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Date: Sun, 10 Jun 2018 13:09:24 +0200
From: Stefan Agner <stefan@...er.ch>
To: Dmitry Osipenko <digetx@...il.com>
Cc: boris.brezillon@...tlin.com, dwmw2@...radead.org,
computersforpeace@...il.com, marek.vasut@...il.com,
robh+dt@...nel.org, mark.rutland@....com, thierry.reding@...il.com,
dev@...xeye.de, miquel.raynal@...tlin.com, richard@....at,
marcel@...wiler.com, krzk@...nel.org, benjamin.lindqvist@...ian.se,
jonathanh@...dia.com, pdeschrijver@...dia.com, pgaikwad@...dia.com,
mirza.krak@...il.com, linux-mtd@...ts.infradead.org,
linux-tegra@...r.kernel.org, devicetree@...r.kernel.org,
linux-kernel@...r.kernel.org
Subject: Re: [PATCH v3 4/6] mtd: rawnand: add NVIDIA Tegra NAND Flash
controller driver
On 09.06.2018 14:21, Dmitry Osipenko wrote:
> On Saturday, 9 June 2018 00:51:01 MSK Stefan Agner wrote:
>> On 01.06.2018 11:20, Dmitry Osipenko wrote:
>> > On 01.06.2018 01:16, Stefan Agner wrote:
>> >> Add support for the NAND flash controller found on NVIDIA
>> >> Tegra 2 SoCs. This implementation does not make use of the
>> >> command queue feature. Regular operations/data transfers are
>> >> done in PIO mode. Page read/writes with hardware ECC make
>> >> use of the DMA for data transfer.
>> >>
>> >> Signed-off-by: Lucas Stach <dev@...xeye.de>
>> >> Signed-off-by: Stefan Agner <stefan@...er.ch>
>> >> ---
>> >>
>> >> MAINTAINERS | 7 +
>> >> drivers/mtd/nand/raw/Kconfig | 6 +
>> >> drivers/mtd/nand/raw/Makefile | 1 +
>> >> drivers/mtd/nand/raw/tegra_nand.c | 1143 +++++++++++++++++++++++++++++
>> >> 4 files changed, 1157 insertions(+)
>> >> create mode 100644 drivers/mtd/nand/raw/tegra_nand.c
>> >>
>> >> diff --git a/MAINTAINERS b/MAINTAINERS
>> >> index 58b9861ccf99..c2e5571c85d4 100644
>> >> --- a/MAINTAINERS
>> >> +++ b/MAINTAINERS
>> >> @@ -13844,6 +13844,13 @@ M: Laxman Dewangan <ldewangan@...dia.com>
>> >>
>> >> S: Supported
>> >> F: drivers/input/keyboard/tegra-kbc.c
>> >>
>> >> +TEGRA NAND DRIVER
>> >> +M: Stefan Agner <stefan@...er.ch>
>> >> +M: Lucas Stach <dev@...xeye.de>
>> >> +S: Maintained
>> >> +F: Documentation/devicetree/bindings/mtd/nvidia-tegra20-nand.txt
>> >> +F: drivers/mtd/nand/raw/tegra_nand.c
>> >> +
>> >>
>> >> TEGRA PWM DRIVER
>> >> M: Thierry Reding <thierry.reding@...il.com>
>> >> S: Supported
>> >>
>> >> diff --git a/drivers/mtd/nand/raw/Kconfig b/drivers/mtd/nand/raw/Kconfig
>> >> index 19a2b283fbbe..e9093f52371e 100644
>> >> --- a/drivers/mtd/nand/raw/Kconfig
>> >> +++ b/drivers/mtd/nand/raw/Kconfig
>> >> @@ -534,4 +534,10 @@ config MTD_NAND_MTK
>> >>
>> >> Enables support for NAND controller on MTK SoCs.
>> >> This controller is found on mt27xx, mt81xx, mt65xx SoCs.
>> >>
>> >> +config MTD_NAND_TEGRA
>> >> + tristate "Support for NAND controller on NVIDIA Tegra"
>> >> + depends on ARCH_TEGRA || COMPILE_TEST
>> >> + help
>> >> + Enables support for NAND flash controller on NVIDIA Tegra SoC.
