From: "Jernej Škrabec" <jernej.skrabec@gmail.com>
To: Miquel Raynal <miquel.raynal@bootlin.com>,
Richard Weinberger <richard@nod.at>,
Vignesh Raghavendra <vigneshr@ti.com>,
Rob Herring <robh@kernel.org>,
Krzysztof Kozlowski <krzk+dt@kernel.org>,
Conor Dooley <conor+dt@kernel.org>, Chen-Yu Tsai <wens@csie.org>,
Samuel Holland <samuel@sholland.org>,
Richard Genoud <richard.genoud@bootlin.com>
Cc: "Wentao Liang" <vulab@iscas.ac.cn>,
"Uwe Kleine-König" <u.kleine-koenig@baylibre.com>,
"Maxime Ripard" <mripard@kernel.org>,
"Thomas Petazzoni" <thomas.petazzoni@bootlin.com>,
linux-mtd@lists.infradead.org, devicetree@vger.kernel.org,
linux-arm-kernel@lists.infradead.org,
linux-sunxi@lists.linux.dev, linux-kernel@vger.kernel.org,
"Richard Genoud" <richard.genoud@bootlin.com>
Subject: Re: [PATCH 15/15] mtd: rawnand: sunxi: Add support for H616 nand controller
Date: Sat, 11 Oct 2025 12:48:51 +0200 [thread overview]
Message-ID: <3373475.aeNJFYEL58@jernej-laptop> (raw)
In-Reply-To: <20251010084042.341224-16-richard.genoud@bootlin.com>
Dne petek, 10. oktober 2025 ob 10:40:42 Srednjeevropski poletni čas je Richard Genoud napisal(a):
> The H616 nand controller has the same base as A10/A23, with some
> differences:
> - mdma is based on chained buffers
> - its ECC supports up to 80bit per 1024bytes
> - some registers layouts are a bit different, mainly due do the stronger
> ECC.
> - it uses USER_DATA_LEN registers along USER_DATA registers.
> - it needs a specific clock for ECC and MBUS.
>
> This patch introduce the basic support, without DMA/MDMA.
>
> Tested on Whatsminer H616 board (with and without scrambling, ECC)
>
> Signed-off-by: Richard Genoud <richard.genoud@bootlin.com>
> ---
> drivers/mtd/nand/raw/sunxi_nand.c | 182 ++++++++++++++++++++++++++++--
> 1 file changed, 174 insertions(+), 8 deletions(-)
>
> diff --git a/drivers/mtd/nand/raw/sunxi_nand.c b/drivers/mtd/nand/raw/sunxi_nand.c
> index e81d74c6633a..1e1185f8d980 100644
> --- a/drivers/mtd/nand/raw/sunxi_nand.c
> +++ b/drivers/mtd/nand/raw/sunxi_nand.c
> @@ -49,17 +49,40 @@
> #define NFC_REG_A23_IO_DATA 0x0300
> #define NFC_REG_ECC_CTL 0x0034
> #define NFC_REG_ECC_ST 0x0038
> -#define NFC_REG_DEBUG 0x003C
> +#define NFC_REG_H6_PAT_FOUND 0x003C
> #define NFC_REG_A10_ECC_ERR_CNT 0x0040
