From patchwork Sun Apr 3 13:14:50 2022 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Chuanhong Guo X-Patchwork-Id: 12799587 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org Received: from bombadil.infradead.org (bombadil.infradead.org [198.137.202.133]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.lore.kernel.org (Postfix) with ESMTPS id E5097C433EF for ; Sun, 3 Apr 2022 13:18:46 +0000 (UTC) DKIM-Signature: v=1; a=rsa-sha256; q=dns/txt; c=relaxed/relaxed; d=lists.infradead.org; s=bombadil.20210309; h=Sender: Content-Transfer-Encoding:Content-Type:List-Subscribe:List-Help:List-Post: List-Archive:List-Unsubscribe:List-Id:MIME-Version:References:In-Reply-To: Message-Id:Date:Subject:Cc:To:From:Reply-To:Content-ID:Content-Description: Resent-Date:Resent-From:Resent-Sender:Resent-To:Resent-Cc:Resent-Message-ID: List-Owner; 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Sun, 03 Apr 2022 06:15:38 -0700 (PDT) Received: from guoguo-omen.lan ([2001:250:3000:7000:7978:d40d:86ff:591d]) by smtp.gmail.com with ESMTPSA id w19-20020a056a0014d300b004fae5e3970csm9272416pfu.35.2022.04.03.06.15.31 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sun, 03 Apr 2022 06:15:38 -0700 (PDT) From: Chuanhong Guo To: linux-spi@vger.kernel.org Cc: Chuanhong Guo , Mark Brown , Rob Herring , Krzysztof Kozlowski , Matthias Brugger , Miquel Raynal , Richard Weinberger , Vignesh Raghavendra , Roger Quadros , Thomas Bogendoerfer , Cai Huoqing , Florian Fainelli , Colin Ian King , Wolfram Sang , Paul Cercueil , Pratyush Yadav , Yu Kuai , devicetree@vger.kernel.org (open list:OPEN FIRMWARE AND FLATTENED DEVICE TREE BINDINGS), linux-arm-kernel@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-mediatek@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-kernel@vger.kernel.org (open list), linux-mtd@lists.infradead.org (open list:NAND FLASH SUBSYSTEM) Subject: [PATCH resend 1/4] mtd: nand: make mtk_ecc.c a separated module Date: Sun, 3 Apr 2022 21:14:50 +0800 Message-Id: <20220403131453.1269229-2-gch981213@gmail.com> X-Mailer: git-send-email 2.35.1 In-Reply-To: <20220403131453.1269229-1-gch981213@gmail.com> References: <20220403131453.1269229-1-gch981213@gmail.com> MIME-Version: 1.0 X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20220403_061540_235175_F2E93A0E X-CRM114-Status: GOOD ( 12.62 ) X-BeenThere: linux-arm-kernel@lists.infradead.org X-Mailman-Version: 2.1.34 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Sender: "linux-arm-kernel" Errors-To: linux-arm-kernel-bounces+linux-arm-kernel=archiver.kernel.org@lists.infradead.org this code will be used in mediatek snfi spi-mem controller with pipelined ECC engine. Signed-off-by: Chuanhong Guo --- drivers/mtd/nand/Kconfig | 7 +++++++ drivers/mtd/nand/Makefile | 1 + drivers/mtd/nand/{raw/mtk_ecc.c => ecc-mtk.c} | 3 +-- drivers/mtd/nand/raw/Kconfig | 1 + drivers/mtd/nand/raw/Makefile | 2 +- drivers/mtd/nand/raw/mtk_nand.c | 2 +- .../nand/raw/mtk_ecc.h => include/linux/mtd/nand-ecc-mtk.h | 0 7 files changed, 12 insertions(+), 4 deletions(-) rename drivers/mtd/nand/{raw/mtk_ecc.c => ecc-mtk.c} (99%) rename drivers/mtd/nand/raw/mtk_ecc.h => include/linux/mtd/nand-ecc-mtk.h (100%) diff --git a/drivers/mtd/nand/Kconfig b/drivers/mtd/nand/Kconfig index 9b249826ef93..39df4621ac25 100644 --- a/drivers/mtd/nand/Kconfig +++ b/drivers/mtd/nand/Kconfig @@ -53,6 +53,13 @@ config MTD_NAND_ECC_MXIC help This enables support for the hardware ECC engine from Macronix. +config MTD_NAND_ECC_MEDIATEK + bool "Mediatek hardware ECC engine" + depends on HAS_IOMEM + select MTD_NAND_ECC + help + This enables support for the hardware ECC engine from Mediatek. + endmenu endmenu diff --git a/drivers/mtd/nand/Makefile b/drivers/mtd/nand/Makefile index a4e6b7ae0614..e5f40ed9300f 100644 --- a/drivers/mtd/nand/Makefile +++ b/drivers/mtd/nand/Makefile @@ -11,3 +11,4 @@ nandcore-$(CONFIG_MTD_NAND_ECC) += ecc.o nandcore-$(CONFIG_MTD_NAND_ECC_SW_HAMMING) += ecc-sw-hamming.o nandcore-$(CONFIG_MTD_NAND_ECC_SW_BCH) += ecc-sw-bch.o nandcore-$(CONFIG_MTD_NAND_ECC_MXIC) += ecc-mxic.o +nandcore-$(CONFIG_MTD_NAND_ECC_MEDIATEK) += ecc-mtk.o diff --git a/drivers/mtd/nand/raw/mtk_ecc.c b/drivers/mtd/nand/ecc-mtk.c similarity index 99% rename from drivers/mtd/nand/raw/mtk_ecc.c rename to drivers/mtd/nand/ecc-mtk.c index 49ab3448b9b1..74ddaa46ba7c 100644 --- a/drivers/mtd/nand/raw/mtk_ecc.c +++ b/drivers/mtd/nand/ecc-mtk.c @@ -15,8 +15,7 @@ #include #include #include - -#include "mtk_ecc.h" +#include #define ECC_IDLE_MASK BIT(0) #define ECC_IRQ_EN BIT(0) diff --git a/drivers/mtd/nand/raw/Kconfig b/drivers/mtd/nand/raw/Kconfig index 9b078e78f3fa..8b6d7a515445 100644 --- a/drivers/mtd/nand/raw/Kconfig +++ b/drivers/mtd/nand/raw/Kconfig @@ -374,6 +374,7 @@ config MTD_NAND_QCOM config MTD_NAND_MTK tristate "MTK NAND controller" + depends on MTD_NAND_ECC_MEDIATEK depends on ARCH_MEDIATEK || COMPILE_TEST depends on HAS_IOMEM help diff --git a/drivers/mtd/nand/raw/Makefile b/drivers/mtd/nand/raw/Makefile index 88a566513c56..fa1d00120310 100644 --- a/drivers/mtd/nand/raw/Makefile +++ b/drivers/mtd/nand/raw/Makefile @@ -48,7 +48,7 @@ obj-$(CONFIG_MTD_NAND_SUNXI) += sunxi_nand.o 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-$(CONFIG_MTD_NAND_MTK) += mtk_nand.o obj-$(CONFIG_MTD_NAND_MXIC) += mxic_nand.o obj-$(CONFIG_MTD_NAND_TEGRA) += tegra_nand.o obj-$(CONFIG_MTD_NAND_STM32_FMC2) += stm32_fmc2_nand.o diff --git a/drivers/mtd/nand/raw/mtk_nand.c b/drivers/mtd/nand/raw/mtk_nand.c index 66f04c693c87..d540454cbbdf 100644 --- a/drivers/mtd/nand/raw/mtk_nand.c +++ b/drivers/mtd/nand/raw/mtk_nand.c @@ -17,7 +17,7 @@ #include #include #include -#include "mtk_ecc.h" +#include /* NAND controller register definition */ #define NFI_CNFG (0x00) diff --git a/drivers/mtd/nand/raw/mtk_ecc.h b/include/linux/mtd/nand-ecc-mtk.h similarity index 100% rename from drivers/mtd/nand/raw/mtk_ecc.h rename to include/linux/mtd/nand-ecc-mtk.h From patchwork Sun Apr 3 13:14:51 2022 Content-Type: text/plain; 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Sun, 03 Apr 2022 06:15:45 -0700 (PDT) Received: from guoguo-omen.lan ([2001:250:3000:7000:7978:d40d:86ff:591d]) by smtp.gmail.com with ESMTPSA id w19-20020a056a0014d300b004fae5e3970csm9272416pfu.35.2022.04.03.06.15.38 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sun, 03 Apr 2022 06:15:45 -0700 (PDT) From: Chuanhong Guo To: linux-spi@vger.kernel.org Cc: Chuanhong Guo , Mark Brown , Rob Herring , Krzysztof Kozlowski , Matthias Brugger , Miquel Raynal , Richard Weinberger , Vignesh Raghavendra , Roger Quadros , Thomas Bogendoerfer , Cai Huoqing , Florian Fainelli , Colin Ian King , Wolfram Sang , Paul Cercueil , Pratyush Yadav , Yu Kuai , devicetree@vger.kernel.org (open list:OPEN FIRMWARE AND FLATTENED DEVICE TREE