>> >> +
>> >>
>> >> endif # MTD_NAND
>> >>
>> >> diff --git a/drivers/mtd/nand/raw/Makefile
>> >> b/drivers/mtd/nand/raw/Makefile
>> >> index 165b7ef9e9a1..d5a5f9832b88 100644
>> >> --- a/drivers/mtd/nand/raw/Makefile
>> >> +++ b/drivers/mtd/nand/raw/Makefile
>> >> @@ -56,6 +56,7 @@ obj-$(CONFIG_MTD_NAND_HISI504) +=
>> >> hisi504_nand.o
>> >>
>> >> obj-$(CONFIG_MTD_NAND_BRCMNAND) += brcmnand/
>> >> obj-$(CONFIG_MTD_NAND_QCOM) += qcom_nandc.o
>> >> obj-$(CONFIG_MTD_NAND_MTK) += mtk_ecc.o mtk_nand.o
>> >>
>> >> +obj-$(CONFIG_MTD_NAND_TEGRA) += tegra_nand.o
>> >>
>> >> nand-objs := nand_base.o nand_bbt.o nand_timings.o nand_ids.o
>> >> nand-objs += nand_amd.o
>> >>
>> >> diff --git a/drivers/mtd/nand/raw/tegra_nand.c
>> >> b/drivers/mtd/nand/raw/tegra_nand.c new file mode 100644
>> >> index 000000000000..e9664f2938a3
>> >> --- /dev/null
>> >> +++ b/drivers/mtd/nand/raw/tegra_nand.c
>> >> @@ -0,0 +1,1143 @@
>> >> +// SPDX-License-Identifier: GPL-2.0
>> >> +/*
>> >> + * Copyright (C) 2018 Stefan Agner <stefan@...er.ch>
>> >> + * Copyright (C) 2014-2015 Lucas Stach <dev@...xeye.de>
>> >> + * Copyright (C) 2012 Avionic Design GmbH
>> >> + */
>> >> +
>> >> +#include <linux/clk.h>
>> >> +#include <linux/completion.h>
>> >> +#include <linux/delay.h>
>> >> +#include <linux/dma-mapping.h>
>> >> +#include <linux/err.h>
>> >> +#include <linux/gpio/consumer.h>
>> >> +#include <linux/interrupt.h>
>> >> +#include <linux/io.h>
>> >> +#include <linux/module.h>
>> >> +#include <linux/mtd/partitions.h>
>> >> +#include <linux/mtd/rawnand.h>
>> >> +#include <linux/of.h>
>> >> +#include <linux/platform_device.h>
>> >> +#include <linux/reset.h>
>> >> +
>> >> +#define CMD 0x00
>> >> +#define CMD_GO BIT(31)
>> >> +#define CMD_CLE BIT(30)
>> >> +#define CMD_ALE BIT(29)
>> >> +#define CMD_PIO BIT(28)
>> >> +#define CMD_TX BIT(27)
>> >> +#define CMD_RX BIT(26)
>> >> +#define CMD_SEC_CMD BIT(25)
>> >> +#define CMD_AFT_DAT BIT(24)
>> >> +#define CMD_TRANS_SIZE(x) (((x - 1) & 0xf) << 20)
>> >> +#define CMD_A_VALID BIT(19)
>> >> +#define CMD_B_VALID BIT(18)
>> >> +#define CMD_RD_STATUS_CHK BIT(17)
>> >> +#define CMD_RBSY_CHK BIT(16)
>> >> +#define CMD_CE(x) BIT((8 + ((x) & 0x7)))
>> >> +#define CMD_CLE_SIZE(x) (((x - 1) & 0x3) << 4)
>> >> +#define CMD_ALE_SIZE(x) (((x - 1) & 0xf) << 0)
>> >> +
>> >> +#define STATUS 0x04
>> >> +
>> >> +#define ISR 0x08
>> >> +#define ISR_CORRFAIL_ERR BIT(24)
>> >> +#define ISR_UND BIT(7)
>> >> +#define ISR_OVR BIT(6)
>> >> +#define ISR_CMD_DONE BIT(5)
>> >> +#define ISR_ECC_ERR BIT(4)
>> >> +
>> >> +#define IER 0x0c
>> >> +#define IER_ERR_TRIG_VAL(x) (((x) & 0xf) << 16)
>> >> +#define IER_UND BIT(7)
>> >> +#define IER_OVR BIT(6)
>> >> +#define IER_CMD_DONE BIT(5)