> +#define NFC_REG_H6_ECC_ERR_CNT 0x0050
> #define NFC_REG_ECC_ERR_CNT(nfc, x) ((nfc->caps->reg_ecc_err_cnt + (x)) & ~0x3)
> +#define NFC_REG_H6_RDATA_CTL 0x0044
> +#define NFC_REG_H6_RDATA_0 0x0048
> +#define NFC_REG_H6_RDATA_1 0x004C
> #define NFC_REG_A10_USER_DATA 0x0050
> +#define NFC_REG_H6_USER_DATA 0x0080
> #define NFC_REG_USER_DATA(nfc, x) (nfc->caps->reg_user_data + ((x) * 4))
> +#define NFC_REG_H6_USER_DATA_LEN 0x0070
> +/* A USER_DATA_LEN register can hold the length of 8 USER_DATA registers */
> +#define NFC_REG_USER_DATA_LEN_CAPACITY 8
> +#define NFC_REG_USER_DATA_LEN(nfc, step) \
> + (nfc->caps->reg_user_data_len + \
> + ((step) / NFC_REG_USER_DATA_LEN_CAPACITY) * 4)
> #define NFC_REG_SPARE_AREA(nfc) (nfc->caps->reg_spare_area)
> #define NFC_REG_A10_SPARE_AREA 0x00A0
> #define NFC_REG_PAT_ID(nfc) (nfc->caps->reg_pat_id)
> #define NFC_REG_A10_PAT_ID 0x00A4
> #define NFC_REG_MDMA_ADDR 0x00C0
> #define NFC_REG_MDMA_CNT 0x00C4
> +#define NFC_REG_H6_EFNAND_STATUS 0x0110
> +#define NFC_REG_H6_SPARE_AREA 0x0114
> +#define NFC_REG_H6_PAT_ID 0x0118
> +#define NFC_REG_H6_DDR2_SPEC_CTL 0x011C
> +#define NFC_REG_H6_NDMA_MODE_CTL 0x0120
> +#define NFC_REG_H6_MDMA_DLBA_REG 0x0200
> +#define NFC_REG_H6_MDMA_STA 0x0204
> +#define NFC_REG_H6_MDMA_INT_MAS 0x0208
> +#define NFC_REG_H6_MDMA_DESC_ADDR 0x020C
> +#define NFC_REG_H6_MDMA_BUF_ADDR 0x0210
> +#define NFC_REG_H6_MDMA_CNT 0x0214
> +
> #define NFC_RAM0_BASE 0x0400
> #define NFC_RAM1_BASE 0x0800
>
> @@ -71,6 +94,7 @@
> #define NFC_BUS_WIDTH_16 (1 << 2)
> #define NFC_RB_SEL_MSK BIT(3)
> #define NFC_RB_SEL(x) ((x) << 3)
> +/* CE_SEL BIT 27 is meant to be used for GPIO chipselect */
> #define NFC_CE_SEL_MSK GENMASK(26, 24)
> #define NFC_CE_SEL(x) ((x) << 24)
> #define NFC_CE_CTL BIT(6)
> @@ -89,6 +113,9 @@
> #define NFC_STA BIT(4)
> #define NFC_NATCH_INT_FLAG BIT(5)
> #define NFC_RB_STATE(x) BIT(x + 8)
> +#define NFC_RB_STATE_MSK GENMASK(11, 8)
> +#define NDFC_RDATA_STA_1 BIT(12)
> +#define NDFC_RDATA_STA_0 BIT(13)
>
> /* define bit use in NFC_INT */
> #define NFC_B2R_INT_ENABLE BIT(0)
> @@ -100,6 +127,7 @@
>
> /* define bit use in NFC_TIMING_CTL */
> #define NFC_TIMING_CTL_EDO BIT(8)
> +#define NFC_TIMING_CTL_E_EDO BIT(9)
>
> /* define NFC_TIMING_CFG register layout */
> #define NFC_TIMING_CFG(tWB, tADL, tWHR, tRHW, tCAD) \
