294 lines
8.3 KiB
C
294 lines
8.3 KiB
C
/*
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* Copyright (c) 2023 Nuvoton Technology Corporation.
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#define DT_DRV_COMPAT nuvoton_npcx_fiu_qspi
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#include <zephyr/drivers/clock_control.h>
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#include <zephyr/drivers/flash/npcx_flash_api_ex.h>
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#include <zephyr/drivers/pinctrl.h>
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#include <zephyr/drivers/spi.h>
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#include <zephyr/dt-bindings/flash_controller/npcx_fiu_qspi.h>
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#include <soc.h>
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#include "flash_npcx_fiu_qspi.h"
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#include <zephyr/logging/log.h>
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LOG_MODULE_REGISTER(npcx_fiu_qspi, LOG_LEVEL_ERR);
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/* Driver convenience defines */
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#define HAL_INSTANCE(dev) \
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((struct fiu_reg *)((const struct npcx_qspi_fiu_config *)(dev)->config)->base)
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/* Device config */
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struct npcx_qspi_fiu_config {
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/* Flash interface unit base address */
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uintptr_t base;
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/* Clock configuration */
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struct npcx_clk_cfg clk_cfg;
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/* Enable 2 external SPI devices for direct read on QSPI bus */
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bool en_direct_access_2dev;
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};
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/* Device data */
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struct npcx_qspi_fiu_data {
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/* mutex of qspi bus controller */
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struct k_sem lock_sem;
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/* Current device configuration on QSPI bus */
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const struct npcx_qspi_cfg *cur_cfg;
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/* Current Software controlled Chip-Select number */
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int sw_cs;
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/* Current QSPI bus operation */
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uint32_t operation;
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};
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/* NPCX SPI User Mode Access (UMA) functions */
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static inline void qspi_npcx_uma_cs_level(const struct device *dev, uint8_t sw_cs, bool level)
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{
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struct fiu_reg *const inst = HAL_INSTANCE(dev);
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/* Set chip select to high/low level */
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if (level) {
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inst->UMA_ECTS |= BIT(sw_cs);
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} else {
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inst->UMA_ECTS &= ~BIT(sw_cs);
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}
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}
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static inline void qspi_npcx_uma_write_byte(const struct device *dev, uint8_t data)
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{
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struct fiu_reg *const inst = HAL_INSTANCE(dev);
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/* Set data to UMA_CODE and trigger UMA */
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inst->UMA_CODE = data;
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inst->UMA_CTS = UMA_CODE_CMD_WR_ONLY;
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/* EXEC_DONE will be zero automatically if a UMA transaction is completed. */
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while (IS_BIT_SET(inst->UMA_CTS, NPCX_UMA_CTS_EXEC_DONE)) {
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continue;
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}
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}
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static inline void qspi_npcx_uma_read_byte(const struct device *dev, uint8_t *data)
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{
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struct fiu_reg *const inst = HAL_INSTANCE(dev);
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/* Trigger UMA and Get data from DB0 later */
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inst->UMA_CTS = UMA_CODE_RD_BYTE(1);
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while (IS_BIT_SET(inst->UMA_CTS, NPCX_UMA_CTS_EXEC_DONE)) {
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continue;
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}
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*data = inst->UMA_DB0;
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}
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/* NPCX SPI Direct Read Access (DRA)/User Mode Access (UMA) configuration functions */
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static inline void qspi_npcx_config_uma_mode(const struct device *dev,
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const struct npcx_qspi_cfg *qspi_cfg)
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{
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struct fiu_reg *const inst = HAL_INSTANCE(dev);
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if ((qspi_cfg->flags & NPCX_QSPI_SEC_FLASH_SL) != 0) {
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inst->UMA_ECTS |= BIT(NPCX_UMA_ECTS_SEC_CS);
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} else {
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inst->UMA_ECTS &= ~BIT(NPCX_UMA_ECTS_SEC_CS);
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}
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}
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static inline void qspi_npcx_config_dra_4byte_mode(const struct device *dev,