>> >> +#define IER_ECC_ERR BIT(4)
>> >> +#define IER_GIE BIT(0)
>> >> +
>> >> +#define CFG 0x10
>> >> +#define CFG_HW_ECC BIT(31)
>> >> +#define CFG_ECC_SEL BIT(30)
>> >> +#define CFG_ERR_COR BIT(29)
>> >> +#define CFG_PIPE_EN BIT(28)
>> >> +#define CFG_TVAL_4 (0 << 24)
>> >> +#define CFG_TVAL_6 (1 << 24)
>> >> +#define CFG_TVAL_8 (2 << 24)
>> >> +#define CFG_SKIP_SPARE BIT(23)
>> >> +#define CFG_BUS_WIDTH_16 BIT(21)
>> >> +#define CFG_COM_BSY BIT(20)
>> >> +#define CFG_PS_256 (0 << 16)
>> >> +#define CFG_PS_512 (1 << 16)
>> >> +#define CFG_PS_1024 (2 << 16)
>> >> +#define CFG_PS_2048 (3 << 16)
>> >> +#define CFG_PS_4096 (4 << 16)
>> >> +#define CFG_SKIP_SPARE_SIZE_4 (0 << 14)
>> >> +#define CFG_SKIP_SPARE_SIZE_8 (1 << 14)
>> >> +#define CFG_SKIP_SPARE_SIZE_12 (2 << 14)
>> >> +#define CFG_SKIP_SPARE_SIZE_16 (3 << 14)
>> >> +#define CFG_TAG_BYTE_SIZE(x) ((x) & 0xff)
>> >> +
>> >> +#define TIMING_1 0x14
>> >> +#define TIMING_TRP_RESP(x) (((x) & 0xf) << 28)
>> >> +#define TIMING_TWB(x) (((x) & 0xf) << 24)
>> >> +#define TIMING_TCR_TAR_TRR(x) (((x) & 0xf) << 20)
>> >> +#define TIMING_TWHR(x) (((x) & 0xf) << 16)
>> >> +#define TIMING_TCS(x) (((x) & 0x3) << 14)
>> >> +#define TIMING_TWH(x) (((x) & 0x3) << 12)
>> >> +#define TIMING_TWP(x) (((x) & 0xf) << 8)
>> >> +#define TIMING_TRH(x) (((x) & 0x3) << 4)
>> >> +#define TIMING_TRP(x) (((x) & 0xf) << 0)
>> >> +
>> >> +#define RESP 0x18
>> >> +
>> >> +#define TIMING_2 0x1c
>> >> +#define TIMING_TADL(x) ((x) & 0xf)
>> >> +
>> >> +#define CMD_1 0x20
>> >> +#define CMD_2 0x24
>> >> +#define ADDR_1 0x28
>> >> +#define ADDR_2 0x2c
>> >> +
>> >> +#define DMA_CTRL 0x30
>> >> +#define DMA_CTRL_GO BIT(31)
>> >> +#define DMA_CTRL_IN (0 << 30)
>> >> +#define DMA_CTRL_OUT BIT(30)
>> >> +#define DMA_CTRL_PERF_EN BIT(29)
>> >> +#define DMA_CTRL_IE_DONE BIT(28)
>> >> +#define DMA_CTRL_REUSE BIT(27)
>> >> +#define DMA_CTRL_BURST_1 (2 << 24)
>> >> +#define DMA_CTRL_BURST_4 (3 << 24)
>> >> +#define DMA_CTRL_BURST_8 (4 << 24)
>> >> +#define DMA_CTRL_BURST_16 (5 << 24)
>> >> +#define DMA_CTRL_IS_DONE BIT(20)
>> >> +#define DMA_CTRL_EN_A BIT(2)
>> >> +#define DMA_CTRL_EN_B BIT(1)
>> >> +
>> >> +#define DMA_CFG_A 0x34
>> >> +#define DMA_CFG_B 0x38
>> >> +
>> >> +#define FIFO_CTRL 0x3c
>> >> +#define FIFO_CTRL_CLR_ALL BIT(3)
>> >> +
>> >> +#define DATA_PTR 0x40
>> >> +#define TAG_PTR 0x44
>> >> +#define ECC_PTR 0x48
>> >> +
>> >> +#define DEC_STATUS 0x4c
>> >> +#define DEC_STATUS_A_ECC_FAIL BIT(1)
>> >> +#define DEC_STATUS_ERR_COUNT_MASK 0x00ff0000
>> >> +#define DEC_STATUS_ERR_COUNT_SHIFT 16
>> >> +
>> >> +#define HWSTATUS_CMD 0x50
>> >> +#define HWSTATUS_MASK 0x54
>> >> +#define HWSTATUS_RDSTATUS_MASK(x) (((x) & 0xff) << 24)
