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标题: 【RT-Thread】使用FAL分区管理与easyflash变量管理 [打印本页]
作者: sunsili 时间: 2024-9-30 22:07
标题: 【RT-Thread】使用FAL分区管理与easyflash变量管理
本帖最后由 sunsili 于 2024-9-30 22:15 编辑
【RT-Thread】使用FAL分区管理与easyflash变量管理
1. FAL组件
1.1 什么是FAL
FAL (Flash Abstraction Layer) Flash 抽象层,是对 Flash 及基于 Flash 的分区进行管理、操作的抽象层,对上层统一了 Flash 及 分区操作的 API (框架图如下所示),并具有以下特性:
支持静态可配置的分区表,并可关联多个 Flash 设备;
分区表支持 自动装载 。避免在多固件项目,分区表被多次定义的问题;
代码精简,对操作系统 无依赖 ,可运行于裸机平台,比如对资源有一定要求的 Bootloader;
自带基于 Finsh/MSH 的测试命令,可以通过 Shell 按字节寻址的方式操作(读写擦) Flash 或分区,方便开发者进行调试、测试;
通过上图我们也可以清晰明了了,看到,FAL抽象层向下可以通过Flash硬件进行统一管理,当然也可以使用SFUD框架(串行Flash通用驱动库,这部分RT-Thread已完成官方框架的移植同时提供多个应用历程),而对上也可以使用如DFS、NVM提供的Flash硬件统一访问接口,方便用户更加直接方便对底层Flash硬件的访问操作。
注:非易失性存储器 (NVM):在芯片电源关闭期间保存存储在其中的数据。因此,它被用于没有磁盘的便携式设备中的内存,以及用于可移动存储卡等用途。主要类型有:非易失性半导体存储器 (Non-volatile semiconductor memory, NVSM) 将数据存储在浮栅存储单元中,每个单元都由一个浮栅(floating-gate) MOSFET 组成。
关于存储,可以用一张图来解释:
1.2使用ENV配置FAL
在RT-Thread v4.1.0之前,FAL是作为软件包形式对用户开放使用的,而v4.1.0之后,FAL被RT-Thread官方重新定义为RTT组件的一部分,这样也能更加方便用户的开发。
我们下面正式讲解FAL组件的使用:
首先打开ENV工具,根据以下路径打开FAL使能 RT-Thread Components->FAL: flash abstraction layer,由于我们后面会用到SFUD,所以这里把 FAL uses SFUD drivers 一并使能,并修改FAL设备名称为 W25Q128.
完成上述操作后保存退出,并使用 scons --target=mdk5 重新生成MDK5文件并打开
1.3 FAL SFUD 移植
为了提供示例,我们选用 W25Q128 spi flash 作为测试模块,并且使用SFUD框架对spi flash设备进行管理和驱动。
由于目前RT-Thread的SFUD已经对 W25Q128 完成支持,根据官方的使用手册,我们仅需编写 fal_cfg.h 文件完成对 FAL_FLASH_DEV_TABLE 及 FAL_PART_TABLE 的定义即可。文件存放路径:.\rt-thread\bsp\lpc55sxx\lpc55s69_nxp_evk\board\ports\fal_cfg.h
- // fal.cfg.h
- /*
- * Copyright (c) 2006-2023, RT-Thread Development Team
- *
- * SPDX-License-Identifier: Apache-2.0
- *
- * Change Logs:
- * Date Author Notes
- * 2023-04-21 Wangyuqiang the first version
- */
- #ifndef _FAL_CFG_H_
- #define _FAL_CFG_H_
- #include <rtthread.h>
- #include <board.h>
- #ifndef FAL_USING_NOR_FLASH_DEV_NAME
- #define NOR_FLASH_DEV_NAME "norflash0"
- #else
- #define NOR_FLASH_DEV_NAME FAL_USING_NOR_FLASH_DEV_NAME