BINDINGS), linux-arm-kernel@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-mediatek@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-kernel@vger.kernel.org (open list), linux-mtd@lists.infradead.org (open list:NAND FLASH SUBSYSTEM) Subject: [PATCH resend 2/4] spi: add driver for MTK SPI NAND Flash Interface Date: Sun, 3 Apr 2022 21:14:51 +0800 Message-Id: <20220403131453.1269229-3-gch981213@gmail.com> X-Mailer: git-send-email 2.35.1 In-Reply-To: <20220403131453.1269229-1-gch981213@gmail.com> References: <20220403131453.1269229-1-gch981213@gmail.com> MIME-Version: 1.0 X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20220403_061547_595300_0E5DB9A2 X-CRM114-Status: GOOD ( 26.91 ) X-BeenThere: linux-arm-kernel@lists.infradead.org X-Mailman-Version: 2.1.34 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Sender: "linux-arm-kernel" Errors-To: linux-arm-kernel-bounces+linux-arm-kernel=archiver.kernel.org@lists.infradead.org This driver implements support for the SPI-NAND mode of MTK NAND Flash Interface as a SPI-MEM controller with piplined ECC capability. Signed-off-by: Chuanhong Guo --- drivers/spi/Kconfig | 10 + drivers/spi/Makefile | 1 + drivers/spi/spi-mtk-snfi.c | 1356 ++++++++++++++++++++++++++++++++++++ 3 files changed, 1367 insertions(+) create mode 100644 drivers/spi/spi-mtk-snfi.c diff --git a/drivers/spi/Kconfig b/drivers/spi/Kconfig index d2815eb361c0..739eec7d0c15 100644 --- a/drivers/spi/Kconfig +++ b/drivers/spi/Kconfig @@ -590,6 +590,16 @@ config SPI_MTK_NOR SPI interface as well as several SPI NOR specific instructions via SPI MEM interface. +config SPI_MTK_SNFI + tristate "MediaTek SPI NAND Flash Interface" + depends on ARCH_MEDIATEK || COMPILE_TEST + depends on MTD_NAND_ECC_MEDIATEK + help + This enables support for SPI-NAND mode on the MediaTek NAND + Flash Interface found on MediaTek ARM SoCs. This controller + is implemented as a SPI-MEM controller with pipelined ECC + capcability. + config SPI_NPCM_FIU tristate "Nuvoton NPCM FLASH Interface Unit" depends on ARCH_NPCM || COMPILE_TEST diff --git a/drivers/spi/Makefile b/drivers/spi/Makefile index 3aa28ed3f761..51541ff17e67 100644 --- a/drivers/spi/Makefile +++ b/drivers/spi/Makefile @@ -76,6 +76,7 @@ obj-$(CONFIG_SPI_MPC52xx) += spi-mpc52xx.o obj-$(CONFIG_SPI_MT65XX) += spi-mt65xx.o obj-$(CONFIG_SPI_MT7621) += spi-mt7621.o obj-$(CONFIG_SPI_MTK_NOR) += spi-mtk-nor.o +obj-$(CONFIG_SPI_MTK_SNFI) += spi-mtk-snfi.o obj-$(CONFIG_SPI_MXIC) += spi-mxic.o obj-$(CONFIG_SPI_MXS) += spi-mxs.o obj-$(CONFIG_SPI_NPCM_FIU) += spi-npcm-fiu.o diff --git a/drivers/spi/spi-mtk-snfi.c b/drivers/spi/spi-mtk-snfi.c new file mode 100644 index 000000000000..14e96332f11b --- /dev/null +++ b/drivers/spi/spi-mtk-snfi.c @@ -0,0 +1,1356 @@ +// SPDX-License-Identifier: GPL-2.0 +// +// Driver for the SPI-NAND mode of Mediatek NAND Flash Interface +// +// Copyright (c) 2022 Chuanhong Guo +// +// This driver is based on the SPI-NAND mtd driver from Mediatek SDK: +// +// Copyright (C) 2020 MediaTek Inc. +// Author: Weijie Gao +// +// This controller organize the page data as several interleaved sectors +// like the following: (sizeof(FDM + ECC) = snf->nfi_cfg.spare_size) +// +---------+------+------+---------+------+------+-----+ +// | Sector1 | FDM1 | ECC1 | Sector2 | FDM2 | ECC2 | ... | +// +---------+------+------+---------+------+------+-----+ +// With auto-format turned on, DMA only returns this part: +// +---------+---------+-----+ +// | Sector1 | Sector2 | ... | +// +---------+---------+-----+ +// The FDM data will be filled to the registers, and ECC parity data isn't +// accessible. +// With auto-format off, all ((Sector+FDM+ECC)*nsectors) will be read over DMA +// in it's original order shown in the first table. ECC can't be turned on when +// auto-format is off. +// +// However, Linux SPI-NAND driver expects the data returned as: +// +------+-----+ +// | Page | OOB | +// +------+-----+ +// where the page data is continuously stored instead of interleaved. +// So we assume all instructions matching the page_op template between ECC +// prepare_io_req and finish_io_req are for page cache r/w. +// Here's how this spi-mem driver operates when reading: +// 1. Always set snf->autofmt = true in prepare_io_req (even when ECC is off). +// 2. Perform page ops and let the controller fill the DMA bounce buffer with +// de-interleaved sector data and set FDM registers. +// 3. Return the data as: +// +---------+---------+-----+------+------+-----+ +// | Sector1 | Sector2 | ... | FDM1 | FDM2 | ... | +// +---------+---------+-----+------+------+-----+ +// 4. For other matching spi_mem ops outside a prepare/finish_io_req pair, +// read the data with auto-format off into the bounce buffer and copy +// needed data to the buffer specified in the request. +// +// Write requests operates in a similar manner. +// As a limitation of this strategy, we won't be able to access any ECC parity +// data at all in Linux. +// +// Here's the bad block mark situation on MTK chips: +// In older chips like mt7622, MTK uses the first FDM byte in the first sector +// as the bad block mark. After de-interleaving, this byte appears at [pagesize] +// in the returned data, which is the BBM position expected by kernel. However, +// the conventional bad block mark is the first byte of the OOB, which is part +// of the last sector data in the interleaved layout. Instead of fixing their +// hardware, MTK decided to address this inconsistency in software. On these +// later chips, the BootROM expects the following: +// 1. The [pagesize] byte on a nand page is used as BBM, which will appear at +// (page_size - (nsectors - 1) * spare_size) in the DMA buffer. +// 2. The original byte stored at that position in the DMA buffer will be stored +// as the first byte of the FDM section in the last sector. +// We can't disagree with the BootROM, so after de-interleaving, we need to +// perform the following swaps in read: +// 1. Store the BBM at [page_size - (nsectors - 1) * spare_size] to [page_size], +// which is the expected BBM position by kernel. +// 2. Store the page data byte at [pagesize + (nsectors-1) * fdm] back to +// [page_size - (nsectors - 1) * spare_size] +// Similarly, when writing, we need to perform swaps in the other direction. + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +// NFI registers +#define NFI_CNFG 0x000 +#define CNFG_OP_MODE_S 12 +#define CNFG_OP_MODE_CUST 6 +#define CNFG_OP_MODE_PROGRAM 3 +#define CNFG_AUTO_FMT_EN BIT(9) +#define CNFG_HW_ECC_EN BIT(8) +#define CNFG_DMA_BURST_EN BIT(2) +#define CNFG_READ_MODE BIT(1) +#define CNFG_DMA_MODE BIT(0) + +#define NFI_PAGEFMT 0x0004 +#define NFI_SPARE_SIZE_LS_S 16 +#define NFI_FDM_ECC_NUM_S 12 +#define NFI_FDM_NUM_S 8 +#define NFI_SPARE_SIZE_S 4 +#define NFI_SEC_SEL_512 BIT(2) +#define