>> >> +#define HWSTATUS_RDSTATUS_VALUE(x) (((x) & 0xff) << 16)
>> >> +#define HWSTATUS_RBSY_MASK(x) (((x) & 0xff) << 8)
>> >> +#define HWSTATUS_RBSY_VALUE(x) (((x) & 0xff) << 0)
>> >> +
>> >> +#define BCH_CONFIG 0xcc
>> >> +#define BCH_ENABLE BIT(0)
>> >> +#define BCH_TVAL_4 (0 << 4)
>> >> +#define BCH_TVAL_8 (1 << 4)
>> >> +#define BCH_TVAL_14 (2 << 4)
>> >> +#define BCH_TVAL_16 (3 << 4)
>> >> +
>> >> +#define DEC_STAT_RESULT 0xd0
>> >> +#define DEC_STAT_BUF 0xd4
>> >> +#define DEC_STAT_BUF_FAIL_SEC_FLAG_MASK 0xff000000
>> >> +#define DEC_STAT_BUF_FAIL_SEC_FLAG_SHIFT 24
>> >> +#define DEC_STAT_BUF_CORR_SEC_FLAG_MASK 0x00ff0000
>> >> +#define DEC_STAT_BUF_CORR_SEC_FLAG_SHIFT 16
>> >> +#define DEC_STAT_BUF_MAX_CORR_CNT_MASK 0x00001f00
>> >> +#define DEC_STAT_BUF_MAX_CORR_CNT_SHIFT 8
>> >> +
>> >> +#define OFFSET(val, off) ((val) < (off) ? 0 : (val) - (off))
>> >> +
>> >> +#define SKIP_SPARE_BYTES 4
>> >> +#define BITS_PER_STEP_RS 18
>> >> +#define BITS_PER_STEP_BCH 13
>> >> +
>> >> +struct tegra_nand_controller {
>> >> + struct nand_hw_control controller;
>> >> + void __iomem *regs;
>> >> + struct clk *clk;
>> >> + struct device *dev;
>> >> + struct completion command_complete;
>> >> + struct completion dma_complete;
>> >> + bool last_read_error;
>> >> + int cur_chip;
>> >> + struct nand_chip *chip;
>> >> +};
>> >> +
>> >> +struct tegra_nand_chip {
>> >> + struct nand_chip chip;
>> >> + struct gpio_desc *wp_gpio;
>> >> + struct mtd_oob_region tag;
>> >> +};
>> >> +
>> >> +static inline struct tegra_nand_controller *to_tegra_ctrl(
>> >> + struct nand_hw_control *hw_ctrl)
>> >> +{
>> >> + return container_of(hw_ctrl, struct tegra_nand_controller,
> controller);
>> >> +}
>> >> +
>> >> +static inline struct tegra_nand_chip *to_tegra_chip(struct nand_chip
>> >> *chip) +{
>> >> + return container_of(chip, struct tegra_nand_chip, chip);
>> >> +}
>> >> +
>> >> +static int tegra_nand_ooblayout_rs_ecc(struct mtd_info *mtd, int
>> >> section,
>> >> + struct mtd_oob_region *oobregion)
>> >> +{
>> >> + struct nand_chip *chip = mtd_to_nand(mtd);
>> >> + int bytes_per_step = DIV_ROUND_UP(BITS_PER_STEP_RS *
>> >> chip->ecc.strength,
>> >> + BITS_PER_BYTE);
>> >> +
>> >> + if (section > 0)
>> >> + return -ERANGE;
>> >> +
>> >> + oobregion->offset = SKIP_SPARE_BYTES;
>> >> + oobregion->length = round_up(bytes_per_step * chip->ecc.steps, 4);
>> >> +
>> >> + return 0;
>> >> +}
>> >> +
>> >> +static int tegra_nand_ooblayout_rs_free(struct mtd_info *mtd, int
>> >> section,
>> >> + struct mtd_oob_region *oobregion)
>> >> +{
>> >> + struct nand_chip *chip = mtd_to_nand(mtd);
>> >> + int bytes_per_step = DIV_ROUND_UP(BITS_PER_STEP_RS *
>> >> chip->ecc.strength,
>> >> + BITS_PER_BYTE);
>> >> +
>> >> + if (section > 0)