- #endif
- /* Flash device Configuration */
- extern struct fal_flash_dev nor_flash0;
- /* flash device table */
- #define FAL_FLASH_DEV_TABLE \
- { \
- &nor_flash0, \
- }
- /* Partition Configuration */
- #ifdef FAL_PART_HAS_TABLE_CFG
- /* partition table */
- #define FAL_PART_TABLE \
- { \
- {FAL_PART_MAGIC_WROD, "easyflash", NOR_FLASH_DEV_NAME, 0, 512 * 1024, 0}, \
- {FAL_PART_MAGIC_WROD, "download", NOR_FLASH_DEV_NAME, 512 * 1024, 1024 * 1024, 0}, \
- {FAL_PART_MAGIC_WROD, "wifi_image", NOR_FLASH_DEV_NAME, (512 + 1024) * 1024, 512 * 1024, 0}, \
- {FAL_PART_MAGIC_WROD, "font", NOR_FLASH_DEV_NAME, (512 + 1024 + 512) * 1024, 7 * 1024 * 1024, 0}, \
- {FAL_PART_MAGIC_WROD, "filesystem", NOR_FLASH_DEV_NAME, (512 + 1024 + 512 + 7 * 1024) * 1024, 7 * 1024 * 1024, 0}, \
- }
- #endif /* FAL_PART_HAS_TABLE_CFG */
- #endif /* _FAL_CFG_H_ */
复制代码
此时编译的话是找不到该头文件的,需要我们在Keil中设置:
在RTT FAL组件中的SFUD提供的 fal_flash_dev 对象默认的nor_flash0参数中,flash大小默认为8M,而 W25Q128 最大最16M,我们可以选择在 .\rt-thread\components\fal\samples\porting\fal_flash_sfud_port.c文件中对struct fal_flash_dev nor_flash0 进行修改:
- struct fal_flash_dev nor_flash0 =
- {
- .name = FAL_USING_NOR_FLASH_DEV_NAME,
- .addr = 0,
- .len = 16 * 1024 * 1024,
- .blk_size = 4096,
- .ops = {init, read, write, erase},
- .write_gran = 1
- };
复制代码
当然也可以选择不进行修改,根据大佬的原话就是因为在调用初始化接口函数init后,会从flash设备读取正确的参数更新到nor_flash0表项中,我们在使用FAL组件前都需要调用FAL初始化函数fal_init,其内调用flash设备初始化函数fal_flash_init,最后会调用注册到fal_flash_dev设备表项中的初始化函数device_table->ops.init,所以nor_flash0表项参数会在FAL初始化时被更新。
同时我们需要开启SFUD框架支持,打开ENV工具,由于SFUD的使用需要指定一个spi设备,这里我选择使用最近移植好的软件spi,路径 Hardware Drivers Config->On-chip Peripheral Drivers-> Enable soft SPI BUS-> Enable soft SPI1 BUS (software simulation) ,这里我的测试开发板是恩智浦的LPC55S69-EVK,并且这款bsp的软件模拟spi由我本人对接,关于这部分的软件spi引脚定义可以选用默认即可,当然也可以使用自定义引脚,记住不要与其他引脚产生冲突。
此时我们回到ENV主界面,进入 RT-Thread Components->Device Drivers->Using Serial Flash Universal Driver ,此时我们才可以看到SFUD选项出现(如果没有使能spi是没法看到的),使能后保持默认即可
到这里,ENV的配置暂时告一段落!
