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S5PV210之Nand flash驱动编写

大家好,又到了天嵌【嵌入式分享】的时间,相对于前几期【嵌入式分享】做的主要是TQ335X开发板的技术分享,本期决定做同是cortex-a8系列的TQ210开发板的技术分享。本期是关于TQ210开发板的

大家好,又到了天嵌【嵌入式共享】的时刻,相对于前几期【嵌入式共享】做的主要是TQ335X开发板的技能共享,本期决定做同是cortex-a8系列的TQ210开发板的技能共享。本期是关于TQ210开发板的Nand flash驱动编写,或许源码部分会比较多,本文由博主girlkoo编写,感谢他的共享。

跟裸机程序相同,S5PV210(TQ210)的Nand flash模块跟S3C2440(TQ2440)的Nand flash模块十分类似,假如不引进ECC,驱动程序的编写也十分简略,我是运用的Linux-3.8.6(Linux-3.8.3也相同)内核,驱动的API函数有些改变,不过原理是相通的,略微看一下内核源码并参阅下其他渠道的相关代码就能够自己写出Nand flash驱动了,下面是Nand flash驱动的源码,没有启用ECC,当然,你也能够改成软件ECC,可是我的觉得已然软件ECC不如HWECC快,我就选用硬件ECC吧。

#include

#include

#include

#include

#include

#include

#include

#include

struct s5p_nand_regs{

unsigned long nfconf;

unsigned long nfcont;

unsigned long nfcmmd;

unsigned long nfaddr;

unsigned long nfdata;

unsigned long nfmeccd0;

unsigned long nfmeccd1;

unsigned long nfseccd;

unsigned long nfsblk;

unsigned long nfeblk;

unsigned long nfstat;

unsigned long nfeccerr0;

unsigned long nfeccerr1;

unsigned long nfmecc0;

unsigned long nfmecc1;

unsigned long nfsecc;

unsigned long nfmlcbitpt;

};

struct s5p_nand_ecc{

unsigned long nfeccconf;

unsigned long nfecccont;

unsigned long nfeccstat;

unsigned long nfeccsecstat;

unsigned long nfeccprgecc0;

unsigned long nfeccprgecc1;

unsigned long nfeccprgecc2;

unsigned long nfeccprgecc3;

unsigned long nfeccprgecc4;

unsigned long nfeccprgecc5;

unsigned long nfeccprgecc6;

unsigned long nfeccerl0;

unsigned long nfeccerl1;

unsigned long nfeccerl2;

unsigned long nfeccerl3;

unsigned long nfeccerl4;

unsigned long nfeccerl5;

unsigned long nfeccerl6;

unsigned long nfeccerl7;

unsigned long nfeccerp0;

unsigned long nfeccerp1;

unsigned long nfeccerp2;

unsigned long nfeccerp3;

unsigned long nfeccconecc0;

unsigned long nfeccconecc1;

unsigned long nfeccconecc2;

unsigned long nfeccconecc3;

unsigned long nfeccconecc4;

unsigned long nfeccconecc5;

unsigned long nfeccconecc6;

};

static struct nand_chip *nand_chip;

static struct mtd_info *s5p_mtd_info;

static struct s5p_nand_regs *s5p_nand_regs;

static struct s5p_nand_ecc *s5p_nand_ecc;

static struct clk *s5p_nand_clk;

static struct mtd_partition s5p_nand_partions[] = {

[0] = {

.name = bootloader,

.offset = 0,

.size = SZ_1M,

},

[1] = {

.name = kernel,

.offset = MTDPART_OFS_APPEND,

.size = 5*SZ_1M,

},

[2] = {

.name = rootfs,

.offset = MTDPART_OFS_APPEND,

.size = MTDPART_SIZ_FULL,

},

};

static void s5p_nand_select_chip(struct mtd_info *mtd, int chipnr){

if(chipnr == -1){

s5p_nand_regs->nfcont |= (11);

}

else{

s5p_nand_regs->nfcont = ~(11);

}

}

static void s5p_nand_cmd_ctrl(struct mtd_info *mtd, int cmd, unsigned int ctrl)

{

if (ctrl NAND_CLE){

s5p_nand_regs->nfcmmd = cmd;

}

else{

s5p_nand_regs->nfaddr = cmd;