>> >> + return -ERANGE;
>> >> +
>> >> + oobregion->offset = SKIP_SPARE_BYTES +
>> >> + round_up(bytes_per_step * chip->ecc.steps, 4);
>> >> + oobregion->length = mtd->oobsize - oobregion->offset;
>> >> +
>> >> + return 0;
>> >> +}
>> >> +
>> >> +static const struct mtd_ooblayout_ops tegra_nand_oob_rs_ops = {
>> >> + .ecc = tegra_nand_ooblayout_rs_ecc,
>> >> + .free = tegra_nand_ooblayout_rs_free,
>> >> +};
>> >> +
>> >> +static int tegra_nand_ooblayout_bch_ecc(struct mtd_info *mtd, int
>> >> section,
>> >> + struct mtd_oob_region *oobregion)
>> >> +{
>> >> + struct nand_chip *chip = mtd_to_nand(mtd);
>> >> + int bytes_per_step = DIV_ROUND_UP(BITS_PER_STEP_BCH *
>> >> chip->ecc.strength,
>> >> + BITS_PER_BYTE);
>> >> +
>> >> + if (section > 0)
>> >> + return -ERANGE;
>> >> +
>> >> + oobregion->offset = SKIP_SPARE_BYTES;
>> >> + oobregion->length = round_up(bytes_per_step * chip->ecc.steps, 4);
>> >> +
>> >> + return 0;
>> >> +}
>> >> +
>> >> +static int tegra_nand_ooblayout_bch_free(struct mtd_info *mtd, int
>> >> section, + struct mtd_oob_region *oobregion)
>> >> +{
>> >> + struct nand_chip *chip = mtd_to_nand(mtd);
>> >> + int bytes_per_step = DIV_ROUND_UP(BITS_PER_STEP_BCH *
>> >> chip->ecc.strength,
>> >> + BITS_PER_BYTE);
>> >> +
>> >> + if (section > 0)
>> >> + return -ERANGE;
>> >> +
>> >> + oobregion->offset = SKIP_SPARE_BYTES +
>> >> + round_up(bytes_per_step * chip->ecc.steps, 4);
>> >> + oobregion->length = mtd->oobsize - oobregion->offset;
>> >> +
>> >> + return 0;
>> >> +}
>> >> +
>> >> +/*
>> >> + * Layout with tag bytes is
>> >> + *
>> >> + *
>> >> ------------------------------------------------------------------------
>> >> -- + * | main area | skip bytes | tag bytes |
>> >> parity | .. | + *
>> >> ------------------------------------------------------------------------
>> >> -- + *
>> >> + * If not tag bytes are written, parity moves right after skip bytes!
>> >> + */
>> >> +static const struct mtd_ooblayout_ops tegra_nand_oob_bch_ops = {
>> >> + .ecc = tegra_nand_ooblayout_bch_ecc,
>> >> + .free = tegra_nand_ooblayout_bch_free,
>> >> +};
>> >> +
>> >> +static irqreturn_t tegra_nand_irq(int irq, void *data)
>> >> +{
>> >> + struct tegra_nand_controller *ctrl = data;
>> >> + u32 isr, dma;
>> >> +
>> >> + isr = readl_relaxed(ctrl->regs + ISR);
>> >> + dma = readl_relaxed(ctrl->regs + DMA_CTRL);
>> >> + dev_dbg(ctrl->dev, "isr %08x\n", isr);
>> >> +
>> >> + if (!isr && !(dma & DMA_CTRL_IS_DONE))
>> >> + return IRQ_NONE;
>> >> +
>> >> + /*
>> >> + * The bit name is somewhat missleading: This is also set when
>> >> + * HW ECC was successful. The data sheet states:
>> >> + * Correctable OR Un-correctable errors occurred in the DMA
> transfer...