> @@ -107,9 +135,15 @@
> (((tWHR) & 0x3) << 4) | (((tRHW) & 0x3) << 6) | \
> (((tCAD) & 0x7) << 8))
>
> +#define NFC_TIMING_CFG2(tCDQSS, tSC, tCLHZ, tCSS, tWC) \
> + ((((tCDQSS) & 0x1) << 11) | (((tSC) & 0x3) << 12) | \
> + (((tCLHZ) & 0x3) << 14) | (((tCSS) & 0x3) << 16) | \
> + (((tWC) & 0x3) << 18))
> +
> /* define bit use in NFC_CMD */
> #define NFC_CMD_LOW_BYTE_MSK GENMASK(7, 0)
> -#define NFC_CMD_HIGH_BYTE_MSK GENMASK(15, 8)
> +#define NFC_CMD_HIGH_BYTE_MSK GENMASK(15, 8) // 15-10 reserved on H6
> +#define NFC_CMD_ADR_NUM_MSK GENMASK(9, 8)
> #define NFC_CMD(x) (x)
> #define NFC_ADR_NUM_MSK GENMASK(18, 16)
> #define NFC_ADR_NUM(x) (((x) - 1) << 16)
> @@ -122,6 +156,7 @@
> #define NFC_SEQ BIT(25)
> #define NFC_DATA_SWAP_METHOD BIT(26)
> #define NFC_ROW_AUTO_INC BIT(27)
> +#define NFC_H6_SEND_RND_CMD2 BIT(27)
> #define NFC_SEND_CMD3 BIT(28)
> #define NFC_SEND_CMD4 BIT(29)
> #define NFC_CMD_TYPE_MSK GENMASK(31, 30)
> @@ -133,6 +168,7 @@
> #define NFC_READ_CMD_MSK GENMASK(7, 0)
> #define NFC_RND_READ_CMD0_MSK GENMASK(15, 8)
> #define NFC_RND_READ_CMD1_MSK GENMASK(23, 16)
> +#define NFC_RND_READ_CMD2_MSK GENMASK(31, 24)
>
> /* define bit use in NFC_WCMD_SET */
> #define NFC_PROGRAM_CMD_MSK GENMASK(7, 0)
> @@ -150,6 +186,9 @@
> #define NFC_RANDOM_DIRECTION(nfc) (nfc->caps->random_dir_mask)
> #define NFC_ECC_MODE_MSK(nfc) (nfc->caps->ecc_mode_mask)
> #define NFC_ECC_MODE(nfc, x) field_prep(NFC_ECC_MODE_MSK(nfc), (x))
> +/* RANDOM_PAGE_SIZE: 0: ECC block size 1: page size */
> +#define NFC_A23_RANDOM_PAGE_SIZE BIT(11)
> +#define NFC_H6_RANDOM_PAGE_SIZE BIT(7)
> #define NFC_RANDOM_SEED_MSK GENMASK(30, 16)
> #define NFC_RANDOM_SEED(x) ((x) << 16)
>
> @@ -165,6 +204,9 @@
>
> #define NFC_ECC_ERR_CNT(b, x) (((x) >> (((b) % 4) * 8)) & 0xff)
>
> +#define NFC_USER_DATA_LEN_MSK(step) \
> + (0xf << (((step) % NFC_REG_USER_DATA_LEN_CAPACITY) * 4))
> +
> #define NFC_DEFAULT_TIMEOUT_MS 1000
>
> #define NFC_MAX_CS 7
> @@ -224,9 +266,11 @@ static inline struct sunxi_nand_chip *to_sunxi_nand(struct nand_chip *nand)
> * @has_mdma: Use mbus dma mode, otherwise general dma
> * through MBUS on A23/A33 needs extra configuration.
> * @has_ecc_block_512: If the ECC can handle 512B or only 1024B chuncks
> + * @has_mbus_clk: If the controller needs a mbus clock.
