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https://github.com/AsahiLinux/u-boot
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38b0852b0e
Set up opcode extension and enable/disable DTR mode based on whether the command is DTR or not. xSPI flashes can have a 4-byte dummy address associated with some commands like the Read Status Register command in octal DTR mode. Since the flash does not support sending the dummy address, we can not use automatic write completion polling in DTR mode. Further, no write completion polling makes it impossible to use DAC mode for DTR writes. In that mode, the controller does not know beforehand how long a write will be and so it can de-assert Chip Select (CS#) at any time. Once CS# is de-assert, the flash will go into burning phase. But since the controller does not do write completion polling, it does not know when the flash is busy and might send in writes while the flash is not ready. So, disable write completion polling and make writes go through indirect mode for DTR writes and let spi-mem take care of polling the SR. Signed-off-by: Pratyush Yadav <p.yadav@ti.com> Acked-by: Jagan Teki <jagan@amarulasolutions.com>
409 lines
11 KiB
C
409 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2012
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* Altera Corporation <www.altera.com>
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*/
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#include <common.h>
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#include <clk.h>
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#include <log.h>
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#include <asm-generic/io.h>
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#include <dm.h>
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#include <fdtdec.h>
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#include <malloc.h>
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#include <reset.h>
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#include <spi.h>
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#include <spi-mem.h>
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#include <dm/device_compat.h>
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#include <linux/err.h>
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#include <linux/errno.h>
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#include <linux/sizes.h>
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#include "cadence_qspi.h"
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#define NSEC_PER_SEC 1000000000L
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#define CQSPI_STIG_READ 0
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#define CQSPI_STIG_WRITE 1
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#define CQSPI_READ 2
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#define CQSPI_WRITE 3
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static int cadence_spi_write_speed(struct udevice *bus, uint hz)
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{
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struct cadence_spi_plat *plat = dev_get_plat(bus);
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struct cadence_spi_priv *priv = dev_get_priv(bus);
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cadence_qspi_apb_config_baudrate_div(priv->regbase,
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plat->ref_clk_hz, hz);
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/* Reconfigure delay timing if speed is changed. */
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cadence_qspi_apb_delay(priv->regbase, plat->ref_clk_hz, hz,
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plat->tshsl_ns, plat->tsd2d_ns,
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plat->tchsh_ns, plat->tslch_ns);
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return 0;
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}
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static int cadence_spi_read_id(struct cadence_spi_plat *plat, u8 len,
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u8 *idcode)
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{
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struct spi_mem_op op = SPI_MEM_OP(SPI_MEM_OP_CMD(0x9F, 1),
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SPI_MEM_OP_NO_ADDR,
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SPI_MEM_OP_NO_DUMMY,
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SPI_MEM_OP_DATA_IN(len, idcode, 1));
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return cadence_qspi_apb_command_read(plat, &op);
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}
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/* Calibration sequence to determine the read data capture delay register */
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static int spi_calibration(struct udevice *bus, uint hz)
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{
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struct cadence_spi_priv *priv = dev_get_priv(bus);
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struct cadence_spi_plat *plat = dev_get_plat(bus);
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void *base = priv->regbase;
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unsigned int idcode = 0, temp = 0;
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int err = 0, i, range_lo = -1, range_hi = -1;
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/* start with slowest clock (1 MHz) */
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cadence_spi_write_speed(bus, 1000000);
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/* configure the read data capture delay register to 0 */
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cadence_qspi_apb_readdata_capture(base, 1, 0);
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/* Enable QSPI */
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cadence_qspi_apb_controller_enable(base);
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/* read the ID which will be our golden value */
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err = cadence_spi_read_id(plat, 3, (u8 *)&idcode);
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if (err) {
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puts("SF: Calibration failed (read)\n");
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return err;
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}
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/* use back the intended clock and find low range */
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cadence_spi_write_speed(bus, hz);
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for (i = 0; i < CQSPI_READ_CAPTURE_MAX_DELAY; i++) {
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/* Disable QSPI */
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cadence_qspi_apb_controller_disable(base);
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/* reconfigure the read data capture delay register */
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cadence_qspi_apb_readdata_capture(base, 1, i);
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/* Enable back QSPI */
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cadence_qspi_apb_controller_enable(base);
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/* issue a RDID to get the ID value */
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err = cadence_spi_read_id(plat, 3, (u8 *)&temp);
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if (err) {
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puts("SF: Calibration failed (read)\n");
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return err;
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}
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/* search for range lo */
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if (range_lo == -1 && temp == idcode) {
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range_lo = i;
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continue;
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}
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/* search for range hi */
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if (range_lo != -1 && temp != idcode) {
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range_hi = i - 1;
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break;
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}
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range_hi = i;
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}
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if (range_lo == -1) {
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puts("SF: Calibration failed (low range)\n");
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return err;
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}
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/* Disable QSPI for subsequent initialization */
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cadence_qspi_apb_controller_disable(base);
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/* configure the final value for read data capture delay register */
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cadence_qspi_apb_readdata_capture(base, 1, (range_hi + range_lo) / 2);
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debug("SF: Read data capture delay calibrated to %i (%i - %i)\n",
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(range_hi + range_lo) / 2, range_lo, range_hi);
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/* just to ensure we do once only when speed or chip select change */
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priv->qspi_calibrated_hz = hz;
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priv->qspi_calibrated_cs = spi_chip_select(bus);
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return 0;
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}
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static int cadence_spi_set_speed(struct udevice *bus, uint hz)
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{
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struct cadence_spi_plat *plat = dev_get_plat(bus);
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struct cadence_spi_priv *priv = dev_get_priv(bus);
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int err;
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if (hz > plat->max_hz)
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hz = plat->max_hz;
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/* Disable QSPI */
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cadence_qspi_apb_controller_disable(priv->regbase);
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/*
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* If the device tree already provides a read delay value, use that
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* instead of calibrating.