1.4 FAL SFUD 测试用例
为了验证 W25Q128 及软件模拟spi在SFUD框架上是否能够成功运行,我们在 .\rt-thread\bsp\lpc55sxx\lpc55s69_nxp_evk\board\ports\ 下新建一个 soft_spi_flash_init.c 文件,代码如下
- /*
- * Copyright (c) 2006-2023, RT-Thread Development Team
- *
- * SPDX-License-Identifier: Apache-2.0
- *
- * Change Logs:
- * Date Author Notes
- * 2023-04-21 Wangyuqiang the first version
- */
- #include <rtthread.h>
- #include "spi_flash.h"
- #include "spi_flash_sfud.h"
- #include "drv_soft_spi.h"
- #include "drv_pin.h"
- #include "rtconfig.h"
- #define cs_pin GET_PINS(1,9)
- static int rt_soft_spi_flash_init(void)
- {
- int result = -1;
- result = rt_hw_softspi_device_attach("sspi1", "sspi10", cs_pin);
- rt_kprintf("value is %d\n",result);
-
- if(result == RT_EOK)
- {
- rt_kprintf("rt_hw_softspi_device_attach successful!\n");
- }
- if (RT_NULL == rt_sfud_flash_probe("W25Q128", "sspi10"))
- {
- return -RT_ERROR;
- }
- return RT_EOK;
- }
- INIT_COMPONENT_EXPORT(rt_soft_spi_flash_init);
复制代码
这里我们需要指定一个片选引脚,我暂时使用了 sspi2 的SCK引脚作为片选,这里注意不要同时打开 sspi1 和 sspi2 ,后续我会专门上传一个通用GPIO作为片选引脚,到时候就不会产生问题了。然后软件spi设备的挂载使用的是 sspi1 bus 及 sspi10 device ,并且挂载flash设备到 sspi10 。
另外我们在 .\rt-thread\bsp\lpc55sxx\lpc55s69_nxp_evk\board\ports\ 下新建 fal_sample.c 文件,并编写测试代码:
- //fal_sample.c
- /*
- * Copyright (c) 2006-2023, RT-Thread Development Team
- *
- * SPDX-License-Identifier: Apache-2.0
- *
- * Change Logs:
- * Date Author Notes
- * 2023-04-21 Wangyuqiang the first version
- */
- #include "rtthread.h"
- #include "rtdevice.h"
- #include "board.h"
- #include "fal.h"
- #define BUF_SIZE 1024
- static int fal_test(const char *partiton_name)
- {
- int ret;
- int i, j, len;
- uint8_t buf[BUF_SIZE];
- const struct fal_flash_dev *flash_dev = RT_NULL;
- const struct fal_partition *partition = RT_NULL;
- if (!partiton_name)
- {
- rt_kprintf("Input param partition name is null!\n");
- return -1;
- }
- partition = fal_partition_find(partiton_name);
- if (partition == RT_NULL)
- {
- rt_kprintf("Find partition (%s) failed!\n", partiton_name);
- ret = -1;
- return ret;
- }
- flash_dev = fal_flash_device_find(partition->flash_name);
- if (flash_dev == RT_NULL)
- {
- rt_kprintf("Find flash device (%s) failed!\n", partition->flash_name);
- ret = -1;
- return ret;
- }
- rt_kprintf("Flash device : %s "
- "Flash size : %dK \n"
- "Partition : %s "
- "Partition size: %dK\n",
- partition->flash_name,
- flash_dev->len/1024,
- partition->name,
- partition->len/1024);
- /* erase all partition */
- ret = fal_partition_erase_all(partition);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) erase failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- rt_kprintf("Erase (%s) partition finish!\n", partiton_name);
- /* read the specified partition and check data */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0x00, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_read(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) read failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- for(j = 0; j < len; j++)
- {
- if (buf[j] != 0xFF)
- {
- rt_kprintf("The erase operation did not really succeed!\n");
- ret = -1;
- return ret;
- }
- }
- i += len;
- }
- /* write 0x00 to the specified partition */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0x00, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_write(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) write failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- i += len;
- }
- rt_kprintf("Write (%s) partition finish! Write size %d(%dK).\n", partiton_name, i, i/1024);
- /* read the specified partition and check data */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0xFF, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_read(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) read failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- for(j = 0; j < len; j++)
- {
- if (buf[j] != 0x00)
- {
- rt_kprintf("The write operation did not really succeed!\n");
- ret = -1;
- return ret;
- }
- }
- i += len;
- }
- ret = 0;
- return ret;
- }
- static void fal_sample(void)
- {
- /* 1- init */
- fal_init();
- if (fal_test("font") == 0)
- {
- rt_kprintf("Fal partition (%s) test success!\n", "font");
- }
- else
- {
- rt_kprintf("Fal partition (%s) test failed!\n", "font");
- }
- if (fal_test("download") == 0)
- {
- rt_kprintf("Fal partition (%s) test success!\n", "download");
- }
- else
- {
- rt_kprintf("Fal partition (%s) test failed!\n", "download");
- }
- }
- MSH_CMD_EXPORT(fal_sample, fal sample);
复制代码
1.5
测试结果
到这里就可以进行编译下载了,成功后的截图如下:
2.