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const struct npcx_qspi_cfg *qspi_cfg)
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{
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#if defined(CONFIG_FLASH_NPCX_FIU_SUPP_DRA_4B_ADDR)
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struct fiu_reg *const inst = HAL_INSTANCE(dev);
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#if defined(CONFIG_FLASH_NPCX_FIU_DRA_V1)
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if (qspi_cfg->enter_4ba != 0) {
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if ((qspi_cfg->flags & NPCX_QSPI_SEC_FLASH_SL) != 0) {
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inst->SPI1_DEV |= BIT(NPCX_SPI1_DEV_FOUR_BADDR_CS11);
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} else {
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inst->SPI1_DEV |= BIT(NPCX_SPI1_DEV_FOUR_BADDR_CS10);
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}
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} else {
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inst->SPI1_DEV &= ~(BIT(NPCX_SPI1_DEV_FOUR_BADDR_CS11) |
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BIT(NPCX_SPI1_DEV_FOUR_BADDR_CS10));
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}
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#elif defined(CONFIG_FLASH_NPCX_FIU_DRA_V2)
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if (qspi_cfg->enter_4ba != 0) {
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SET_FIELD(inst->SPI_DEV, NPCX_SPI_DEV_NADDRB, NPCX_DEV_NUM_ADDR_4BYTE);
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}
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#endif
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#endif /* CONFIG_FLASH_NPCX_FIU_SUPP_DRA_4B_ADDR */
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}
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static inline void qspi_npcx_config_dra_mode(const struct device *dev,
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const struct npcx_qspi_cfg *qspi_cfg)
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{
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struct fiu_reg *const inst = HAL_INSTANCE(dev);
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/* Select SPI device number for DRA mode in npcx4 series */
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if (IS_ENABLED(CONFIG_FLASH_NPCX_FIU_DRA_V2)) {
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int spi_dev_num = (qspi_cfg->flags & NPCX_QSPI_SEC_FLASH_SL) != 0 ? 1 : 0;
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SET_FIELD(inst->BURST_CFG, NPCX_BURST_CFG_SPI_DEV_SEL, spi_dev_num);
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}
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/* Enable quad mode of Direct Read Mode if needed */
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if (qspi_cfg->qer_type != JESD216_DW15_QER_NONE) {
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inst->RESP_CFG |= BIT(NPCX_RESP_CFG_QUAD_EN);
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} else {
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inst->RESP_CFG &= ~BIT(NPCX_RESP_CFG_QUAD_EN);
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}
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/* Selects the SPI read access type of Direct Read Access mode */
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SET_FIELD(inst->SPI_FL_CFG, NPCX_SPI_FL_CFG_RD_MODE, qspi_cfg->rd_mode);
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/* Enable/Disable 4 byte address mode for Direct Read Access (DRA) */
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qspi_npcx_config_dra_4byte_mode(dev, qspi_cfg);
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}
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static inline void qspi_npcx_fiu_set_operation(const struct device *dev, uint32_t operation)
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{
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if ((operation & NPCX_EX_OP_INT_FLASH_WP) != 0) {
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npcx_pinctrl_flash_write_protect_set();
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}
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}
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/* NPCX specific QSPI-FIU controller functions */
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int qspi_npcx_fiu_uma_transceive(const struct device *dev, struct npcx_uma_cfg *cfg,
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uint32_t flags)
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{
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struct npcx_qspi_fiu_data *const data = dev->data;
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/* UMA transaction is permitted? */
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if ((data->operation & NPCX_EX_OP_LOCK_UMA) != 0) {
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return -EPERM;
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}
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/* Assert chip select */
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qspi_npcx_uma_cs_level(dev, data->sw_cs, false);
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/* Transmit op-code first */
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qspi_npcx_uma_write_byte(dev, cfg->opcode);
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if ((flags & NPCX_UMA_ACCESS_ADDR) != 0) {
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/* 3-byte or 4-byte address? */
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const int addr_start = (data->cur_cfg->enter_4ba != 0) ? 0 : 1;
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for (size_t i = addr_start; i < 4; i++) {
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LOG_DBG("addr %d, %02x", i, cfg->addr.u8[i]);
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qspi_npcx_uma_write_byte(dev, cfg->addr.u8[i]);
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}
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}
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if ((flags & NPCX_UMA_ACCESS_WRITE) != 0) {
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if (cfg->tx_buf == NULL) {
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return -EINVAL;
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}
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for (size_t i = 0; i < cfg->tx_count; i++) {
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qspi_npcx_uma_write_byte(dev, cfg->tx_buf[i]);
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}
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}
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if ((flags & NPCX_UMA_ACCESS_READ) != 0) {