>> >> + */
>> >> + if (isr & ISR_CORRFAIL_ERR)
>> >> + ctrl->last_read_error = true;
>> >> +
>> >> + if (isr & ISR_CMD_DONE)
>> >> + complete(&ctrl->command_complete);
>> >> +
>> >> + if (isr & ISR_UND)
>> >> + dev_err(ctrl->dev, "FIFO underrun\n");
>> >> +
>> >> + if (isr & ISR_OVR)
>> >> + dev_err(ctrl->dev, "FIFO overrun\n");
>> >> +
>> >> + /* handle DMA interrupts */
>> >> + if (dma & DMA_CTRL_IS_DONE) {
>> >> + writel_relaxed(dma, ctrl->regs + DMA_CTRL);
>> >> + complete(&ctrl->dma_complete);
>> >> + }
>> >> +
>> >> + /* clear interrupts */
>> >> + writel_relaxed(isr, ctrl->regs + ISR);
>> >> +
>> >> + return IRQ_HANDLED;
>> >> +}
>> >> +
>> >> +static const char * const tegra_nand_reg_names[] = {
>> >> + "COMMAND",
>> >> + "STATUS",
>> >> + "ISR",
>> >> + "IER",
>> >> + "CONFIG",
>> >> + "TIMING",
>> >> + NULL,
>> >> + "TIMING2",
>> >> + "CMD_REG1",
>> >> + "CMD_REG2",
>> >> + "ADDR_REG1",
>> >> + "ADDR_REG2",
>> >> + "DMA_MST_CTRL",
>> >> + "DMA_CFG_A",
>> >> + "DMA_CFG_B",
>> >> + "FIFO_CTRL",
>> >> +};
>> >> +
>> >> +static void tegra_nand_dump_reg(struct tegra_nand_controller *ctrl)
>> >> +{
>> >> + u32 reg;
>> >> + int i;
>> >> +
>> >> + dev_err(ctrl->dev, "Tegra NAND controller register dump\n");
>> >> + for (i = 0; i < ARRAY_SIZE(tegra_nand_reg_names); i++) {
>> >> + const char *reg_name = tegra_nand_reg_names[i];
>> >> +
>> >> + if (!reg_name)
>> >> + continue;
>> >> +
>> >> + reg = readl_relaxed(ctrl->regs + (i * 4));
>> >> + dev_err(ctrl->dev, "%s: 0x%08x\n", reg_name, reg);
>> >> + }
>> >> +}
>> >> +
>> >> +static int tegra_nand_cmd(struct nand_chip *chip,
>> >> + const struct nand_subop *subop)
>> >> +{
>> >> + const struct nand_op_instr *instr;
>> >> + const struct nand_op_instr *instr_data_in = NULL;
>> >> + struct tegra_nand_controller *ctrl = to_tegra_ctrl(chip->controller);
>> >> + unsigned int op_id, size = 0, offset = 0;
>> >> + bool first_cmd = true;
>> >> + u32 reg, cmd = 0;
>> >> + int ret;
>> >> +
>> >> + for (op_id = 0; op_id < subop->ninstrs; op_id++) {
>> >> + unsigned int naddrs, i;
>> >> + const u8 *addrs;
>> >> + u32 addr1 = 0, addr2 = 0;
>> >> +
>> >> + instr = &subop->instrs[op_id];
>> >> +
>> >> + switch (instr->type) {
>> >> + case NAND_OP_CMD_INSTR:
>> >> + if (first_cmd) {
>> >> + cmd |= CMD_CLE;
>> >> + writel_relaxed(instr->ctx.cmd.opcode,
>> >> + ctrl->regs + CMD_1);
>> >> + } else {
>> >> + cmd |= CMD_SEC_CMD;
>> >> + writel_relaxed(instr->ctx.cmd.opcode,
>> >> + ctrl->regs + CMD_2);
>> >> + }
>> >> + first_cmd = false;
>> >> + break;
>> >> + case NAND_OP_ADDR_INSTR:
>> >> + offset = nand_subop_get_addr_start_off(subop, op_id);
>> >> + naddrs = nand_subop_get_num_addr_cyc(subop, op_id);
>> >> + addrs = &instr->ctx.addr.addrs[offset];
>> >> +
>> >> + cmd |= CMD_ALE | CMD_ALE_SIZE(naddrs);
>> >> + for (i = 0; i < min_t(unsigned int, 4, naddrs); i++)
>> >> + addr1 |= *addrs++ << (BITS_PER_BYTE * i);
>> >> + naddrs -= i;