NFI_PAGE_SIZE_S 0 +#define NFI_PAGE_SIZE_512_2K 0 +#define NFI_PAGE_SIZE_2K_4K 1 +#define NFI_PAGE_SIZE_4K_8K 2 +#define NFI_PAGE_SIZE_8K_16K 3 + +#define NFI_CON 0x008 +#define CON_SEC_NUM_S 12 +#define CON_BWR BIT(9) +#define CON_BRD BIT(8) +#define CON_NFI_RST BIT(1) +#define CON_FIFO_FLUSH BIT(0) + +#define NFI_INTR_EN 0x010 +#define NFI_INTR_STA 0x014 +#define NFI_IRQ_INTR_EN BIT(31) +#define NFI_IRQ_CUS_READ BIT(8) +#define NFI_IRQ_CUS_PG BIT(7) + +#define NFI_CMD 0x020 +#define NFI_CMD_DUMMY_READ 0x00 +#define NFI_CMD_DUMMY_WRITE 0x80 + +#define NFI_STRDATA 0x040 +#define STR_DATA BIT(0) + +#define NFI_STA 0x060 +#define NFI_NAND_FSM GENMASK(28, 24) +#define NFI_FSM GENMASK(19, 16) +#define READ_EMPTY BIT(12) + +#define NFI_FIFOSTA 0x064 +#define FIFO_WR_REMAIN_S 8 +#define FIFO_RD_REMAIN_S 0 + +#define NFI_ADDRCNTR 0x070 +#define SEC_CNTR GENMASK(16, 12) +#define SEC_CNTR_S 12 +#define NFI_SEC_CNTR(val) (((val)&SEC_CNTR) >> SEC_CNTR_S) + +#define NFI_STRADDR 0x080 + +#define NFI_BYTELEN 0x084 +#define BUS_SEC_CNTR(val) (((val)&SEC_CNTR) >> SEC_CNTR_S) + +#define NFI_FDM0L 0x0a0 +#define NFI_FDM0M 0x0a4 +#define NFI_FDML(n) (NFI_FDM0L + (n)*8) +#define NFI_FDMM(n) (NFI_FDM0M + (n)*8) + +#define NFI_DEBUG_CON1 0x220 +#define WBUF_EN BIT(2) + +#define NFI_MASTERSTA 0x224 +#define MAS_ADDR GENMASK(11, 9) +#define MAS_RD GENMASK(8, 6) +#define MAS_WR GENMASK(5, 3) +#define MAS_RDDLY GENMASK(2, 0) +#define NFI_MASTERSTA_MASK_7622 (MAS_ADDR | MAS_RD | MAS_WR | MAS_RDDLY) + +// SNFI registers +#define SNF_MAC_CTL 0x500 +#define MAC_XIO_SEL BIT(4) +#define SF_MAC_EN BIT(3) +#define SF_TRIG BIT(2) +#define WIP_READY BIT(1) +#define WIP BIT(0) + +#define SNF_MAC_OUTL 0x504 +#define SNF_MAC_INL 0x508 + +#define SNF_RD_CTL2 0x510 +#define DATA_READ_DUMMY_S 8 +#define DATA_READ_MAX_DUMMY 0xf +#define DATA_READ_CMD_S 0 + +#define SNF_RD_CTL3 0x514 + +#define SNF_PG_CTL1 0x524 +#define PG_LOAD_CMD_S 8 + +#define SNF_PG_CTL2 0x528 + +#define SNF_MISC_CTL 0x538 +#define SW_RST BIT(28) +#define FIFO_RD_LTC_S 25 +#define PG_LOAD_X4_EN BIT(20) +#define DATA_READ_MODE_S 16 +#define DATA_READ_MODE GENMASK(18, 16) +#define DATA_READ_MODE_X1 0 +#define DATA_READ_MODE_X2 1 +#define DATA_READ_MODE_X4 2 +#define DATA_READ_MODE_DUAL 5 +#define DATA_READ_MODE_QUAD 6 +#define PG_LOAD_CUSTOM_EN BIT(7) +#define DATARD_CUSTOM_EN BIT(6) +#define CS_DESELECT_CYC_S 0 + +#define SNF_MISC_CTL2 0x53c +#define PROGRAM_LOAD_BYTE_NUM_S 16 +#define READ_DATA_BYTE_NUM_S 11 + +#define SNF_DLY_CTL3 0x548 +#define SFCK_SAM_DLY_S 0 + +#define SNF_STA_CTL1 0x550 +#define CUS_PG_DONE BIT(28) +#define CUS_READ_DONE BIT(27) +#define SPI_STATE_S 0 +#define SPI_STATE GENMASK(3, 0) + +#define SNF_CFG 0x55c +#define SPI_MODE BIT(0) + +#define SNF_GPRAM 0x800 +#define SNF_GPRAM_SIZE 0xa0 + +#define SNFI_POLL_INTERVAL 1000000 + +static const uint8_t mt7622_spare_sizes[] = { 16, 26, 27, 28 }; + +struct mtk_snand_caps { + uint16_t sector_size; + uint16_t max_sectors; + uint16_t fdm_size; + uint16_t fdm_ecc_size; + uint16_t fifo_size; + + bool bbm_swap; + bool empty_page_check; + uint32_t mastersta_mask; + + const uint8_t *spare_sizes; + uint32_t num_spare_size; +}; + +static const struct mtk_snand_caps mt7622_snand_caps = { + .sector_size = 512, + .max_sectors = 8, + .fdm_size = 8, + .fdm_ecc_size = 1, + .fifo_size = 32, + .bbm_swap = false, + .empty_page_check = false, + .mastersta_mask = NFI_MASTERSTA_MASK_7622, + .spare_sizes = mt7622_spare_sizes, + .num_spare_size = ARRAY_SIZE(mt7622_spare_sizes) +}; + +static const struct mtk_snand_caps mt7629_snand_caps = { + .sector_size = 512, + .max_sectors = 8, + .fdm_size = 8, + .fdm_ecc_size = 1, + .fifo_size = 32, + .bbm_swap = true, + .empty_page_check = false, + .mastersta_mask = NFI_MASTERSTA_MASK_7622, + .spare_sizes = mt7622_spare_sizes, + .num_spare_size = ARRAY_SIZE(mt7622_spare_sizes) +}; + +struct mtk_snand_conf { + size_t page_size; + size_t oob_size; + u8 nsectors; + u8 spare_size; +}; + +struct mtk_snand { + struct spi_controller *ctlr; + struct device *dev; + struct clk *nfi_clk; + struct clk *pad_clk; + void __iomem *nfi_base; + int irq; + struct completion op_done; + const struct mtk_snand_caps *caps; + struct mtk_ecc_config ecc_cfg; + struct mtk_ecc *ecc; + struct mtk_snand_conf nfi_cfg; + struct mtk_ecc_stats ecc_stats; + struct nand_ecc_engine ecc_eng; + bool autofmt; + u8 *buf; + dma_addr_t buf_dma; + size_t buf_len; +}; + +static struct mtk_snand *nand_to_mtk_snand(struct nand_device *nand) +{ + struct nand_ecc_engine *eng = nand->ecc.engine; + + return container_of(eng, struct mtk_snand, ecc_eng); +} + +static inline int snand_prepare_bouncebuf(struct mtk_snand *snf, size_t size) +{ + if (snf->buf_len >= size) + return 0; + if (snf->buf) + dmam_free_coherent(snf->dev, snf->buf_len, snf->buf, + snf->buf_dma); + snf->buf = + dmam_alloc_coherent(snf->dev, size, &snf->buf_dma, GFP_KERNEL); + if (!snf->buf) + return -ENOMEM; + snf->buf_len = size; + memset(snf->buf, 0xff, snf->buf_len); + return 0; +} + +static inline uint32_t nfi_read32(struct mtk_snand *snf, uint32_t reg) +{ + return readl(snf->nfi_base + reg); +} + +static inline void nfi_write32(struct mtk_snand *snf, uint32_t reg, + uint32_t val) +{ + writel(val, snf->nfi_base + reg); +} + +static inline void nfi_write16(struct mtk_snand *snf, uint32_t reg, + uint16_t val) +{ + writew(val, snf->nfi_base + reg); +} + +static inline void nfi_rmw32(struct mtk_snand *snf, uint32_t reg, uint32_t clr, + uint32_t set) +{ + uint32_t val; + + val = readl(snf->nfi_base + reg); + val &= ~clr; + val |= set; + writel(val, snf->nfi_base + reg); +} + +static void nfi_read_data(struct mtk_snand *snf, uint32_t reg, uint8_t *data, + uint32_t len) +{ + uint32_t i, val = 0, es = sizeof(uint32_t); + + for (i = reg; i < reg + len; i++) { + if (i == reg || i % es == 0) + val = nfi_read32(snf, i & ~(es - 1)); + + *data++ = (uint8_t)(val >> (8 * (i % es))); + } +} + +static int mtk_nfi_reset(struct mtk_snand *snf) +{ + uint32_t val, fifo_mask; + int ret; + + nfi_write32(snf, NFI_CON, CON_FIFO_FLUSH | CON_NFI_RST); + + ret = readw_poll_timeout(snf->nfi_base + NFI_MASTERSTA, val, + !(val & snf->caps->mastersta_mask), 0, + SNFI_POLL_INTERVAL); + if (ret) { + dev_err(snf->dev, "NFI master is still busy after reset\n"); + return ret; + } + + ret = readl_poll_timeout(snf->nfi_base + NFI_STA, val, + !(val & (NFI_FSM | NFI_NAND_FSM)), 0, + SNFI_POLL_INTERVAL); + if (ret) { + dev_err(snf->dev, "Failed to reset NFI\n"); + return ret; + } + + fifo_mask = ((snf->caps->fifo_size - 1) << FIFO_RD_REMAIN_S) | + ((snf->caps->fifo_size - 1) << FIFO_WR_REMAIN_S); + ret = readw_poll_timeout(snf->nfi_base + NFI_FIFOSTA, val, + !