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if (cfg->rx_buf == NULL) {
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return -EINVAL;
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}
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for (size_t i = 0; i < cfg->rx_count; i++) {
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qspi_npcx_uma_read_byte(dev, cfg->rx_buf + i);
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}
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}
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/* De-assert chip select */
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qspi_npcx_uma_cs_level(dev, data->sw_cs, true);
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return 0;
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}
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void qspi_npcx_fiu_mutex_lock_configure(const struct device *dev,
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const struct npcx_qspi_cfg *cfg,
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const uint32_t operation)
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{
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struct npcx_qspi_fiu_data *const data = dev->data;
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k_sem_take(&data->lock_sem, K_FOREVER);
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/* If the current device is different from previous one, configure it */
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if (data->cur_cfg != cfg) {
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data->cur_cfg = cfg;
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/* Apply pin-muxing and tri-state */
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pinctrl_apply_state(cfg->pcfg, PINCTRL_STATE_DEFAULT);
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/* Configure User Mode Access (UMA) settings */
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qspi_npcx_config_uma_mode(dev, cfg);
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/* Configure for Direct Read Access (DRA) settings */
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qspi_npcx_config_dra_mode(dev, cfg);
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/* Save SW CS bit used in UMA mode */
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data->sw_cs = find_lsb_set(cfg->flags & NPCX_QSPI_SW_CS_MASK) - 1;
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}
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/* Set QSPI bus operation */
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if (data->operation != operation) {
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qspi_npcx_fiu_set_operation(dev, operation);
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data->operation = operation;
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}
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}
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void qspi_npcx_fiu_mutex_unlock(const struct device *dev)
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{
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struct npcx_qspi_fiu_data *const data = dev->data;
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k_sem_give(&data->lock_sem);
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}
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static int qspi_npcx_fiu_init(const struct device *dev)
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{
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const struct npcx_qspi_fiu_config *const config = dev->config;
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struct npcx_qspi_fiu_data *const data = dev->data;
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const struct device *const clk_dev = DEVICE_DT_GET(NPCX_CLK_CTRL_NODE);
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int ret;
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if (!device_is_ready(clk_dev)) {
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LOG_ERR("%s device not ready", clk_dev->name);
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return -ENODEV;
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}
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/* Turn on device clock first and get source clock freq. */
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ret = clock_control_on(clk_dev,
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(clock_control_subsys_t)&config->clk_cfg);
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if (ret < 0) {
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LOG_ERR("Turn on FIU clock fail %d", ret);
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return ret;
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}
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/* initialize mutex for qspi controller */
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k_sem_init(&data->lock_sem, 1, 1);
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/* Enable direct access for 2 external SPI devices */
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if (config->en_direct_access_2dev) {
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#if defined(CONFIG_FLASH_NPCX_FIU_SUPP_DRA_2_DEV)
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struct fiu_reg *const inst = HAL_INSTANCE(dev);
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inst->FIU_EXT_CFG |= BIT(NPCX_FIU_EXT_CFG_SPI1_2DEV);
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#endif
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}
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return 0;
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}
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#define NPCX_SPI_FIU_INIT(n) \
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static const struct npcx_qspi_fiu_config npcx_qspi_fiu_config_##n = { \
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.base = DT_INST_REG_ADDR(n), \
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.clk_cfg = NPCX_DT_CLK_CFG_ITEM(n), \
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.en_direct_access_2dev = DT_INST_PROP(n, en_direct_access_2dev), \
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}; \
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static struct npcx_qspi_fiu_data npcx_qspi_fiu_data_##n; \
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DEVICE_DT_INST_DEFINE(n, qspi_npcx_fiu_init, NULL, \
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&npcx_qspi_fiu_data_##n, &npcx_qspi_fiu_config_##n, \
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PRE_KERNEL_1, CONFIG_FLASH_INIT_PRIORITY, NULL);
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DT_INST_FOREACH_STATUS_OKAY(NPCX_SPI_FIU_INIT)
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