DFS文件系统
2.1
什么是DFS
DFS 是 RT-Thread 提供的虚拟文件系统组件,全称为 Device File System,即设备虚拟文件系统,文件系统的名称使用类似 UNIX 文件、文件夹的风格,目录结构如下图所示:
在 RT-Thread DFS 中,文件系统有统一的根目录,使用 / 来表示。而在根目录下的 f1.bin 文件则使用 /f1.bin 来表示,2018 目录下的 f1.bin 目录则使用 /data/2018/f1.bin 来表示。即目录的分割符号是 /,这与 UNIX/Linux 完全相同,与 Windows 则不相同(Windows 操作系统上使用 \ 来作为目录的分割符)。
2.2
DFS架构
RT-Thread DFS 组件的主要功能特点有:
为应用程序提供统一的 POSIX 文件和目录操作接口:read、write、poll/select 等。
支持多种类型的文件系统,如 FatFS、RomFS、DevFS 等,并提供普通文件、设备文件、网络文件描述符的管理。
支持多种类型的存储设备,如 SD Card、SPI Flash、Nand Flash 等。
DFS 的层次架构如下图所示,主要分为 POSIX 接口层、虚拟文件系统层和设备抽象层。
2.3
使用ENV配置DFS
打开ENV,进入路径 RT-Thread Components → DFS: device virtual file system ,使能 DFS: device virtual file system
由于DFS使用的是POSIX接口,而dfs_posix.h已经在新版本中被移除了,如果想要兼容老版本,可以在menuconfig中使能 RT-Thread Components-> Support legacy version for compatibility
由于elmfat文件系统默认最大扇区大小为512,但我们使用的flash模块 W25Q128 的Flash扇区大小为4096,为了将elmfat文件系统挂载到W25Q128上,这里的 Maximum sector size 需要和W25Q128扇区大小保持一致,修改为4096,路径:RT-Thread Components → DFS: device virtual file system → Enable elm-chan fatfs / elm-chan's FatFs, Generic FAT Filesystem Module
保存退出后使用 scons --target=mdk5 生成MDK5工程。
2.4 DFS挂载到FAL分区测试
这里增加FAL flash抽象层,我们将elmfat文件系统挂载到W25Q128 flash设备的filesystem分区上,由于FAL管理的filesystem分区不是块设备,需要先使用FAL分区转BLK设备接口函数将filesystem分区转换为块设备,然后再将DFS elmfat文件系统挂载到filesystem块设备上。
我们接着修改fal_sample.c文件,修改后代码:
- /*
- * Copyright (c) 2006-2023, RT-Thread Development Team
- *
- * SPDX-License-Identifier: Apache-2.0
- *
- * Change Logs:
- * Date Author Notes
- * 2023-04-21 Wangyuqiang the first version
- */
- #include "rtthread.h"
- #include "rtdevice.h"
- #include "board.h"
- #include "fal.h"
- #include <dfs_posix.h>
- #define FS_PARTITION_NAME "filesystem"
- #define BUF_SIZE 1024
- static int fal_test(const char *partiton_name)
- {
- int ret;
- int i, j, len;
- uint8_t buf[BUF_SIZE];
- const struct fal_flash_dev *flash_dev = RT_NULL;
- const struct fal_partition *partition = RT_NULL;
- if (!partiton_name)
- {
- rt_kprintf("Input param partition name is null!\n");
- return -1;
- }
- partition = fal_partition_find(partiton_name);
- if (partition == RT_NULL)
- {
- rt_kprintf("Find partition (%s) failed!\n", partiton_name);
- ret = -1;
- return ret;
- }
- flash_dev = fal_flash_device_find(partition->flash_name);
- if (flash_dev == RT_NULL)
- {
- rt_kprintf("Find flash device (%s) failed!\n", partition->flash_name);
- ret = -1;
- return ret;
- }
- rt_kprintf("Flash device : %s "
- "Flash size : %dK \n"
- "Partition : %s "
- "Partition size: %dK\n",
- partition->flash_name,
- flash_dev->len/1024,
- partition->name,
- partition->len/1024);
- /* erase all partition */
- ret = fal_partition_erase_all(partition);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) erase failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- rt_kprintf("Erase (%s) partition finish!\n", partiton_name);
- /* read the specified partition and check data */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0x00, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_read(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) read failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- for(j = 0; j < len; j++)
- {
- if (buf[j] != 0xFF)
- {
- rt_kprintf("The erase operation did not really succeed!\n");
- ret = -1;
- return ret;
- }
- }
- i += len;
- }
- /* write 0x00 to the specified partition */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0x00, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_write(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) write failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- i += len;