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*/
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if (plat->read_delay >= 0) {
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cadence_spi_write_speed(bus, hz);
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cadence_qspi_apb_readdata_capture(priv->regbase, 1,
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plat->read_delay);
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} else if (priv->previous_hz != hz ||
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priv->qspi_calibrated_hz != hz ||
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priv->qspi_calibrated_cs != spi_chip_select(bus)) {
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/*
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* Calibration required for different current SCLK speed,
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* requested SCLK speed or chip select
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*/
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err = spi_calibration(bus, hz);
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if (err)
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return err;
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/* prevent calibration run when same as previous request */
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priv->previous_hz = hz;
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}
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/* Enable QSPI */
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cadence_qspi_apb_controller_enable(priv->regbase);
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debug("%s: speed=%d\n", __func__, hz);
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return 0;
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}
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static int cadence_spi_probe(struct udevice *bus)
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{
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struct cadence_spi_plat *plat = dev_get_plat(bus);
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struct cadence_spi_priv *priv = dev_get_priv(bus);
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struct clk clk;
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int ret;
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priv->regbase = plat->regbase;
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priv->ahbbase = plat->ahbbase;
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if (plat->ref_clk_hz == 0) {
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ret = clk_get_by_index(bus, 0, &clk);
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if (ret) {
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#ifdef CONFIG_CQSPI_REF_CLK
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plat->ref_clk_hz = CONFIG_CQSPI_REF_CLK;
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#else
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return ret;
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#endif
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} else {
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plat->ref_clk_hz = clk_get_rate(&clk);
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clk_free(&clk);
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if (IS_ERR_VALUE(plat->ref_clk_hz))
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return plat->ref_clk_hz;
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}
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}
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ret = reset_get_bulk(bus, &priv->resets);
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if (ret)
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dev_warn(bus, "Can't get reset: %d\n", ret);
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else
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reset_deassert_bulk(&priv->resets);
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if (!priv->qspi_is_init) {
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cadence_qspi_apb_controller_init(plat);
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priv->qspi_is_init = 1;
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}
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plat->wr_delay = 50 * DIV_ROUND_UP(NSEC_PER_SEC, plat->ref_clk_hz);
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return 0;
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}
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static int cadence_spi_remove(struct udevice *dev)
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{
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struct cadence_spi_priv *priv = dev_get_priv(dev);
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return reset_release_bulk(&priv->resets);
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}
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static int cadence_spi_set_mode(struct udevice *bus, uint mode)
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{
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struct cadence_spi_plat *plat = dev_get_plat(bus);
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struct cadence_spi_priv *priv = dev_get_priv(bus);
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/* Disable QSPI */
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cadence_qspi_apb_controller_disable(priv->regbase);
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/* Set SPI mode */
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cadence_qspi_apb_set_clk_mode(priv->regbase, mode);
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/* Enable Direct Access Controller */
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if (plat->use_dac_mode)
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cadence_qspi_apb_dac_mode_enable(priv->regbase);
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/* Enable QSPI */
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cadence_qspi_apb_controller_enable(priv->regbase);
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return 0;
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}
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static int cadence_spi_mem_exec_op(struct spi_slave *spi,
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const struct spi_mem_op *op)
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{
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struct udevice *bus = spi->dev->parent;
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struct cadence_spi_plat *plat = dev_get_plat(bus);
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struct cadence_spi_priv *priv = dev_get_priv(bus);
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void *base = priv->regbase;
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int err = 0;
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u32 mode;
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/* Set Chip select */
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cadence_qspi_apb_chipselect(base, spi_chip_select(spi->dev),
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plat->is_decoded_cs);
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if (op->data.dir == SPI_MEM_DATA_IN && op->data.buf.in) {
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if (!op->addr.nbytes)
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mode = CQSPI_STIG_READ;
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else
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mode = CQSPI_READ;
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} else {
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if (!op->addr.nbytes || !op->data.buf.out)
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mode = CQSPI_STIG_WRITE;
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else
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mode = CQSPI_WRITE;
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}
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switch (mode) {
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case CQSPI_STIG_READ:
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err = cadence_qspi_apb_command_read_setup(plat, op);
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if (!err)
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err = cadence_qspi_apb_command_read(plat, op);
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break;
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case CQSPI_STIG_WRITE:
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err = cadence_qspi_apb_command_write_setup(plat, op);
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if (!err)
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err = cadence_qspi_apb_command_write(plat, op);
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break;
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case CQSPI_READ:
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err = cadence_qspi_apb_read_setup(plat, op);
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if (!err)