>> >> + for (i = 0; i < min_t(unsigned int, 4, naddrs); i++)
>> >> + addr2 |= *addrs++ << (BITS_PER_BYTE * i);
>> >> + writel_relaxed(addr1, ctrl->regs + ADDR_1);
>> >> + writel_relaxed(addr2, ctrl->regs + ADDR_2);
>> >> + break;
>> >> +
>> >> + case NAND_OP_DATA_IN_INSTR:
>> >> + size = nand_subop_get_data_len(subop, op_id);
>> >> + offset = nand_subop_get_data_start_off(subop, op_id);
>> >> +
>> >> + cmd |= CMD_TRANS_SIZE(size) | CMD_PIO | CMD_RX |
>> >> + CMD_A_VALID;
>> >> +
>> >> + instr_data_in = instr;
>> >> + break;
>> >> +
>> >> + case NAND_OP_DATA_OUT_INSTR:
>> >> + size = nand_subop_get_data_len(subop, op_id);
>> >> + offset = nand_subop_get_data_start_off(subop, op_id);
>> >> +
>> >> + cmd |= CMD_TRANS_SIZE(size) | CMD_PIO | CMD_TX |
>> >> + CMD_A_VALID;
>> >> +
>> >> + memcpy(®, instr->ctx.data.buf.out + offset, size);
>> >> + writel_relaxed(reg, ctrl->regs + RESP);
>> >> +
>> >> + break;
>> >> + case NAND_OP_WAITRDY_INSTR:
>> >> + cmd |= CMD_RBSY_CHK;
>> >> + break;
>> >> +
>> >> + }
>> >> + }
>> >> +
>> >> + cmd |= CMD_GO | CMD_CE(ctrl->cur_chip);
>> >> + writel_relaxed(cmd, ctrl->regs + CMD);
>> >> + ret = wait_for_completion_timeout(&ctrl->command_complete,
>> >> + msecs_to_jiffies(500));
>> >> + if (!ret) {
>> >> + dev_err(ctrl->dev, "CMD timeout\n");
>> >> + tegra_nand_dump_reg(ctrl);
>> >> + return -ETIMEDOUT;
>> >> + }
>> >
>> > - wait_for_completion_timeout() could fail
>>
>> Not according to:
>> https://elixir.bootlin.com/linux/latest/source/kernel/sched/completion.c#L14
>> 0 https://www.kernel.org/doc/Documentation/scheduler/completion.txt
>>
>> Afaik, only the _interruptible variant can fail.
>
> Okay.
>
>> Btw, maybe we should use the _io variant?
>
> Looks like the _io variant is something specific to block/FS subsys and
> shouldn't be used by the drivers.
>
>> > - HW shall be reset
>> > - completion shall be re-inited because IRQ could fire just after the
>> > completion timeout
>> >
>> > I'd write it something like this:
>> >
>> > #define INT_MASK (IER_UND | IER_OVR | IER_CMD_DONE | IER_GIE)
>> >
>> > #define HWSTATUS_MASK (HWSTATUS_RDSTATUS_MASK(1) | \
>> >
>> > HWSTATUS_RDSTATUS_VALUE(0) | \
>> > HWSTATUS_RBSY_MASK(NAND_STATUS_READY) | \
>> > HWSTATUS_RBSY_VALUE(NAND_STATUS_READY))
>> >
>> > #define HW_TIMEOUT 500
>> >
>> > void tegra_nand_controller_reset(struct tegra_nand_controller *ctrl)
>> > {
>> >
>> > int err;
>> >
>> > disable_irq(ctrl->irq);
>> >
>> > err = reset_control_reset(ctrl->rst);
>> > if (err) {
>> >
>> > dev_err(ctrl->dev, "Failed to reset HW: %d\n", err);
>> > msleep(HW_TIMEOUT);
>> >
>> > }
>> >
>> > writel_relaxed(NAND_CMD_STATUS, ctrl->regs + HWSTATUS_CMD);
>> > writel_relaxed(HWSTATUS_MASK, ctrl->regs + HWSTATUS_MASK);
>> > writel_relaxed(INT_MASK, ctrl->regs + ISR);
>>
>> If we do a controller reset, there is much more state than that which
>> needs to be restored. A lot of it is not readily available currently
>> (timing, ECC settings...)
