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b47f4891e5
The Broadcom ARM implementations do not yet have a clock framework so one can use a fixed clock as the root clock of the hsspi block. The fixed clock does not have an "enable" routine, since it's always enabled. So when we hit this issue, getting an ENOSYS return, do not bail but continue initialization. Similarly the block might already have been out of reset, say, when we are booting from a SPI device. So if the reset signal is not configured in the device tree, do not bail out and instead skip deasserting the reset. Signed-off-by: Kursad Oney <kursad.oney@broadcom.com> Reviewed-by: Philippe Reynes <philippe.reynes@softathome.com>
406 lines
11 KiB
C
406 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2017 Álvaro Fernández Rojas <noltari@gmail.com>
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*
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* Derived from linux/drivers/spi/spi-bcm63xx-hsspi.c:
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* Copyright (C) 2000-2010 Broadcom Corporation
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* Copyright (C) 2012-2013 Jonas Gorski <jogo@openwrt.org>
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*/
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#include <common.h>
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#include <clk.h>
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#include <dm.h>
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#include <spi.h>
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#include <reset.h>
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#include <wait_bit.h>
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#include <asm/io.h>
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#define HSSPI_PP 0
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#define SPI_MAX_SYNC_CLOCK 30000000
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/* SPI Control register */
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#define SPI_CTL_REG 0x000
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#define SPI_CTL_CS_POL_SHIFT 0
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#define SPI_CTL_CS_POL_MASK (0xff << SPI_CTL_CS_POL_SHIFT)
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#define SPI_CTL_CLK_GATE_SHIFT 16
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#define SPI_CTL_CLK_GATE_MASK (1 << SPI_CTL_CLK_GATE_SHIFT)
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#define SPI_CTL_CLK_POL_SHIFT 17
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#define SPI_CTL_CLK_POL_MASK (1 << SPI_CTL_CLK_POL_SHIFT)
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/* SPI Interrupts registers */
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#define SPI_IR_STAT_REG 0x008
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#define SPI_IR_ST_MASK_REG 0x00c
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#define SPI_IR_MASK_REG 0x010
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#define SPI_IR_CLEAR_ALL 0xff001f1f
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/* SPI Ping-Pong Command registers */
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#define SPI_CMD_REG (0x080 + (0x40 * (HSSPI_PP)) + 0x00)
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#define SPI_CMD_OP_SHIFT 0
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#define SPI_CMD_OP_START (0x1 << SPI_CMD_OP_SHIFT)
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#define SPI_CMD_PFL_SHIFT 8
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#define SPI_CMD_PFL_MASK (0x7 << SPI_CMD_PFL_SHIFT)
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#define SPI_CMD_SLAVE_SHIFT 12
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#define SPI_CMD_SLAVE_MASK (0x7 << SPI_CMD_SLAVE_SHIFT)
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/* SPI Ping-Pong Status registers */
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#define SPI_STAT_REG (0x080 + (0x40 * (HSSPI_PP)) + 0x04)
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#define SPI_STAT_SRCBUSY_SHIFT 1
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#define SPI_STAT_SRCBUSY_MASK (1 << SPI_STAT_SRCBUSY_SHIFT)
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/* SPI Profile Clock registers */
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#define SPI_PFL_CLK_REG(x) (0x100 + (0x20 * (x)) + 0x00)
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#define SPI_PFL_CLK_FREQ_SHIFT 0
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#define SPI_PFL_CLK_FREQ_MASK (0x3fff << SPI_PFL_CLK_FREQ_SHIFT)
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#define SPI_PFL_CLK_RSTLOOP_SHIFT 15
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#define SPI_PFL_CLK_RSTLOOP_MASK (1 << SPI_PFL_CLK_RSTLOOP_SHIFT)
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/* SPI Profile Signal registers */
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#define SPI_PFL_SIG_REG(x) (0x100 + (0x20 * (x)) + 0x04)
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#define SPI_PFL_SIG_LATCHRIS_SHIFT 12
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#define SPI_PFL_SIG_LATCHRIS_MASK (1 << SPI_PFL_SIG_LATCHRIS_SHIFT)
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#define SPI_PFL_SIG_LAUNCHRIS_SHIFT 13
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#define SPI_PFL_SIG_LAUNCHRIS_MASK (1 << SPI_PFL_SIG_LAUNCHRIS_SHIFT)
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#define SPI_PFL_SIG_ASYNCIN_SHIFT 16
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#define SPI_PFL_SIG_ASYNCIN_MASK (1 << SPI_PFL_SIG_ASYNCIN_SHIFT)
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/* SPI Profile Mode registers */
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#define SPI_PFL_MODE_REG(x) (0x100 + (0x20 * (x)) + 0x08)
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#define SPI_PFL_MODE_FILL_SHIFT 0
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#define SPI_PFL_MODE_FILL_MASK (0xff << SPI_PFL_MODE_FILL_SHIFT)
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#define SPI_PFL_MODE_MDRDSZ_SHIFT 16
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#define SPI_PFL_MODE_MDRDSZ_MASK (1 << SPI_PFL_MODE_MDRDSZ_SHIFT)
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#define SPI_PFL_MODE_MDWRSZ_SHIFT 18
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#define SPI_PFL_MODE_MDWRSZ_MASK (1 << SPI_PFL_MODE_MDWRSZ_SHIFT)
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#define SPI_PFL_MODE_3WIRE_SHIFT 20
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#define SPI_PFL_MODE_3WIRE_MASK (1 << SPI_PFL_MODE_3WIRE_SHIFT)
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/* SPI Ping-Pong FIFO registers */
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#define HSSPI_FIFO_SIZE 0x200
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#define HSSPI_FIFO_BASE (0x200 + \
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(HSSPI_FIFO_SIZE * HSSPI_PP))
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/* SPI Ping-Pong FIFO OP register */
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#define HSSPI_FIFO_OP_SIZE 0x2
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#define HSSPI_FIFO_OP_REG (HSSPI_FIFO_BASE + 0x00)