> * @reg_io_data: I/O data register
> * @reg_ecc_err_cnt: ECC error counter register
> * @reg_user_data: User data register
> + * @reg_user_data_len: User data length register
> * @reg_spare_area: Spare Area Register
> * @reg_pat_id: Pattern ID Register
> * @reg_pat_found: Data Pattern Status Register
> @@ -238,14 +282,23 @@ static inline struct sunxi_nand_chip *to_sunxi_nand(struct nand_chip *nand)
> * @dma_maxburst: DMA maxburst
> * @ecc_strengths: Available ECC strengths array
> * @nstrengths: Size of @ecc_strengths
> + * @max_ecc_steps: Maximum supported steps for ECC, this is also the
> + * number of user data registers
> + * @user_data_len_tab: Table of lenghts supported by USER_DATA_LEN register
> + * The table index is the value to set in NFC_USER_DATA_LEN
> + * registers, and the corresponding value is the number of
> + * bytes to write
> + * @nuser_data_tab: Size of @user_data_len_tab
> * @sram_size: Size of the NAND controller SRAM
> */
> struct sunxi_nfc_caps {
> bool has_mdma;
> bool has_ecc_block_512;
> + bool has_mbus_clk;
> unsigned int reg_io_data;
> unsigned int reg_ecc_err_cnt;
> unsigned int reg_user_data;
> + unsigned int reg_user_data_len;
> unsigned int reg_spare_area;
> unsigned int reg_pat_id;
> unsigned int reg_pat_found;
> @@ -257,6 +310,9 @@ struct sunxi_nfc_caps {
> unsigned int dma_maxburst;
> const u8 *ecc_strengths;
> unsigned int nstrengths;
> + const u8 *user_data_len_tab;
> + unsigned int nuser_data_tab;
> + unsigned int max_ecc_steps;
> int sram_size;
> };
>
> @@ -268,6 +324,7 @@ struct sunxi_nfc_caps {
> * @regs: NAND controller registers
> * @ahb_clk: NAND controller AHB clock
> * @mod_clk: NAND controller mod clock
> + * @ecc_clk: NAND controller ECC clock
> * @reset: NAND controller reset line
> * @assigned_cs: bitmask describing already assigned CS lines
> * @clk_rate: NAND controller current clock rate
> @@ -282,7 +339,9 @@ struct sunxi_nfc {
> struct device *dev;
> void __iomem *regs;
> struct clk *ahb_clk;
> + struct clk *mbus_clk;
> struct clk *mod_clk;
> + struct clk *ecc_clk;
> struct reset_control *reset;
> unsigned long assigned_cs;
> unsigned long clk_rate;
> @@ -764,6 +823,53 @@ static void sunxi_nfc_hw_ecc_get_prot_oob_bytes(struct nand_chip *nand, u8 *oob,
> sunxi_nfc_randomize_bbm(nand, page, oob);
> }
>
> +/*
> + * On H6/H6 the user_data length has to be set in specific registers
> + * before writing.
> + */
> +static void sunxi_nfc_reset_user_data_len(struct sunxi_nfc *nfc)
> +{
> + int loop_step = NFC_REG_USER_DATA_LEN_CAPACITY;
> +
> + /* not all SoCs have this register */
> + if (!nfc->caps->reg_user_data_len)
> + return;
> +
> + for (int i = 0; i < nfc->caps->max_ecc_steps; i += loop_step)
> + writel(0, nfc->regs + NFC_REG_USER_DATA_LEN(nfc, i));
> +}
> +
> +static void sunxi_nfc_set_user_data_len(struct sunxi_nfc *nfc,
> + int len, int step)
> +{
> + bool found = false;
> + u32 val;