(val & fifo_mask), 0, SNFI_POLL_INTERVAL); + if (ret) { + dev_err(snf->dev, "NFI FIFOs are not empty\n"); + return ret; + } + + return 0; +} + +static int mtk_snand_mac_reset(struct mtk_snand *snf) +{ + int ret; + uint32_t val; + + nfi_rmw32(snf, SNF_MISC_CTL, 0, SW_RST); + + ret = readl_poll_timeout(snf->nfi_base + SNF_STA_CTL1, val, + !(val & SPI_STATE), 0, SNFI_POLL_INTERVAL); + if (ret) + dev_err(snf->dev, "Failed to reset SNFI MAC\n"); + + nfi_write32(snf, SNF_MISC_CTL, + (2 << FIFO_RD_LTC_S) | (10 << CS_DESELECT_CYC_S)); + + return ret; +} + +static int mtk_snand_mac_trigger(struct mtk_snand *snf, uint32_t outlen, + uint32_t inlen) +{ + int ret; + uint32_t val; + + nfi_write32(snf, SNF_MAC_CTL, SF_MAC_EN); + nfi_write32(snf, SNF_MAC_OUTL, outlen); + nfi_write32(snf, SNF_MAC_INL, inlen); + + nfi_write32(snf, SNF_MAC_CTL, SF_MAC_EN | SF_TRIG); + + ret = readl_poll_timeout(snf->nfi_base + SNF_MAC_CTL, val, + val & WIP_READY, 0, SNFI_POLL_INTERVAL); + if (ret) { + dev_err(snf->dev, "Timed out waiting for WIP_READY\n"); + goto cleanup; + } + + ret = readl_poll_timeout(snf->nfi_base + SNF_MAC_CTL, val, !(val & WIP), + 0, SNFI_POLL_INTERVAL); + if (ret) + dev_err(snf->dev, "Timed out waiting for WIP cleared\n"); + +cleanup: + nfi_write32(snf, SNF_MAC_CTL, 0); + + return ret; +} + +static int mtk_snand_mac_io(struct mtk_snand *snf, const struct spi_mem_op *op) +{ + size_t rx_len = 0; + size_t reg_offs = 0; + u32 val = 0; + const u8 *tx_buf = NULL; + u8 *rx_buf = NULL; + int i, ret; + u8 b; + + if (op->data.dir == SPI_MEM_DATA_IN) { + rx_len = op->data.nbytes; + rx_buf = op->data.buf.in; + } else { + tx_buf = op->data.buf.out; + } + + mtk_snand_mac_reset(snf); + + for (i = 0; i < op->cmd.nbytes; i++, reg_offs++) { + b = (op->cmd.opcode >> ((op->cmd.nbytes - i - 1) * 8)) & 0xff; + val |= b << (8 * (reg_offs % 4)); + if (reg_offs % 4 == 3) { + nfi_write32(snf, SNF_GPRAM + reg_offs - 3, val); + val = 0; + } + } + + for (i = 0; i < op->addr.nbytes; i++, reg_offs++) { + b = (op->addr.val >> ((op->addr.nbytes - i - 1) * 8)) & 0xff; + val |= b << (8 * (reg_offs % 4)); + if (reg_offs % 4 == 3) { + nfi_write32(snf, SNF_GPRAM + reg_offs - 3, val); + val = 0; + } + } + + for (i = 0; i < op->dummy.nbytes; i++, reg_offs++) { + if (reg_offs % 4 == 3) { + nfi_write32(snf, SNF_GPRAM + reg_offs - 3, val); + val = 0; + } + } + + if (op->data.dir == SPI_MEM_DATA_OUT) { + for (i = 0; i < op->data.nbytes; i++, reg_offs++) { + val |= tx_buf[i] << (8 * (reg_offs % 4)); + if (reg_offs % 4 == 3) { + nfi_write32(snf, SNF_GPRAM + reg_offs - 3, val); + val = 0; + } + } + } + + if (reg_offs % 4 != 3) + nfi_write32(snf, SNF_GPRAM + (reg_offs & ~3), val); + + for (i = 0; i < reg_offs; i += 4) + dev_dbg(snf->dev, "%d: %08X", i, + nfi_read32(snf, SNF_GPRAM + i)); + + dev_dbg(snf->dev, "SNF TX: %lu RX: %lu", reg_offs, rx_len); + + ret = mtk_snand_mac_trigger(snf, reg_offs, rx_len); + if (ret) + return ret; + + if (!rx_len) + return 0; + + nfi_read_data(snf, SNF_GPRAM + reg_offs, rx_buf, rx_len); + return 0; +} + +static int mtk_snand_setup_pagefmt(struct mtk_snand *snf, size_t page_size, + size_t oob_size) +{ + int spare_idx = -1; + u32 msg_size, spare_size, parity_bits, max_ecc_bytes; + u32 spare_size_shift, pagesize_idx; + u32 sector_size_512; + u8 nsectors; + int i; + + // skip if it's already configured as required. + if (snf->nfi_cfg.page_size == page_size && + snf->nfi_cfg.oob_size == oob_size) + return 0; + + nsectors = page_size / snf->caps->sector_size; + if (nsectors > snf->caps->max_sectors) { + dev_err(snf->dev, "too many sectors required.\n"); + goto err; + } + + if (snf->caps->sector_size == 512) { + sector_size_512 = NFI_SEC_SEL_512; + spare_size_shift = NFI_SPARE_SIZE_S; + } else { + sector_size_512 = 0; + spare_size_shift = NFI_SPARE_SIZE_LS_S; + } + + switch (page_size) { + case SZ_512: + pagesize_idx = NFI_PAGE_SIZE_512_2K; + break; + case SZ_2K: + if (snf->caps->sector_size == 512) + pagesize_idx = NFI_PAGE_SIZE_2K_4K; + else + pagesize_idx = NFI_PAGE_SIZE_512_2K; + break; + case SZ_4K: + if (snf->caps->sector_size == 512) + pagesize_idx = NFI_PAGE_SIZE_4K_8K; + else + pagesize_idx = NFI_PAGE_SIZE_2K_4K; + break; + case SZ_8K: + if (snf->caps->sector_size == 512) + pagesize_idx = NFI_PAGE_SIZE_8K_16K; + else + pagesize_idx = NFI_PAGE_SIZE_4K_8K; + break; + case SZ_16K: + pagesize_idx = NFI_PAGE_SIZE_8K_16K; + break; + default: + dev_err(snf->dev, "unsupported page size.\n"); + goto err; + } + + spare_size = oob_size / nsectors; + // If we're using the 1KB sector size, HW will automatically double the + // spare size. We should only use half of the value in this case. + if (snf->caps->sector_size == 1024) + spare_size /= 2; + + for (i = snf->caps->num_spare_size - 1; i >= 0; i--) { + if (snf->caps->spare_sizes[i] <= spare_size) { + spare_size = snf->caps->spare_sizes[i]; + if (snf->caps->sector_size == 1024) + spare_size *= 2; + spare_idx = i; + break; + } + } + + if (spare_idx < 0) { + dev_err(snf->dev, "unsupported spare size: %u\n", spare_size); + goto err; + } + + nfi_write32(snf, NFI_PAGEFMT, + (snf->caps->fdm_ecc_size << NFI_FDM_ECC_NUM_S) | + (snf->caps->fdm_size << NFI_FDM_NUM_S) | + (spare_idx << spare_size_shift) | + (pagesize_idx << NFI_PAGE_SIZE_S) | + sector_size_512); + + msg_size = snf->caps->sector_size + snf->caps->fdm_ecc_size; + snf->ecc_cfg.len = msg_size; + parity_bits = fls(1 + 8 * msg_size); + max_ecc_bytes = spare_size - snf->caps->fdm_size; + snf->ecc_cfg.strength = max_ecc_bytes * 8 / parity_bits; + mtk_ecc_adjust_strength(snf->ecc, &snf->ecc_cfg.strength); + + snf->nfi_cfg.page_size = page_size; + snf->nfi_cfg.oob_size = oob_size; + snf->nfi_cfg.nsectors = nsectors; + snf->nfi_cfg.spare_size = spare_size; + + snf->ecc_cfg.mode = ECC_NFI_MODE; + snf->ecc_cfg.sectors = nsectors; + + dev_info(snf->dev, "page format: (%u + %u) * %u, ECC strength: %u\n", + snf->caps->sector_size, spare_size, nsectors, + snf->ecc_cfg.strength); + return snand_prepare_bouncebuf(snf, page_size + oob_size); +err: + dev_err(snf->dev, "page size %lu+%lu is not supported\n", page_size, + oob_size); + return -EOPNOTSUPP; +} + +static int mtk_snand_ooblayout_ecc(struct mtd_info *mtd, int section, + struct mtd_oob_region *oobecc) +{ + // ECC area is not accessible + return -ERANGE; +} + +static int mtk_snand_ooblayout_free(struct mtd_info *mtd, int section, + struct mtd_oob_region *oobfree) +{ + struct nand_device *nand = mtd_to_nanddev(mtd); + struct mtk_snand *ms = nand_to_mtk_snand(nand); + + if (section >= ms->nfi_cfg.nsectors) + return -ERANGE; + + oobfree->length = ms->caps->fdm_size - 1; + oobfree->offset = section * ms->caps->fdm_size + 1; + return 0; +} + +static const struct mtd_ooblayout_ops mtk_snand_ooblayout = { + .ecc = mtk_snand_ooblayout_ecc, + .free = mtk_snand_ooblayout_free, +}; + +static int mtk_snand_ecc_init_ctx(struct nand_device *nand) +{ + struct mtk_snand *snf = nand_to_mtk_snand(nand); + struct nand_ecc_props *conf = &nand->ecc.ctx.conf; + struct mtd_info *mtd = nanddev_to_mtd(nand); + int ret; + + ret = mtk_snand_setup_pagefmt(snf, nand->memorg.pagesize, + nand->memorg.oobsize); + if (ret) + return ret; + + mtd_set_ooblayout(mtd, &mtk_snand_ooblayout); + + // This driver ignores any ECC capability configured by user or + // requested by the nand chip because the BootROM and MTK bootloader + // expects the page format to be the exact one as calculated in + // setup_pagefmt. + conf->step_size = snf->caps->sector_size; + conf->strength = snf->ecc_cfg.strength; + + return 0; +} + +static int mtk_snand_ecc_prepare_io_req(struct nand_device *nand, + struct nand_page_io_req *req) +{ + struct mtk_snand *snf = nand_to_mtk_snand(nand); + int ret; + + ret = mtk_snand_setup_pagefmt(snf, nand->memorg.pagesize, + nand->memorg.oobsize); + if (ret) + return ret; + snf->autofmt = true; + return 0; +} + +static int mtk_snand_ecc_finish_io_req(struct nand_device *nand, + struct nand_page_io_req *req) +{ + struct mtk_snand *snf = nand_to_mtk_snand(nand); + struct mtd_info *mtd = nanddev_to_mtd(nand); + + snf->autofmt = false; + if ((req->mode == MTD_OPS_RAW) || (req->type != NAND_PAGE_READ)) + return 0; + + if (snf->ecc_stats.failed) + mtd->ecc_stats.failed += snf->ecc_stats.failed; + mtd->ecc_stats.corrected += snf->ecc_stats.corrected; + return snf->ecc_stats.failed ? -EBADMSG : snf->ecc_stats.bitflips; +} + +static struct nand_ecc_engine_ops mtk_snfi_ecc_engine_ops = { + .init_ctx = mtk_snand_ecc_init_ctx, + .prepare_io_req = mtk_snand_ecc_prepare_io_req, + .finish_io_req = mtk_snand_ecc_finish_io_req, +}; + +static void mtk_snand_read_fdm(struct mtk_snand *snf, uint8_t *buf) +{ + uint32_t vall, valm; + uint8_t *oobptr = buf; + int i, j; + + for (i = 0; i < snf->nfi_cfg.nsectors; i++) { + vall = nfi_read32(snf, NFI_FDML(i)); + valm = nfi_read32(snf, NFI_FDMM(i)); + + for (j = 0; j < snf->caps->fdm_size; j++) + oobptr[j] = (j >= 4 ? valm : vall) >> ((j % 4) * 8); + + oobptr += snf->caps->fdm_size; + } +} + +/** + * swap [pagesize] byte on nand with the first fdm byte in the last sector. + * + * @param snf + */ +static void mtk_snand_bm_swap(struct mtk_snand *snf) +{ + uint32_t buf_bbm_pos, fdm_bbm_pos; + + if (!snf->caps->bbm_swap || snf->nfi_cfg.nsectors == 1) + return; + + buf_bbm_pos = snf->nfi_cfg.page_size - + (snf->nfi_cfg.nsectors - 1) * snf->nfi_cfg.spare_size; + fdm_bbm_pos = snf->nfi_cfg.page_size + + (snf->nfi_cfg.nsectors - 1) * snf->caps->fdm_size; + + swap(snf->buf[fdm_bbm_pos], snf->buf[buf_bbm_pos]); +} + +/** + * swap the first fdm byte in the first and the last sector. + * + * @param snf + */ +static void mtk_snand_fdm_bm_swap(struct mtk_snand *snf) +{ + uint32_t fdm_bbm_pos1, fdm_bbm_pos2; + + if (!snf->caps->bbm_swap || snf->nfi_cfg.nsectors == 1) + return; + + fdm_bbm_pos1 = snf->nfi_cfg.page_size; + fdm_bbm_pos2 = snf->nfi_cfg.page_size + + (snf->nfi_cfg.nsectors - 1) * snf->caps->fdm_size; + swap(snf->buf[fdm_bbm_pos1], snf->buf[fdm_bbm_pos2]); +} + +static int mtk_snand_read_page_cache(struct mtk_snand *snf, + const struct spi_mem_op *op) +{ + // the address part to be sent by the controller + u32 op_addr = op->addr.val; + // where to start copying data from bounce buffer + u32 rd_offset = 0; + u32 dummy_clk = (op->dummy.nbytes * BITS_PER_BYTE / op->dummy.buswidth); + u32 op_mode = 0; + int ret = 0; + u32 rd_mode, rd_bytes, val; + + if (snf->autofmt) { + u32 last_bit; + u32 mask; + + op_mode = CNFG_AUTO_FMT_EN; + if (op->data.ecc) + op_mode |= CNFG_HW_ECC_EN; + // extract the plane bit: + // Find the highest bit set in (pagesize+oobsize). + // Bits higher than that in op->addr are kept and sent over SPI + // Lower bits are used as an offset for copying data from DMA + // bounce buffer. + last_bit = fls(snf->nfi_cfg.page_size + snf->nfi_cfg.oob_size); + mask = (1 << last_bit) - 1; + rd_offset = op_addr & mask; + op_addr &= ~mask; + } + mtk_snand_mac_reset(snf); + mtk_nfi_reset(snf); + + // command and dummy cycles + nfi_write32(snf, SNF_RD_CTL2, + (dummy_clk << DATA_READ_DUMMY_S) | + (op->cmd.opcode << DATA_READ_CMD_S)); + + // read address + nfi_write32(snf, SNF_RD_CTL3, op_addr); + + // Set read op_mode + if (op->data.buswidth == 4) + rd_mode = op->addr.buswidth == 4 ? DATA_READ_MODE_QUAD : + DATA_READ_MODE_X4; + else if (op->data.buswidth == 2) + rd_mode = op->addr.buswidth == 2 ? DATA_READ_MODE_DUAL : + DATA_READ_MODE_X2; + else + rd_mode = DATA_READ_MODE_X1; + rd_mode <<= DATA_READ_MODE_S; + nfi_rmw32(snf, SNF_MISC_CTL, DATA_READ_MODE, + rd_mode | DATARD_CUSTOM_EN); + + // Set bytes to read + rd_bytes = (snf->nfi_cfg.spare_size + snf->caps->sector_size) * + snf->nfi_cfg.nsectors; + nfi_write32(snf, SNF_MISC_CTL2, + (rd_bytes << PROGRAM_LOAD_BYTE_NUM_S) | rd_bytes); + + // NFI read prepare + nfi_write16(snf, NFI_CNFG, + (CNFG_OP_MODE_CUST << CNFG_OP_MODE_S) | CNFG_DMA_BURST_EN | + CNFG_READ_MODE | CNFG_DMA_MODE | op_mode); + + nfi_write32(snf, NFI_CON, (snf->nfi_cfg.nsectors << CON_SEC_NUM_S)); + nfi_write32(snf, NFI_STRADDR, (u32)snf->buf_dma); + if (op->data.ecc) { + snf->ecc_cfg.op = ECC_DECODE; + ret = mtk_ecc_enable(snf->ecc, &snf->ecc_cfg); + if (ret) + goto cleanup; + } + // Prepare for custom read interrupt + nfi_write32(snf, NFI_INTR_EN, NFI_IRQ_INTR_EN | NFI_IRQ_CUS_READ); + reinit_completion(&snf->op_done); + + // Trigger NFI into custom mode + nfi_write16(snf, NFI_CMD, NFI_CMD_DUMMY_READ); + + // Start DMA read + nfi_rmw32(snf, NFI_CON, 0, CON_BRD); + nfi_write16(snf, NFI_STRDATA, STR_DATA); + + if (!wait_for_completion_timeout( + &snf->op_done, usecs_to_jiffies(SNFI_POLL_INTERVAL))) { + dev_err(snf->dev, "DMA timed out for reading from cache.\n"); + ret = -ETIMEDOUT; + goto cleanup; + } + + // Wait for BUS_SEC_CNTR returning expected value + ret = readl_poll_timeout(snf->nfi_base + NFI_BYTELEN, val, + BUS_SEC_CNTR(val) >= snf->nfi_cfg.nsectors, 0, + SNFI_POLL_INTERVAL); + if (ret) { + dev_err(snf->dev, "Timed out waiting for BUS_SEC_CNTR\n"); + goto cleanup2; + } + + // Wait for bus becoming idle + ret = readl_poll_timeout(snf->nfi_base + NFI_MASTERSTA, val, + !