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#define HSSPI_FIFO_OP_BYTES_SHIFT 0
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#define HSSPI_FIFO_OP_BYTES_MASK (0x3ff << HSSPI_FIFO_OP_BYTES_SHIFT)
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#define HSSPI_FIFO_OP_MBIT_SHIFT 11
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#define HSSPI_FIFO_OP_MBIT_MASK (1 << HSSPI_FIFO_OP_MBIT_SHIFT)
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#define HSSPI_FIFO_OP_CODE_SHIFT 13
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#define HSSPI_FIFO_OP_READ_WRITE (1 << HSSPI_FIFO_OP_CODE_SHIFT)
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#define HSSPI_FIFO_OP_CODE_W (2 << HSSPI_FIFO_OP_CODE_SHIFT)
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#define HSSPI_FIFO_OP_CODE_R (3 << HSSPI_FIFO_OP_CODE_SHIFT)
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struct bcm63xx_hsspi_priv {
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void __iomem *regs;
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ulong clk_rate;
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uint8_t num_cs;
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uint8_t cs_pols;
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uint speed;
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};
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static int bcm63xx_hsspi_cs_info(struct udevice *bus, uint cs,
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struct spi_cs_info *info)
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{
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struct bcm63xx_hsspi_priv *priv = dev_get_priv(bus);
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if (cs >= priv->num_cs) {
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printf("no cs %u\n", cs);
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return -ENODEV;
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}
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return 0;
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}
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static int bcm63xx_hsspi_set_mode(struct udevice *bus, uint mode)
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{
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struct bcm63xx_hsspi_priv *priv = dev_get_priv(bus);
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/* clock polarity */
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if (mode & SPI_CPOL)
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setbits_32(priv->regs + SPI_CTL_REG, SPI_CTL_CLK_POL_MASK);
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else
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clrbits_32(priv->regs + SPI_CTL_REG, SPI_CTL_CLK_POL_MASK);
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return 0;
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}
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static int bcm63xx_hsspi_set_speed(struct udevice *bus, uint speed)
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{
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struct bcm63xx_hsspi_priv *priv = dev_get_priv(bus);
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priv->speed = speed;
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return 0;
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}
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static void bcm63xx_hsspi_activate_cs(struct bcm63xx_hsspi_priv *priv,
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struct dm_spi_slave_platdata *plat)
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{
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uint32_t clr, set;
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/* profile clock */
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set = DIV_ROUND_UP(priv->clk_rate, priv->speed);
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set = DIV_ROUND_UP(2048, set);
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set &= SPI_PFL_CLK_FREQ_MASK;
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set |= SPI_PFL_CLK_RSTLOOP_MASK;
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writel(set, priv->regs + SPI_PFL_CLK_REG(plat->cs));
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/* profile signal */
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set = 0;
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clr = SPI_PFL_SIG_LAUNCHRIS_MASK |
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SPI_PFL_SIG_LATCHRIS_MASK |
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SPI_PFL_SIG_ASYNCIN_MASK;
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/* latch/launch config */
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if (plat->mode & SPI_CPHA)
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set |= SPI_PFL_SIG_LAUNCHRIS_MASK;
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else
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set |= SPI_PFL_SIG_LATCHRIS_MASK;
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/* async clk */
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if (priv->speed > SPI_MAX_SYNC_CLOCK)
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set |= SPI_PFL_SIG_ASYNCIN_MASK;
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clrsetbits_32(priv->regs + SPI_PFL_SIG_REG(plat->cs), clr, set);
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/* global control */
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set = 0;
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clr = 0;
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/* invert cs polarity */
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if (priv->cs_pols & BIT(plat->cs))
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clr |= BIT(plat->cs);
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else
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set |= BIT(plat->cs);
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/* invert dummy cs polarity */
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if (priv->cs_pols & BIT(!plat->cs))
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clr |= BIT(!plat->cs);
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else
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set |= BIT(!plat->cs);
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clrsetbits_32(priv->regs + SPI_CTL_REG, clr, set);
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}
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static void bcm63xx_hsspi_deactivate_cs(struct bcm63xx_hsspi_priv *priv)
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{
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/* restore cs polarities */
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clrsetbits_32(priv->regs + SPI_CTL_REG, SPI_CTL_CS_POL_MASK,
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priv->cs_pols);
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}
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/*
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* BCM63xx HSSPI driver doesn't allow keeping CS active between transfers
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* because they are controlled by HW.