> + int i;
> +
> + /* not all SoCs have this register */
> + if (!nfc->caps->reg_user_data_len)
> + return;
> +
> + for (i = 0; i < nfc->caps->nuser_data_tab; i++) {
> + if (len == nfc->caps->user_data_len_tab[i]) {
> + found = true;
> + break;
> + }
> + }
> +
> + if (!found) {
> + dev_warn(nfc->dev,
> + "Unsupported length for user data reg: %d\n", len);
> + return;
> + }
> +
> + val = readl(nfc->regs + NFC_REG_USER_DATA_LEN(nfc, step));
> +
> + val &= ~NFC_USER_DATA_LEN_MSK(step);
> + val |= field_prep(NFC_USER_DATA_LEN_MSK(step), i);
> + writel(val, nfc->regs + NFC_REG_USER_DATA_LEN(nfc, step));
> +}
> +
> static void sunxi_nfc_hw_ecc_set_prot_oob_bytes(struct nand_chip *nand,
> const u8 *oob, int step,
> bool bbm, int page)
> @@ -858,6 +964,8 @@ static int sunxi_nfc_hw_ecc_read_chunk(struct nand_chip *nand,
> if (ret)
> return ret;
>
> + sunxi_nfc_reset_user_data_len(nfc);
> + sunxi_nfc_set_user_data_len(nfc, 4, 0);
> sunxi_nfc_randomizer_config(nand, page, false);
> sunxi_nfc_randomizer_enable(nand);
> writel(NFC_DATA_TRANS | NFC_DATA_SWAP_METHOD | NFC_ECC_OP,
> @@ -968,6 +1076,8 @@ static int sunxi_nfc_hw_ecc_read_chunks_dma(struct nand_chip *nand, uint8_t *buf
> return ret;
>
> sunxi_nfc_hw_ecc_enable(nand);
> + sunxi_nfc_reset_user_data_len(nfc);
> + sunxi_nfc_set_user_data_len(nfc, 4, 0);
> sunxi_nfc_randomizer_config(nand, page, false);
> sunxi_nfc_randomizer_enable(nand);
>
> @@ -1100,6 +1210,8 @@ static int sunxi_nfc_hw_ecc_write_chunk(struct nand_chip *nand,
>
> sunxi_nfc_randomizer_config(nand, page, false);
> sunxi_nfc_randomizer_enable(nand);
> + sunxi_nfc_reset_user_data_len(nfc);
> + sunxi_nfc_set_user_data_len(nfc, 4, 0);
> sunxi_nfc_hw_ecc_set_prot_oob_bytes(nand, oob, 0, bbm, page);
>
> writel(NFC_DATA_TRANS | NFC_DATA_SWAP_METHOD |
> @@ -1344,10 +1456,12 @@ static int sunxi_nfc_hw_ecc_write_page_dma(struct nand_chip *nand,
> if (ret)
> goto pio_fallback;
>
> + sunxi_nfc_reset_user_data_len(nfc);
> for (i = 0; i < ecc->steps; i++) {
> const u8 *oob = nand->oob_poi + (i * (ecc->bytes + 4));
>
> sunxi_nfc_hw_ecc_set_prot_oob_bytes(nand, oob, i, !i, page);
> + sunxi_nfc_set_user_data_len(nfc, 4, i);
> }
>
> nand_prog_page_begin_op(nand, page, 0, NULL, 0);
> @@ -2148,18 +2262,36 @@ static int sunxi_nfc_probe(struct platform_device *pdev)
> if (irq < 0)
> return irq;
>
> + nfc->caps = of_device_get_match_data(dev);
> + if (!nfc->caps)
> + return -EINVAL;
> +
> nfc->ahb_clk = devm_clk_get_enabled(dev, "ahb");
> if (IS_ERR(nfc->ahb_clk)) {
> dev_err(dev, "failed to retrieve ahb clk\n");
> return PTR_ERR(nfc->ahb_clk);
> }
>
> + if (nfc->caps->has_mbus_clk) {
> + nfc->mbus_clk = devm_clk_get_enabled(dev, "mbus");
> + if (IS_ERR(nfc->mbus_clk)) {
> + dev_err(dev, "No mbus clock specified\n");
> + return PTR_ERR(nfc->mbus_clk);
> + }
> + }
> +
> nfc->mod_clk = devm_clk_get_enabled(dev, "mod");
> if (IS_ERR(nfc->mod_clk)) {