(val & snf->caps->mastersta_mask), 0, + SNFI_POLL_INTERVAL); + if (ret) { + dev_err(snf->dev, "Timed out waiting for bus becoming idle\n"); + goto cleanup2; + } + + if (op->data.ecc) { + ret = mtk_ecc_wait_done(snf->ecc, ECC_DECODE); + if (ret) { + dev_err(snf->dev, "wait ecc done timeout\n"); + goto cleanup2; + } + // save status before disabling ecc + mtk_ecc_get_stats(snf->ecc, &snf->ecc_stats, + snf->nfi_cfg.nsectors); + } + + if (snf->autofmt) { + mtk_snand_read_fdm(snf, snf->buf + snf->nfi_cfg.page_size); + if (snf->caps->bbm_swap) { + mtk_snand_bm_swap(snf); + mtk_snand_fdm_bm_swap(snf); + } + } + + // copy data back + if (nfi_read32(snf, NFI_STA) & READ_EMPTY) { + memset(op->data.buf.in, 0xff, op->data.nbytes); + snf->ecc_stats.bitflips = 0; + snf->ecc_stats.failed = 0; + snf->ecc_stats.corrected = 0; + } else { + if (rd_offset < snf->buf_len) { + u32 cap_len = snf->buf_len - rd_offset; + + if (op->data.nbytes < cap_len) + cap_len = op->data.nbytes; + memcpy(op->data.buf.in, snf->buf + rd_offset, cap_len); + } + } +cleanup2: + if (op->data.ecc) + mtk_ecc_disable(snf->ecc); +cleanup: + // Stop read + nfi_write32(snf, NFI_CON, 0); + nfi_write16(snf, NFI_CNFG, 0); + + // Clear SNF done flag + nfi_rmw32(snf, SNF_STA_CTL1, 0, CUS_READ_DONE); + nfi_write32(snf, SNF_STA_CTL1, 0); + + // Disable interrupt + nfi_read32(snf, NFI_INTR_STA); + nfi_write32(snf, NFI_INTR_EN, 0); + + nfi_rmw32(snf, SNF_MISC_CTL, DATARD_CUSTOM_EN, 0); + + return ret; +} + +static int mtk_snand_write_page_cache(struct mtk_snand *snf, + const struct spi_mem_op *op) +{ + // the address part to be sent by the controller + u32 op_addr = op->addr.val; + // where to start copying data from bounce buffer + u32 wr_offset = 0; + u32 op_mode = 0; + int ret = 0; + u32 wr_mode = 0; + u32 wr_bytes, val; + size_t cap_len; + + if (snf->autofmt) { + u32 last_bit; + u32 mask; + + op_mode = CNFG_AUTO_FMT_EN; + if (op->data.ecc) + op_mode |= CNFG_HW_ECC_EN; + + last_bit = fls(snf->nfi_cfg.page_size + snf->nfi_cfg.oob_size); + mask = (1 << last_bit) - 1; + wr_offset = op_addr & mask; + op_addr &= ~mask; + } + mtk_snand_mac_reset(snf); + mtk_nfi_reset(snf); + + if (wr_offset) + memset(snf->buf, 0xff, wr_offset); + + cap_len = snf->buf_len - wr_offset; + if (op->data.nbytes < cap_len) + cap_len = op->data.nbytes; + memcpy(snf->buf + wr_offset, op->data.buf.out, cap_len); + if (snf->autofmt && snf->caps->bbm_swap) { + mtk_snand_fdm_bm_swap(snf); + mtk_snand_bm_swap(snf); + } + + // Command + nfi_write32(snf, SNF_PG_CTL1, (op->cmd.opcode << PG_LOAD_CMD_S)); + + // write address + nfi_write32(snf, SNF_PG_CTL2, op_addr); + + // Set read op_mode + if (op->data.buswidth == 4) + wr_mode = PG_LOAD_X4_EN; + + nfi_rmw32(snf, SNF_MISC_CTL, PG_LOAD_X4_EN, + wr_mode | PG_LOAD_CUSTOM_EN); + + // Set bytes to write + wr_bytes = (snf->nfi_cfg.spare_size + snf->caps->sector_size) * + snf->nfi_cfg.nsectors; + nfi_write32(snf, SNF_MISC_CTL2, + (wr_bytes << PROGRAM_LOAD_BYTE_NUM_S) | wr_bytes); + + // NFI write prepare + nfi_write16(snf, NFI_CNFG, + (CNFG_OP_MODE_PROGRAM << CNFG_OP_MODE_S) | + CNFG_DMA_BURST_EN | CNFG_DMA_MODE | op_mode); + + nfi_write32(snf, NFI_CON, (snf->nfi_cfg.nsectors << CON_SEC_NUM_S)); + nfi_write32(snf, NFI_STRADDR, (u32)snf->buf_dma); + if (op->data.ecc) { + snf->ecc_cfg.op = ECC_ENCODE; + ret = mtk_ecc_enable(snf->ecc, &snf->ecc_cfg); + if (ret) + goto cleanup; + } + // Prepare for custom write interrupt + nfi_write32(snf, NFI_INTR_EN, NFI_IRQ_INTR_EN | NFI_IRQ_CUS_PG); + reinit_completion(&snf->op_done); + ; + + // Trigger NFI into custom mode + nfi_write16(snf, NFI_CMD, NFI_CMD_DUMMY_WRITE); + + // Start DMA write + nfi_rmw32(snf, NFI_CON, 0, CON_BWR); + nfi_write16(snf, NFI_STRDATA, STR_DATA); + + if (!wait_for_completion_timeout( + &snf->op_done, usecs_to_jiffies(SNFI_POLL_INTERVAL))) { + dev_err(snf->dev, "DMA timed out for program load.\n"); + ret = -ETIMEDOUT; + goto cleanup; + } + + // Wait for NFI_SEC_CNTR returning expected value + ret = readl_poll_timeout(snf->nfi_base + NFI_ADDRCNTR, val, + NFI_SEC_CNTR(val) >= snf->nfi_cfg.nsectors, 0, + SNFI_POLL_INTERVAL); + if (ret) + dev_err(snf->dev, "Timed out waiting for NFI_SEC_CNTR\n"); + + if (op->data.ecc) + mtk_ecc_disable(snf->ecc); +cleanup: + // Stop write + nfi_write32(snf, NFI_CON, 0); + nfi_write16(snf, NFI_CNFG, 0); + + // Clear SNF done flag + nfi_rmw32(snf, SNF_STA_CTL1, 0, CUS_PG_DONE); + nfi_write32(snf, SNF_STA_CTL1, 0); + + // Disable interrupt + nfi_read32(snf, NFI_INTR_STA); + nfi_write32(snf, NFI_INTR_EN, 0); + + nfi_rmw32(snf, SNF_MISC_CTL, PG_LOAD_CUSTOM_EN, 0); + + return ret; +} + +/** + * Check whether op can be executed with read_from_cache or program_load + * mode in the controller. + * This controller can execute typical Read From Cache and Program Load + * instructions found on SPI-NAND with 2-byte address. + * Note: DTR and cmd buswidth & nbytes should be checked before calling this. + * + * @param op spi-mem op to check + * @return true if the op matches the instruction template + */ +static bool mtk_snand_is_page_ops(const struct spi_mem_op *op) +{ + if (op->addr.nbytes != 2) + return false; + + if (op->addr.buswidth != 1 && op->addr.buswidth != 2 && + op->addr.buswidth != 4) + return false; + + // match read from page instructions + if (op->data.dir == SPI_MEM_DATA_IN) { + // check dummy cycle first + if (op->dummy.nbytes * BITS_PER_BYTE / op->dummy.buswidth > + DATA_READ_MAX_DUMMY) + return false; + // quad io / quad out + if ((op->addr.buswidth == 4 || op->addr.buswidth == 1) && + op->data.buswidth == 4) + return true; + + // dual io / dual out + if ((op->addr.buswidth == 2 || op->addr.buswidth == 1) && + op->data.buswidth == 2) + return true; + + // standard spi + if (op->addr.buswidth == 1 && op->data.buswidth == 1) + return true; + } else if (op->data.dir == SPI_MEM_DATA_OUT) { + // check dummy cycle first + if (op->dummy.nbytes) + return false; + // program load quad out + if (op->addr.buswidth == 1 && op->data.buswidth == 4) + return true; + // standard spi + if (op->addr.buswidth == 1 && op->data.buswidth == 1) + return true; + } + return false; +} + +static bool mtk_snand_supports_op(struct spi_mem *mem, + const struct spi_mem_op *op) +{ + if (!spi_mem_default_supports_op(mem, op)) + return false; + if (op->cmd.nbytes != 1 || op->cmd.buswidth != 1) + return false; + if (mtk_snand_is_page_ops(op)) + return true; + return ((op->addr.nbytes == 0 || op->addr.buswidth == 1) && + (op->dummy.nbytes == 0 || op->dummy.buswidth == 1) && + (op->data.nbytes == 0 || op->data.buswidth == 1)); +} + +static int mtk_snand_adjust_op_size(struct spi_mem *mem, struct spi_mem_op *op) +{ + struct mtk_snand *ms = spi_controller_get_devdata(mem->spi->master); + // page ops transfer size must be exactly ((sector_size + spare_size) * + // nsectors). Limit the op size if the caller requests more than that. + // exec_op will read more than needed and discard the leftover if the + // caller requests less data. + if (mtk_snand_is_page_ops(op)) { + size_t l; + // skip adjust_op_size for page ops + if (ms->autofmt) + return 0; + l = ms->caps->sector_size + ms->nfi_cfg.spare_size; + l *= ms->nfi_cfg.nsectors; + if (op->data.nbytes > l) + op->data.nbytes = l; + } else { + size_t hl = op->cmd.nbytes + op->addr.nbytes + op->dummy.nbytes; + + if (hl >= SNF_GPRAM_SIZE) + return -EOPNOTSUPP; + if (op->data.nbytes > SNF_GPRAM_SIZE - hl) + op->data.nbytes = SNF_GPRAM_SIZE - hl; + } + return 