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* However, it provides a mechanism to prepend write transfers prior to read
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* transfers (with a maximum prepend of 15 bytes), which is usually enough for
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* SPI-connected flashes since reading requires prepending a write transfer of
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* 5 bytes. On the other hand it also provides a way to invert each CS
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* polarity, not only between transfers like the older BCM63xx SPI driver, but
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* also the rest of the time.
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*
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* Instead of using the prepend mechanism, this implementation inverts the
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* polarity of both the desired CS and another dummy CS when the bus is
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* claimed. This way, the dummy CS is restored to its inactive value when
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* transfers are issued and the desired CS is preserved in its active value
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* all the time. This hack is also used in the upstream linux driver and
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* allows keeping CS active between trasnfers even if the HW doesn't give
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* this possibility.
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*/
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static int bcm63xx_hsspi_xfer(struct udevice *dev, unsigned int bitlen,
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const void *dout, void *din, unsigned long flags)
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{
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struct bcm63xx_hsspi_priv *priv = dev_get_priv(dev->parent);
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struct dm_spi_slave_platdata *plat = dev_get_parent_platdata(dev);
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size_t data_bytes = bitlen / 8;
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size_t step_size = HSSPI_FIFO_SIZE;
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uint16_t opcode = 0;
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uint32_t val;
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const uint8_t *tx = dout;
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uint8_t *rx = din;
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if (flags & SPI_XFER_BEGIN)
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bcm63xx_hsspi_activate_cs(priv, plat);
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/* fifo operation */
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if (tx && rx)
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opcode = HSSPI_FIFO_OP_READ_WRITE;
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else if (rx)
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opcode = HSSPI_FIFO_OP_CODE_R;
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else if (tx)
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opcode = HSSPI_FIFO_OP_CODE_W;
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if (opcode != HSSPI_FIFO_OP_CODE_R)
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step_size -= HSSPI_FIFO_OP_SIZE;
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/* dual mode */
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if ((opcode == HSSPI_FIFO_OP_CODE_R && plat->mode == SPI_RX_DUAL) ||
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(opcode == HSSPI_FIFO_OP_CODE_W && plat->mode == SPI_TX_DUAL))
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opcode |= HSSPI_FIFO_OP_MBIT_MASK;
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/* profile mode */
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val = SPI_PFL_MODE_FILL_MASK |
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SPI_PFL_MODE_MDRDSZ_MASK |
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SPI_PFL_MODE_MDWRSZ_MASK;
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if (plat->mode & SPI_3WIRE)
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val |= SPI_PFL_MODE_3WIRE_MASK;
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writel(val, priv->regs + SPI_PFL_MODE_REG(plat->cs));
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/* transfer loop */
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while (data_bytes > 0) {
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size_t curr_step = min(step_size, data_bytes);
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int ret;
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/* copy tx data */
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if (tx) {
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memcpy_toio(priv->regs + HSSPI_FIFO_BASE +
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HSSPI_FIFO_OP_SIZE, tx, curr_step);
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tx += curr_step;
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}
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/* set fifo operation */
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writew(cpu_to_be16(opcode | (curr_step & HSSPI_FIFO_OP_BYTES_MASK)),
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priv->regs + HSSPI_FIFO_OP_REG);
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/* issue the transfer */
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val = SPI_CMD_OP_START;
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val |= (plat->cs << SPI_CMD_PFL_SHIFT) &
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SPI_CMD_PFL_MASK;
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val |= (!plat->cs << SPI_CMD_SLAVE_SHIFT) &
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SPI_CMD_SLAVE_MASK;
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writel(val, priv->regs + SPI_CMD_REG);
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/* wait for completion */
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ret = wait_for_bit_32(priv->regs + SPI_STAT_REG,
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SPI_STAT_SRCBUSY_MASK, false,
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1000, false);
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if (ret) {
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printf("interrupt timeout\n");
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return ret;
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}
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/* copy rx data */
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if (rx) {
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memcpy_fromio(rx, priv->regs + HSSPI_FIFO_BASE,
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curr_step);
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rx += curr_step;
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}