> dev_err(dev, "failed to retrieve mod clk\n");
> return PTR_ERR(nfc->mod_clk);
> }
>
> + nfc->ecc_clk = devm_clk_get_optional_enabled(dev, "ecc");
> + if (IS_ERR(nfc->ecc_clk)) {
> + dev_err(dev, "failed to retrieve ecc clk\n");
> + return PTR_ERR(nfc->ecc_clk);
> + }
> +
> nfc->reset = devm_reset_control_get_optional_exclusive(dev, "ahb");
> if (IS_ERR(nfc->reset))
> return PTR_ERR(nfc->reset);
> @@ -2170,12 +2302,6 @@ static int sunxi_nfc_probe(struct platform_device *pdev)
> return ret;
> }
>
> - nfc->caps = of_device_get_match_data(&pdev->dev);
> - if (!nfc->caps) {
> - ret = -EINVAL;
> - goto out_ahb_reset_reassert;
> - }
> -
> ret = sunxi_nfc_rst(nfc);
> if (ret)
> goto out_ahb_reset_reassert;
> @@ -2226,8 +2352,17 @@ static const u8 sunxi_ecc_strengths_a10[] = {
> 16, 24, 28, 32, 40, 48, 56, 60, 64
> };
>
> +static const u8 sunxi_ecc_strengths_h6[] = {
> + 16, 24, 28, 32, 40, 44, 48, 52, 56, 60, 64, 68, 72, 76, 80
> +};
> +
> +static const u8 sunxi_user_data_len_h6[] = {
> + 0, 4, 8, 12, 16, 20, 24, 28, 32
> +};
> +
> static const struct sunxi_nfc_caps sunxi_nfc_a10_caps = {
> .has_ecc_block_512 = true,
> + .has_mbus_clk = false,
> .reg_io_data = NFC_REG_A10_IO_DATA,
> .reg_ecc_err_cnt = NFC_REG_A10_ECC_ERR_CNT,
> .reg_user_data = NFC_REG_A10_USER_DATA,
> @@ -2242,11 +2377,13 @@ static const struct sunxi_nfc_caps sunxi_nfc_a10_caps = {
> .dma_maxburst = 4,
> .ecc_strengths = sunxi_ecc_strengths_a10,
> .nstrengths = ARRAY_SIZE(sunxi_ecc_strengths_a10),
> + .max_ecc_steps = 16,
> .sram_size = 1024,
> };
>
> static const struct sunxi_nfc_caps sunxi_nfc_a23_caps = {
> .has_mdma = true,
> + .has_mbus_clk = false,
> .has_ecc_block_512 = true,
> .reg_io_data = NFC_REG_A23_IO_DATA,
> .reg_ecc_err_cnt = NFC_REG_A10_ECC_ERR_CNT,
> @@ -2262,9 +2399,34 @@ static const struct sunxi_nfc_caps sunxi_nfc_a23_caps = {
> .dma_maxburst = 8,
> .ecc_strengths = sunxi_ecc_strengths_a10,
> .nstrengths = ARRAY_SIZE(sunxi_ecc_strengths_a10),
> + .max_ecc_steps = 16,
> .sram_size = 1024,
> };
>
> +static const struct sunxi_nfc_caps sunxi_nfc_h616_caps = {
> + .has_mdma = false, // H6 supports only chained descriptors
H6 or H616?
Fix the comment.
Best regards,
Jernej
> + .has_mbus_clk = true,
> + .reg_io_data = NFC_REG_A23_IO_DATA,
> + .reg_ecc_err_cnt = NFC_REG_H6_ECC_ERR_CNT,
> + .reg_user_data = NFC_REG_H6_USER_DATA,
> + .reg_user_data_len = NFC_REG_H6_USER_DATA_LEN,
> + .reg_spare_area = NFC_REG_H6_SPARE_AREA,
> + .reg_pat_id = NFC_REG_H6_PAT_ID,
> + .reg_pat_found = NFC_REG_H6_PAT_FOUND,
> + .random_en_mask = BIT(5),
> + .random_dir_mask = BIT(6),
> + .ecc_mode_mask = GENMASK(15, 8),
> + .ecc_err_mask = GENMASK(31, 0),
> + .pat_found_mask = GENMASK(31, 0),
> + .dma_maxburst = 8,
> + .ecc_strengths = sunxi_ecc_strengths_h6,
> + .nstrengths = ARRAY_SIZE(sunxi_ecc_strengths_h6),
> + .user_data_len_tab = sunxi_user_data_len_h6,
> + .nuser_data_tab = ARRAY_SIZE(sunxi_user_data_len_h6),