}

}

static int s5p_nand_ready(struct mtd_info *mtd){

return (s5p_nand_regs->nfstat 0x1);

}

static int s5p_nand_probe(struct platform_device *pdev){

int ret = 0;

struct resource *mem;

//硬件部分初始化

mem = platform_get_resource(pdev, IORESOURCE_MEM, 0);

if (!mem) {

dev_err(pdev->dev, can’t get I/O resource mem\n);

return -ENXIO;

}

s5p_nand_regs = (struct s5p_nand_regs *)ioremap(mem->start, resource_size(mem));

if (s5p_nand_regs == NULL) {

dev_err(pdev->dev, ioremap failed\n);

ret = -EIO;

goto err_exit;

}

s5p_nand_ecc = (struct s5p_nand_ecc *)ioremap(0xB0E20000, sizeof(struct s5p_nand_ecc));

if(s5p_nand_ecc == NULL){

dev_err(pdev->dev, ioremap failed\n);

ret = -EIO;

goto err_iounmap;

}

s5p_nand_clk = clk_get(pdev->dev, nand);

if(s5p_nand_clk == NULL){

dev_dbg(pdev->dev, get clk failed\n);

ret = -ENODEV;

goto err_iounmap;

}

clk_enable(s5p_nand_clk);

s5p_nand_regs->nfconf = (312)|(58)|(34)|(11);

s5p_nand_regs->nfcont |= 3;

//分配驱动相关结构体

nand_chip = (struct nand_chip *)kzalloc(sizeof(struct nand_chip), GFP_KERNEL);

if(nand_chip == NULL){

dev_err(pdev->dev, failed to allocate nand_chip structure\n);

ret = -ENOMEM;

goto err_clk_put;

}

s5p_mtd_info = (struct mtd_info *)kzalloc(sizeof(struct mtd_info), GFP_KERNEL);

if(s5p_mtd_info == NULL){

dev_err(pdev->dev, failed to allocate mtd_info structure\n);

ret = -ENOMEM;

goto err_free_chip;

}

//设置驱动相关结构体

nand_chip->select_chip = s5p_nand_select_chip;

nand_chip->cmd_ctrl = s5p_nand_cmd_ctrl;

nand_chip->IO_ADDR_R = s5p_nand_regs->nfdata;

nand_chip->IO_ADDR_W = s5p_nand_regs->nfdata;

nand_chip->dev_ready = s5p_nand_ready;

nand_chip->ecc.mode = NAND_ECC_SOFT;

s5p_mtd_info->priv = nand_chip;

s5p_mtd_info->owner = THIS_MODULE;

//扫描Nand flash 设备

if(nand_scan(s5p_mtd_info, 1)){

dev_dbg(pdev->dev, nand scan error\n);

goto err_free_info;

}

//增加分区信息

ret = mtd_device_parse_register(s5p_mtd_info, NULL, NULL, s5p_nand_partions, ARRAY_SIZE(s5p_nand_partions));

if(!ret)

return 0;

err_free_info:

kfree(s5p_mtd_info);

err_free_chip:

kfree(nand_chip);

err_clk_put:

clk_disable(s5p_nand_clk);

clk_put(s5p_nand_clk);

err_iounmap:

//if(s5p_nand_ecc == NULL)

// iounmap(s5p_nand_ecc);

if(s5p_nand_regs == NULL)

iounmap(s5p_nand_regs);

err_exit:

return ret;

}

static int s5p_nand_remove(struct platform_device *pdev){

nand_release(s5p_mtd_info);

kfree(s5p_mtd_info);

kfree(nand_chip);

clk_disable(s5p_nand_clk);

clk_put(s5p_nand_clk);

if(s5p_nand_regs == NULL)

iounmap(s5p_nand_regs);

return 0;

}

static struct platform_driver s5p_nand_drv = {

.driver = {

.owner = THIS_MODULE,

.name = s5p-nand,

},

.probe = s5p_nand_probe,

.remove = s5p_nand_remove,

};

module_platform_driver(s5p_nand_drv);

MODULE_LICENSE(GPL);

上述源码为嵌入式爱好者共享,如有更新,请咨询相关客服与出售人员,以便更新与开发。

操作所运用的硬件:

TQ210V6开发板

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