; + uint32_t counter = 0; + + do { + if (ret != -EAGAIN && ret) { + ERROR("i2c transaction failed\n"); + mentor_i2c_stop_bit_set(); + return ret; + } + /* wait for 1 us for the interrupt clear to take effect */ + if (counter > 0) + udelay(1); + counter++; + + ret = mentor_i2c_start_bit_set(); + if (ret) { + ret = mentor_i2c_unstuck(ret); + continue; + } + + ret = mentor_i2c_address_set(chip, I2C_CMD_WRITE); + if (ret) + continue; + + /* if EEPROM device */ + if (alen != 0) { + ret = mentor_i2c_target_offset_set(chip, addr, alen); + if (ret) + continue; + } + + ret = mentor_i2c_data_transmit(buffer, len); + if (ret) + continue; + + ret = mentor_i2c_stop_bit_set(); + } while ((ret == -EAGAIN) && (counter < I2C_MAX_RETRY_CNT)); + + if (counter == I2C_MAX_RETRY_CNT) { + ERROR("I2C transactions failed, got EAGAIN %d times\n", + I2C_MAX_RETRY_CNT); + ret = -EPERM; + } + + udelay(1); + return ret; +} |