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data_bytes -= curr_step;
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}
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if (flags & SPI_XFER_END)
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bcm63xx_hsspi_deactivate_cs(priv);
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return 0;
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}
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static const struct dm_spi_ops bcm63xx_hsspi_ops = {
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.cs_info = bcm63xx_hsspi_cs_info,
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.set_mode = bcm63xx_hsspi_set_mode,
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.set_speed = bcm63xx_hsspi_set_speed,
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.xfer = bcm63xx_hsspi_xfer,
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};
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static const struct udevice_id bcm63xx_hsspi_ids[] = {
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{ .compatible = "brcm,bcm6328-hsspi", },
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{ /* sentinel */ }
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};
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static int bcm63xx_hsspi_child_pre_probe(struct udevice *dev)
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{
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struct bcm63xx_hsspi_priv *priv = dev_get_priv(dev->parent);
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struct dm_spi_slave_platdata *plat = dev_get_parent_platdata(dev);
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/* check cs */
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if (plat->cs >= priv->num_cs) {
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printf("no cs %u\n", plat->cs);
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return -ENODEV;
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}
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/* cs polarity */
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if (plat->mode & SPI_CS_HIGH)
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priv->cs_pols |= BIT(plat->cs);
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else
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priv->cs_pols &= ~BIT(plat->cs);
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return 0;
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}
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static int bcm63xx_hsspi_probe(struct udevice *dev)
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{
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struct bcm63xx_hsspi_priv *priv = dev_get_priv(dev);
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struct reset_ctl rst_ctl;
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struct clk clk;
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int ret;
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priv->regs = dev_remap_addr(dev);
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if (!priv->regs)
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return -EINVAL;
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priv->num_cs = dev_read_u32_default(dev, "num-cs", 8);
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/* enable clock */
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ret = clk_get_by_name(dev, "hsspi", &clk);
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if (ret < 0)
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return ret;
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ret = clk_enable(&clk);
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if (ret < 0 && ret != -ENOSYS)
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return ret;
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ret = clk_free(&clk);
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if (ret < 0 && ret != -ENOSYS)
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return ret;
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/* get clock rate */
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ret = clk_get_by_name(dev, "pll", &clk);
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if (ret < 0 && ret != -ENOSYS)
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return ret;
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priv->clk_rate = clk_get_rate(&clk);
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ret = clk_free(&clk);
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if (ret < 0 && ret != -ENOSYS)
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return ret;
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/* perform reset */
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ret = reset_get_by_index(dev, 0, &rst_ctl);
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if (ret >= 0) {
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ret = reset_deassert(&rst_ctl);
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if (ret < 0)
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return ret;
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}
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ret = reset_free(&rst_ctl);
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if (ret < 0)
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return ret;
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/* initialize hardware */
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writel(0, priv->regs + SPI_IR_MASK_REG);
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/* clear pending interrupts */
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writel(SPI_IR_CLEAR_ALL, priv->regs + SPI_IR_STAT_REG);
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/* enable clk gate */
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setbits_32(priv->regs + SPI_CTL_REG, SPI_CTL_CLK_GATE_MASK);
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/* read default cs polarities */
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priv->cs_pols = readl(priv->regs + SPI_CTL_REG) &
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SPI_CTL_CS_POL_MASK;
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return 0;
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}
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U_BOOT_DRIVER(bcm63xx_hsspi) = {
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.name = "bcm63xx_hsspi",
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.id = UCLASS_SPI,
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.of_match = bcm63xx_hsspi_ids,
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.ops = &bcm63xx_hsspi_ops,
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.priv_auto_alloc_size = sizeof(struct bcm63xx_hsspi_priv),
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.child_pre_probe = bcm63xx_hsspi_child_pre_probe,
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.probe = bcm63xx_hsspi_probe,
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};
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