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err = cadence_qspi_apb_read_execute(plat, op);
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break;
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case CQSPI_WRITE:
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err = cadence_qspi_apb_write_setup(plat, op);
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if (!err)
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err = cadence_qspi_apb_write_execute(plat, op);
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break;
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default:
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err = -1;
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break;
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}
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return err;
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}
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static bool cadence_spi_mem_supports_op(struct spi_slave *slave,
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const struct spi_mem_op *op)
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{
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bool all_true, all_false;
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all_true = op->cmd.dtr && op->addr.dtr && op->dummy.dtr &&
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op->data.dtr;
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all_false = !op->cmd.dtr && !op->addr.dtr && !op->dummy.dtr &&
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!op->data.dtr;
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/* Mixed DTR modes not supported. */
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if (!(all_true || all_false))
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return false;
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if (all_true)
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return spi_mem_dtr_supports_op(slave, op);
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else
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return spi_mem_default_supports_op(slave, op);
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}
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static int cadence_spi_of_to_plat(struct udevice *bus)
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{
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struct cadence_spi_plat *plat = dev_get_plat(bus);
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ofnode subnode;
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plat->regbase = (void *)devfdt_get_addr_index(bus, 0);
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plat->ahbbase = (void *)devfdt_get_addr_size_index(bus, 1,
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&plat->ahbsize);
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plat->is_decoded_cs = dev_read_bool(bus, "cdns,is-decoded-cs");
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plat->fifo_depth = dev_read_u32_default(bus, "cdns,fifo-depth", 128);
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plat->fifo_width = dev_read_u32_default(bus, "cdns,fifo-width", 4);
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plat->trigger_address = dev_read_u32_default(bus,
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"cdns,trigger-address",
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0);
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/* Use DAC mode only when MMIO window is at least 8M wide */
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if (plat->ahbsize >= SZ_8M)
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plat->use_dac_mode = true;
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/* All other paramters are embedded in the child node */
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subnode = dev_read_first_subnode(bus);
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if (!ofnode_valid(subnode)) {
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printf("Error: subnode with SPI flash config missing!\n");
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return -ENODEV;
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}
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/* Use 500 KHz as a suitable default */
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plat->max_hz = ofnode_read_u32_default(subnode, "spi-max-frequency",
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500000);
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/* Read other parameters from DT */
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plat->page_size = ofnode_read_u32_default(subnode, "page-size", 256);
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plat->block_size = ofnode_read_u32_default(subnode, "block-size", 16);
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plat->tshsl_ns = ofnode_read_u32_default(subnode, "cdns,tshsl-ns",
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200);
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plat->tsd2d_ns = ofnode_read_u32_default(subnode, "cdns,tsd2d-ns",
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255);
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plat->tchsh_ns = ofnode_read_u32_default(subnode, "cdns,tchsh-ns", 20);
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plat->tslch_ns = ofnode_read_u32_default(subnode, "cdns,tslch-ns", 20);
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/*
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* Read delay should be an unsigned value but we use a signed integer
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* so that negative values can indicate that the device tree did not
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* specify any signed values and we need to perform the calibration
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* sequence to find it out.
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*/
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plat->read_delay = ofnode_read_s32_default(subnode, "cdns,read-delay",
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-1);
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debug("%s: regbase=%p ahbbase=%p max-frequency=%d page-size=%d\n",
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__func__, plat->regbase, plat->ahbbase, plat->max_hz,
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plat->page_size);
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return 0;
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}
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static const struct spi_controller_mem_ops cadence_spi_mem_ops = {
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.exec_op = cadence_spi_mem_exec_op,
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.supports_op = cadence_spi_mem_supports_op,
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};
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static const struct dm_spi_ops cadence_spi_ops = {
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.set_speed = cadence_spi_set_speed,
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.set_mode = cadence_spi_set_mode,
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.mem_ops = &cadence_spi_mem_ops,
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/*
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* cs_info is not needed, since we require all chip selects to be
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* in the device tree explicitly
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*/
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};
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static const struct udevice_id cadence_spi_ids[] = {
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{ .compatible = "cdns,qspi-nor" },
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{ .compatible = "ti,am654-ospi" },
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{ }
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};
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U_BOOT_DRIVER(cadence_spi) = {
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.name = "cadence_spi",
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.id = UCLASS_SPI,
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.of_match = cadence_spi_ids,
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.ops = &cadence_spi_ops,
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.of_to_plat = cadence_spi_of_to_plat,
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.plat_auto = sizeof(struct cadence_spi_plat),
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.priv_auto = sizeof(struct cadence_spi_priv),
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.probe = cadence_spi_probe,
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.remove = cadence_spi_remove,
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.flags = DM_FLAG_OS_PREPARE,
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};
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