> + .max_ecc_steps = 32,
> + .sram_size = 8192,
> +};
> +
> static const struct of_device_id sunxi_nfc_ids[] = {
> {
> .compatible = "allwinner,sun4i-a10-nand",
> @@ -2274,6 +2436,10 @@ static const struct of_device_id sunxi_nfc_ids[] = {
> .compatible = "allwinner,sun8i-a23-nand-controller",
> .data = &sunxi_nfc_a23_caps,
> },
> + {
> + .compatible = "allwinner,sun50i-h616-nand-controller",
> + .data = &sunxi_nfc_h616_caps,
> + },
> { /* sentinel */ }
> };
> MODULE_DEVICE_TABLE(of, sunxi_nfc_ids);
>
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next prev parent reply other threads:[~2025-10-11 10:49 UTC|newest]
Thread overview: 33+ messages / expand[flat|nested] mbox.gz Atom feed top
2025-10-10 8:40 [PATCH 00/15] Introduce Allwinner H6/H616 NAND controller support Richard Genoud
2025-10-10 8:40 ` [PATCH 01/15] mtd: rawnand: sunxi: Remove superfluous register readings Richard Genoud
2025-10-11 10:15 ` Jernej Škrabec
2025-10-10 8:40 ` [PATCH 02/15] dt-bindings: mtd: sunxi: Add new compatible Richard Genoud
2025-10-10 8:45 ` Krzysztof Kozlowski
2025-10-10 10:16 ` Richard GENOUD
2025-10-10 8:49 ` Krzysztof Kozlowski
2025-10-10 10:18 ` Richard GENOUD
2025-10-11 10:27 ` Jernej Škrabec
2025-10-13 11:56 ` Richard GENOUD
2025-10-10 8:40 ` [PATCH 03/15] arm64: dts: allwinner: h616: add NAND controller Richard Genoud
2025-10-10 8:47 ` Krzysztof Kozlowski
2025-10-10 10:22 ` Richard GENOUD
2025-10-10 10:24 ` Krzysztof Kozlowski
2025-10-11 10:33 ` Jernej Škrabec
2025-10-13 11:59 ` Richard GENOUD
2025-10-10 8:40 ` [PATCH 04/15] mtd: nand: sunxi: move ecc strenghts in sunxi_nfc_caps Richard Genoud
2025-10-11 10:41 ` Jernej Škrabec
2025-10-13 12:00 ` Richard GENOUD
2025-10-10 8:40 ` [PATCH 05/15] mtd: nand: sunxi: introduce reg_ecc_err_cnt " Richard Genoud
2025-10-10 8:40 ` [PATCH 06/15] mtd: nand: sunxi: introduce reg_user_data " Richard Genoud
2025-10-10 8:40 ` [PATCH 07/15] mtd: nand: sunxi: rework pattern found registers Richard Genoud
2025-10-10 8:40 ` [PATCH 08/15] mtd: nand: sunxi: add has_ecc_block_512 capability Richard Genoud
2025-10-10 8:40 ` [PATCH 09/15] mtd: nand: sunxi: introduce ecc_mode_mask in sunxi_nfc_caps Richard Genoud
2025-10-10 8:40 ` [PATCH 10/15] mtd: nand: sunxi: introduce random en/dir " Richard Genoud
2025-10-10 8:40 ` [PATCH 11/15] mtd: nand: sunxi: introduce reg_pat_id " Richard Genoud
2025-10-10 8:40 ` [PATCH 12/15] mtd: nand: sunxi: introduce reg_spare_area " Richard Genoud
2025-10-10 8:40 ` [PATCH 13/15] mtd: nand: sunxi: introduce ecc_err_mask " Richard Genoud
2025-10-10 8:40 ` [PATCH 14/15] mtd: nand: sunxi: introduce sram_size " Richard Genoud
2025-10-10 8:40 ` [PATCH 15/15] mtd: rawnand: sunxi: Add support for H616 nand controller Richard Genoud
2025-10-11 1:00 ` kernel test robot
2025-10-11 10:48 ` Jernej Škrabec [this message]
2025-10-13 12:01 ` Richard GENOUD
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