>>
>> That seems a lot of work for a code path I do not intend to ever use :-)
>
> Are you sure that resetting HW resets the timing and other registers
> configuration? Reset implementation is HW-specific, like for example in a case
> of a video decoder the registers state is re-intialized on HW reset, but
> registers configuration is untouched in a case of resetting GPU. I'd suggest
> to check whether NAND controller resetting affects the HW configuration.
It seems all registers are set back to their documented reset value:
[boot loader/ROM initialized values]
[ 1.270253] tegra-nand 70008000.nand: Tegra NAND controller register
dump
[ 1.277051] tegra-nand 70008000.nand: COMMAND: 0x66880104
[ 1.282457] tegra-nand 70008000.nand: STATUS: 0x00000101
[ 1.287763] tegra-nand 70008000.nand: ISR: 0x01000120
[ 1.292818] tegra-nand 70008000.nand: IER: 0x00000000
[ 1.297863] tegra-nand 70008000.nand: CONFIG: 0x00840000
[ 1.303181] tegra-nand 70008000.nand: TIMING: 0x05040000
[ 1.308486] tegra-nand 70008000.nand: TIMING2: 0x00000003
[ 1.313897] tegra-nand 70008000.nand: CMD_REG1: 0x00000000
[ 1.319377] tegra-nand 70008000.nand: CMD_REG2: 0x00000030
[ 1.324868] tegra-nand 70008000.nand: ADDR_REG1: 0x03000000
[ 1.330435] tegra-nand 70008000.nand: ADDR_REG2: 0x00000000
[ 1.336011] tegra-nand 70008000.nand: DMA_MST_CTRL: 0x04100004
[ 1.341838] tegra-nand 70008000.nand: DMA_CFG_A: 0x00000fff
[ 1.347415] tegra-nand 70008000.nand: DMA_CFG_B: 0x0000001b
[ 1.352991] tegra-nand 70008000.nand: FIFO_CTRL: 0x0000aa00
[reset]
[ 1.358559] tegra-nand 70008000.nand: Tegra NAND controller register
dump
[ 1.365352] tegra-nand 70008000.nand: COMMAND: 0x00800004
[ 1.370744] tegra-nand 70008000.nand: STATUS: 0x00000101
[ 1.376060] tegra-nand 70008000.nand: ISR: 0x00000100
[ 1.381105] tegra-nand 70008000.nand: IER: 0x00000000
[ 1.386161] tegra-nand 70008000.nand: CONFIG: 0x10030000
[ 1.391466] tegra-nand 70008000.nand: TIMING: 0x00000000
[ 1.396782] tegra-nand 70008000.nand: TIMING2: 0x00000000
[ 1.402174] tegra-nand 70008000.nand: CMD_REG1: 0x00000000
[ 1.407664] tegra-nand 70008000.nand: CMD_REG2: 0x00000000
[ 1.413156] tegra-nand 70008000.nand: ADDR_REG1: 0x00000000
[ 1.418722] tegra-nand 70008000.nand: ADDR_REG2: 0x00000000
[ 1.424297] tegra-nand 70008000.nand: DMA_MST_CTRL: 0x24000000
[ 1.430123] tegra-nand 70008000.nand: DMA_CFG_A: 0x00000000
[ 1.435698] tegra-nand 70008000.nand: DMA_CFG_B: 0x00000000
[ 1.441264] tegra-nand 70008000.nand: FIFO_CTRL: 0x0000aa00
--
Stefan
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