0; +} + +static int mtk_snand_exec_op(struct spi_mem *mem, const struct spi_mem_op *op) +{ + struct mtk_snand *ms = spi_controller_get_devdata(mem->spi->master); + + dev_dbg(ms->dev, "OP %02x ADDR %08llX@%d:%u DATA %d:%u", op->cmd.opcode, + op->addr.val, op->addr.buswidth, op->addr.nbytes, + op->data.buswidth, op->data.nbytes); + if (mtk_snand_is_page_ops(op)) { + if (op->data.dir == SPI_MEM_DATA_IN) + return mtk_snand_read_page_cache(ms, op); + else + return mtk_snand_write_page_cache(ms, op); + } else { + return mtk_snand_mac_io(ms, op); + } +} + +static const struct spi_controller_mem_ops mtk_snand_mem_ops = { + .adjust_op_size = mtk_snand_adjust_op_size, + .supports_op = mtk_snand_supports_op, + .exec_op = mtk_snand_exec_op, +}; + +static const struct spi_controller_mem_caps mtk_snand_mem_caps = { + .ecc = true, +}; + +static irqreturn_t mtk_snand_irq(int irq, void *id) +{ + struct mtk_snand *snf = id; + uint32_t sta, ien; + + sta = nfi_read32(snf, NFI_INTR_STA); + ien = nfi_read32(snf, NFI_INTR_EN); + + if (!(sta & ien)) + return IRQ_NONE; + + nfi_write32(snf, NFI_INTR_EN, 0); + complete(&snf->op_done); + return IRQ_HANDLED; +} + +static const struct of_device_id mtk_snand_ids[] = { + { .compatible = "mediatek,mt7622-snand", .data = &mt7622_snand_caps }, + { .compatible = "mediatek,mt7629-snand", .data = &mt7629_snand_caps }, + {}, +}; + +MODULE_DEVICE_TABLE(of, mtk_snand_ids); + +static int mtk_snand_enable_clk(struct mtk_snand *ms) +{ + int ret; + + ret = clk_prepare_enable(ms->nfi_clk); + if (ret) { + dev_err(ms->dev, "unable to enable nfi clk\n"); + return ret; + } + ret = clk_prepare_enable(ms->pad_clk); + if (ret) { + dev_err(ms->dev, "unable to enable pad clk\n"); + goto err1; + } + return 0; +err1: + clk_disable_unprepare(ms->nfi_clk); + return ret; +} + +static void mtk_snand_disable_clk(struct mtk_snand *ms) +{ + clk_disable_unprepare(ms->pad_clk); + clk_disable_unprepare(ms->nfi_clk); +} + +static int mtk_snand_probe(struct platform_device *pdev) +{ + struct device_node *np = pdev->dev.of_node; + const struct of_device_id *dev_id; + struct spi_controller *ctlr; + struct mtk_snand *ms; + int ret; + + dev_id = of_match_node(mtk_snand_ids, np); + if (!dev_id) + return -EINVAL; + + ctlr = devm_spi_alloc_master(&pdev->dev, sizeof(*ms)); + if (!ctlr) + return -ENOMEM; + platform_set_drvdata(pdev, ctlr); + + ms = spi_controller_get_devdata(ctlr); + + ms->ctlr = ctlr; + ms->caps = dev_id->data; + + ms->ecc = of_mtk_ecc_get(np); + if (IS_ERR(ms->ecc)) + return PTR_ERR(ms->ecc); + else if (!ms->ecc) + return -ENODEV; + + ms->nfi_base = devm_platform_ioremap_resource(pdev, 0); + if (IS_ERR(ms->nfi_base)) { + ret = PTR_ERR(ms->nfi_base); + goto release_ecc; + } + + ms->dev = &pdev->dev; + + ms->nfi_clk = devm_clk_get(&pdev->dev, "nfi_clk"); + if (IS_ERR(ms->nfi_clk)) { + ret = PTR_ERR(ms->nfi_clk); + dev_err(&pdev->dev, "unable to get nfi_clk, err = %d\n", ret); + goto release_ecc; + } + + ms->pad_clk = devm_clk_get(&pdev->dev, "pad_clk"); + if (IS_ERR(ms->pad_clk)) { + ret = PTR_ERR(ms->pad_clk); + dev_err(&pdev->dev, "unable to get pad_clk, err = %d\n", ret); + goto release_ecc; + } + + ret = mtk_snand_enable_clk(ms); + if (ret) + goto release_ecc; + + init_completion(&ms->op_done); + + ms->irq = platform_get_irq(pdev, 0); + if (ms->irq < 0) { + ret = ms->irq; + goto disable_clk; + } + ret = devm_request_irq(ms->dev, ms->irq, mtk_snand_irq, 0x0, + "mtk-snand", ms); + if (ret) { + dev_err(ms->dev, "failed to request snfi irq\n"); + goto disable_clk; + } + + ret = dma_set_mask(ms->dev, DMA_BIT_MASK(32)); + if (ret) { + dev_err(ms->dev, "failed to set dma mask\n"); + goto disable_clk; + } + + // setup an initial page format for ops matching page_cache_op template + // before ECC is called. + ret = mtk_snand_setup_pagefmt(ms, ms->caps->sector_size, + ms->caps->spare_sizes[0]); + if (ret) { + dev_err(ms->dev, "failed to set initial page format\n"); + goto disable_clk; + } + + // setup ECC engine + ms->ecc_eng.dev = &pdev->dev; + ms->ecc_eng.integration = NAND_ECC_ENGINE_INTEGRATION_PIPELINED; + ms->ecc_eng.ops = &mtk_snfi_ecc_engine_ops; + ms->ecc_eng.priv = ms; + + ret = nand_ecc_register_on_host_hw_engine(&ms->ecc_eng); + if (ret) { + dev_err(&pdev->dev, "failed to register ecc engine.\n"); + goto disable_clk; + } + + ctlr->num_chipselect = 1; + ctlr->mem_ops = &mtk_snand_mem_ops; + ctlr->mem_caps = &mtk_snand_mem_caps; + ctlr->bits_per_word_mask = SPI_BPW_MASK(8); + ctlr->mode_bits = SPI_RX_DUAL | SPI_RX_QUAD | SPI_TX_DUAL | SPI_TX_QUAD; + ctlr->dev.of_node = pdev->dev.of_node; + ret = spi_register_controller(ctlr); + if (ret) { + dev_err(&pdev->dev, "spi_register_controller failed.\n"); + goto disable_clk; + } + + return 0; +disable_clk: + mtk_snand_disable_clk(ms); +release_ecc: + mtk_ecc_release(ms->ecc); + return ret; +} + +static int mtk_snand_remove(struct platform_device *pdev) +{ + struct spi_controller *ctlr = platform_get_drvdata(pdev); + struct mtk_snand *ms = spi_controller_get_devdata(ctlr); + + spi_unregister_controller(ctlr); + mtk_snand_disable_clk(ms); + mtk_ecc_release(ms->ecc); + return 0; +} + +static struct platform_driver mtk_snand_driver = { + .probe = mtk_snand_probe, + .remove = mtk_snand_remove, + .driver = { + .name = "mtk-snand", + .of_match_table = mtk_snand_ids, + }, +}; + +module_platform_driver(mtk_snand_driver); + +MODULE_LICENSE("GPL"); +MODULE_AUTHOR("Chuanhong Guo "); +MODULE_DESCRIPTION("MeidaTek SPI-NAND Flash Controller Driver"); From patchwork Sun Apr 3 13:14:52 2022 Content-Type: text/plain; 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Sun, 03 Apr 2022 06:15:53 -0700 (PDT) Received: from guoguo-omen.lan ([2001:250:3000:7000:7978:d40d:86ff:591d]) by smtp.gmail.com with ESMTPSA id w19-20020a056a0014d300b004fae5e3970csm9272416pfu.35.2022.04.03.06.15.46 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sun, 03 Apr 2022 06:15:52 -0700 (PDT) From: Chuanhong Guo To: linux-spi@vger.kernel.org Cc: Chuanhong Guo , Mark Brown , Rob Herring , Krzysztof Kozlowski , Matthias Brugger , Miquel Raynal , Richard Weinberger , Vignesh Raghavendra , Roger Quadros , Thomas Bogendoerfer , Cai Huoqing , Florian Fainelli , Colin Ian King , Wolfram Sang , Paul Cercueil , Pratyush Yadav , Yu Kuai , devicetree@vger.kernel.org (open list:OPEN FIRMWARE AND FLATTENED DEVICE TREE BINDINGS), linux-arm-kernel@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-mediatek@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-kernel@vger.kernel.org (open list), linux-mtd@lists.infradead.org (open list:NAND FLASH SUBSYSTEM) Subject: [PATCH resend 3/4] dt-bindings: spi: add binding doc for spi-mtk-snfi Date: Sun, 3 Apr 2022 21:14:52 +0800 Message-Id: <20220403131453.1269229-4-gch981213@gmail.com> X-Mailer: git-send-email 2.35.1 In-Reply-To: <20220403131453.1269229-1-gch981213@gmail.com> References: <20220403131453.1269229-1-gch981213@gmail.com> MIME-Version: 1.0 X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20220403_061554_476215_9D420EA9 X-CRM114-Status: GOOD ( 13.87 ) X-BeenThere: linux-arm-kernel@lists.infradead.org X-Mailman-Version: 2.1.34 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Sender: "linux-arm-kernel" Errors-To: linux-arm-kernel-bounces+linux-arm-kernel=archiver.kernel.org@lists.infradead.org Add device-tree binding documentation for Mediatek SPI-NAND Flash Interface. Signed-off-by: Chuanhong Guo --- .../bindings/spi/mediatek,spi-mtk-snfi.yaml | 87 +++++++++++++++++++ 1 file changed, 87 insertions(+) create mode 100644 Documentation/devicetree/bindings/spi/mediatek,spi-mtk-snfi.yaml diff --git a/Documentation/devicetree/bindings/spi/mediatek,spi-mtk-snfi.yaml b/Documentation/devicetree/bindings/spi/mediatek,spi-mtk-snfi.yaml new file mode 100644 index 000000000000..166c6b50b9d1 --- /dev/null +++ b/Documentation/devicetree/bindings/spi/mediatek,spi-mtk-snfi.yaml @@ -0,0 +1,87 @@ +# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) +%YAML 1.2 +--- +$id: http://devicetree.org/schemas/spi/mediatek,spi-mtk-snfi.yaml# +$schema: http://devicetree.org/meta-schemas/core.yaml# + +title: SPI-NAND flash controller for MediaTek ARM SoCs + +maintainers: + - Chuanhong Guo + +description: | + The Mediatek SPI-NAND flash controller is an extended version of + the Mediatek NAND flash controller. It can perform standard SPI + instructions with one continuous write and one read for up-to 0xa0 + bytes. It also supports typical SPI-NAND page cache operations + in single, dual or quad IO mode with piplined ECC encoding/decoding + using the accompanying ECC engine. There should be only one spi + slave device following generic spi bindings. + +allOf: + - $ref: /schemas/spi/spi-controller.yaml# + +properties: + compatible: + enum: + - mediatek,mt7622-snand + - mediatek,mt7629-snand + reg: + items: + - description: core registers + + interrupts: + items: + - description: NFI interrupt + + clocks: + items: + - description: clock used for the controller + - description: clock used for the SPI bus + + clock-names: + items: + - const: nfi_clk + - const: pad_clk + + ecc-engine: + description: device-tree node of the accompanying ECC engine. + $ref: /schemas/types.yaml#/definitions/phandle + +required: + - compatible + - reg + - interrupts + - clocks + - clock-names + - ecc-engine + +unevaluatedProperties: false + +examples: + - | + #include + #include + #include + soc { + #address-cells = <2>; + #size-cells = <2>; + snfi: spi@1100d000 { + compatible = "mediatek,mt7622-snand"; + reg = <0 0x1100d000 0 0x1000>; + interrupts = ; + clocks = <&pericfg CLK_PERI_NFI_PD>, <&pericfg CLK_PERI_SNFI_PD>; + clock-names = "nfi_clk", "pad_clk"; + ecc-engine = <&bch>; + #address-cells = <1>; + #size-cells = <0>; + + flash@0 { + compatible = "spi-nand"; + reg = <0>; + spi-tx-bus-width = <4>; + spi-rx-bus-width = <4>; + nand-ecc-engine = <&snfi>; + }; + }; + }; From patchwork Sun Apr 3 13:14:53 2022 Content-Type: text/plain; charset="utf-8" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit X-Patchwork-Submitter: Chuanhong Guo X-Patchwork-Id: 12799602 Return-Path: X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on aws-us-west-2-korg-lkml-1.web.codeaurora.org Received: from bombadil.infradead.org (bombadil.infradead.org [198.137.202.133]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by smtp.lore.kernel.org (Postfix) with ESMTPS id 2BA77C433EF for ; Sun, 3 Apr 2022 13:25:42 +0000 (UTC) DKIM-Signature: v=1; a=rsa-sha256; q=dns/txt; c=relaxed/relaxed; d=lists.infradead.org; s=bombadil.20210309; h=Sender: Content-Transfer-Encoding:Content-Type:List-Subscribe:List-Help:List-Post: List-Archive:List-Unsubscribe:List-Id:MIME-Version:References:In-Reply-To: Message-Id:Date:Subject:Cc:To:From:Reply-To:Content-ID:Content-Description: Resent-Date:Resent-From:Resent-Sender:Resent-To:Resent-Cc:Resent-Message-ID: List-Owner; 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Sun, 03 Apr 2022 06:16:00 -0700 (PDT) Received: from guoguo-omen.lan ([2001:250:3000:7000:7978:d40d:86ff:591d]) by smtp.gmail.com with ESMTPSA id w19-20020a056a0014d300b004fae5e3970csm9272416pfu.35.2022.04.03.06.15.53 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sun, 03 Apr 2022 06:16:00 -0700 (PDT) From: Chuanhong Guo To: linux-spi@vger.kernel.org Cc: Chuanhong Guo , Mark Brown , Rob Herring , Krzysztof Kozlowski , Matthias Brugger , Miquel Raynal , Richard Weinberger , Vignesh Raghavendra , Roger Quadros , Thomas Bogendoerfer , Cai Huoqing , Florian Fainelli , Colin Ian King , Wolfram Sang , Paul Cercueil , Pratyush Yadav , Yu Kuai , devicetree@vger.kernel.org (open list:OPEN FIRMWARE AND FLATTENED DEVICE TREE BINDINGS), linux-arm-kernel@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-mediatek@lists.infradead.org (moderated list:ARM/Mediatek SoC support), linux-kernel@vger.kernel.org (open list), linux-mtd@lists.infradead.org (open list:NAND FLASH SUBSYSTEM) Subject: [PATCH resend 4/4] arm64: dts: mediatek: add dt node for MTK SNFI Date: Sun, 3 Apr 2022 21:14:53 +0800 Message-Id: <20220403131453.1269229-5-gch981213@gmail.com> X-Mailer: git-send-email 2.35.1 In-Reply-To: <20220403131453.1269229-1-gch981213@gmail.com> References: <20220403131453.1269229-1-gch981213@gmail.com> MIME-Version: 1.0 X-CRM114-Version: 20100106-BlameMichelson ( TRE 0.8.0 (BSD) ) MR-646709E3 X-CRM114-CacheID: sfid-20220403_061601_609479_49B2F14D X-CRM114-Status: UNSURE ( 9.92 ) X-CRM114-Notice: Please train this message. X-BeenThere: linux-arm-kernel@lists.infradead.org X-Mailman-Version: 2.1.34 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Sender: "linux-arm-kernel" Errors-To: linux-arm-kernel-bounces+linux-arm-kernel=archiver.kernel.org@lists.infradead.org This patch adds a device-tree node for the MTK SPI-NAND Flash Interface. Signed-off-by: Chuanhong Guo --- arch/arm64/boot/dts/mediatek/mt7622.dtsi | 12 ++++++++++++ 1 file changed, 12 insertions(+) diff --git a/arch/arm64/boot/dts/mediatek/mt7622.dtsi b/arch/arm64/boot/dts/mediatek/mt7622.dtsi index 6f8cb3ad1e84..40112fdca67e 100644 --- a/arch/arm64/boot/dts/mediatek/mt7622.dtsi +++ b/arch/arm64/boot/dts/mediatek/mt7622.dtsi @@ -545,6 +545,18 @@ nandc: nfi@1100d000 { status = "disabled"; }; + snfi: spi@1100d000 { + compatible = "mediatek,mt7622-snand"; + reg = <0 0x1100d000 0 0x1000>; + interrupts = ; + clocks = <&pericfg CLK_PERI_NFI_PD>, <&pericfg CLK_PERI_SNFI_PD>; + clock-names = "nfi_clk", "pad_clk"; + ecc-engine = <&bch>; + #address-cells = <1>; + #size-cells = <0>; + status = "disabled"; + }; + bch: ecc@1100e000 { compatible = "mediatek,mt7622-ecc"; reg = <0 0x1100e000 0 0x1000>;