- }
- rt_kprintf("Write (%s) partition finish! Write size %d(%dK).\n", partiton_name, i, i/1024);
- /* read the specified partition and check data */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0xFF, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_read(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) read failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- for(j = 0; j < len; j++)
- {
- if (buf[j] != 0x00)
- {
- rt_kprintf("The write operation did not really succeed!\n");
- ret = -1;
- return ret;
- }
- }
- i += len;
- }
- ret = 0;
- return ret;
- }
- static void fal_sample(void)
- {
- /* 1- init */
- fal_init();
- if (fal_test("font") == 0)
- {
- rt_kprintf("Fal partition (%s) test success!\n", "font");
- }
- else
- {
- rt_kprintf("Fal partition (%s) test failed!\n", "font");
- }
- if (fal_test("download") == 0)
- {
- rt_kprintf("Fal partition (%s) test success!\n", "download");
- }
- else
- {
- rt_kprintf("Fal partition (%s) test failed!\n", "download");
- }
- }
- MSH_CMD_EXPORT(fal_sample, fal sample);
- static void fal_elmfat_sample(void)
- {
- int fd, size;
- struct statfs elm_stat;
- struct fal_blk_device *blk_dev;
- char str[] = "elmfat mount to W25Q flash.", buf[80];
- /* fal init */
- fal_init();
- /* create block device */
- blk_dev = (struct fal_blk_device *)fal_blk_device_create(FS_PARTITION_NAME);
- if(blk_dev == RT_NULL)
- rt_kprintf("Can't create a block device on '%s' partition.\n", FS_PARTITION_NAME);
- else
- rt_kprintf("Create a block device on the %s partition of flash successful.\n", FS_PARTITION_NAME);
- /* make a elmfat format filesystem */
- if(dfs_mkfs("elm", FS_PARTITION_NAME) == 0)
- rt_kprintf("make elmfat filesystem success.\n");
- /* mount elmfat file system to FS_PARTITION_NAME */
- if(dfs_mount(FS_PARTITION_NAME, "/", "elm", 0, 0) == 0)
- rt_kprintf("elmfat filesystem mount success.\n");
- /* Get elmfat file system statistics */
- if(statfs("/", &elm_stat) == 0)
- rt_kprintf("elmfat filesystem block size: %d, total blocks: %d, free blocks: %d.\n",
- elm_stat.f_bsize, elm_stat.f_blocks, elm_stat.f_bfree);
- if(mkdir("/user", 0x777) == 0)
- rt_kprintf("make a directory: '/user'.\n");
- rt_kprintf("Write string '%s' to /user/test.txt.\n", str);
- /* Open the file in create and read-write mode, create the file if it does not exist*/
- fd = open("/user/test.txt", O_WRONLY | O_CREAT);
- if (fd >= 0)
- {
- if(write(fd, str, sizeof(str)) == sizeof(str))
- rt_kprintf("Write data done.\n");
- close(fd);
- }
- /* Open file in read-only mode */
- fd = open("/user/test.txt", O_RDONLY);
- if (fd >= 0)
- {
- size = read(fd, buf, sizeof(buf));
- close(fd);
- if(size == sizeof(str))
- rt_kprintf("Read data from file test.txt(size: %d): %s \n", size, buf);
- }
- }
- MSH_CMD_EXPORT_ALIAS(fal_elmfat_sample, fal_elmfat,fal elmfat sample);
复制代码
2.5 测试结果
测试结果如下:
3. Easyflash移植到FAL分区
3.1 简述EasyFlash
EasyFlash不仅能够实现对产品的 设定参数 或 运行日志 等信息的掉电保存功能,还封装了简洁的 增加、删除、修改及查询 方法, 降低了开发者对产品参数的处理难度,也保证了产品在后期升级时拥有更好的扩展性。让Flash变为NoSQL(非关系型数据库)模型的小型键值(Key-Value)存储数据库。
3.2 EasyFlash软件包使用
打开ENV进入路径:RT-Thread online packages → tools packages → EasyFlash: Lightweight embedded flash memory library. ,选择软件包版本为最新版。
配置后退出ENV,同时使用 pkgs --update 下载软件包,然后再使用 scons --target=mdk5 重新生成MDK5文件
3.3 移植easyflash
下载完easyflash软件包后,我们复制 .\rt-thread\bsp\lpc55sxx\lpc55s69_nxp_evk\packages\EasyFlash-latest\ports\ef_fal_port.c 到目录 .\rt-thread\bsp\lpc55sxx\lpc55s69_nxp_evk\board\ports\easyflash\ef_fal_port.c ,双击打开该文件,完成以下修改:
- // 修改 FAL_EF_PART_NAME 为 easyflash
- #define FAL_EF_PART_NAME "easyflash"
- // 修改环境变量内容为 {"boot_times", "0"},这里我们先只设置一个开机次数
- static const ef_env default_env_set[] = {
- {"boot_times", "0"},
- };
复制代码
3.4 编写Easyflash测试用例
- /*
- * Copyright (c) 2006-2023, RT-Thread Development Team
- *
- * SPDX-License-Identifier: Apache-2.0
- *
- * Change Logs:
- * Date Author Notes
- * 2023-04-21 Wangyuqiang the first version
- */
- #include "rtthread.h"
- #include "rtdevice.h"
- #include "board.h"
- #include "fal.h"
- #include <dfs_posix.h>
- #include "easyflash.h"
- #include <stdlib.h>
- #define FS_PARTITION_NAME "filesystem"
- #define BUF_SIZE 1024
- static int fal_test(const char *partiton_name)
- {
- int ret;
- int i, j, len;
- uint8_t buf[BUF_SIZE];
- const struct fal_flash_dev *flash_dev = RT_NULL;
- const struct fal_partition *partition = RT_NULL;
- if (!partiton_name)
- {
- rt_kprintf("Input param partition name is null!\n");
- return -1;
- }
- partition = fal_partition_find(partiton_name);
- if (partition == RT_NULL)
- {
- rt_kprintf("Find partition (%s) failed!\n", partiton_name);
- ret = -1;
- return ret;
- }
- flash_dev = fal_flash_device_find(partition->flash_name);
- if (flash_dev == RT_NULL)
- {
- rt_kprintf("Find flash device (%s) failed!\n", partition->flash_name);
- ret = -1;
- return ret;
- }
- rt_kprintf("Flash device : %s "
- "Flash size : %dK \n"
- "Partition : %s "
- "Partition size: %dK\n",
- partition->flash_name,
- flash_dev->len/1024,
- partition->name,
- partition->len/1024);
- /* erase all partition */
- ret = fal_partition_erase_all(partition);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) erase failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- rt_kprintf("Erase (%s) partition finish!\n", partiton_name);
- /* read the specified partition and check data */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0x00, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_read(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) read failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- for(j = 0; j < len; j++)
- {
- if (buf[j] != 0xFF)
- {
- rt_kprintf("The erase operation did not really succeed!\n");
- ret = -1;
- return ret;
- }
- }
- i += len;
- }
- /* write 0x00 to the specified partition */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0x00, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_write(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) write failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- i += len;
- }
- rt_kprintf("Write (%s) partition finish! Write size %d(%dK).\n", partiton_name, i, i/1024);
- /* read the specified partition and check data */
- for (i = 0; i < partition->len;)
- {
- rt_memset(buf, 0xFF, BUF_SIZE);
- len = (partition->len - i) > BUF_SIZE ? BUF_SIZE : (partition->len - i);
- ret = fal_partition_read(partition, i, buf, len);
- if (ret < 0)
- {
- rt_kprintf("Partition (%s) read failed!\n", partition->name);
- ret = -1;
- return ret;
- }
- for(j = 0; j < len; j++)
- {
- if (buf[j] != 0x00)
- {
- rt_kprintf("The write operation did not really succeed!\n");
- ret = -1;
- return ret;
- }
- }
- i += len;
- }
- ret = 0;
- return ret;
- }
- static void fal_sample(void)
- {
- /* 1- init */
- fal_init();
- if (fal_test("font") == 0)
- {
- rt_kprintf("Fal partition (%s) test success!\n", "font");
- }
- else
- {
- rt_kprintf("Fal partition (%s) test failed!\n", "font");
- }
- if (fal_test("download") == 0)
- {
- rt_kprintf("Fal partition (%s) test success!\n", "download");
- }
- else
- {
- rt_kprintf("Fal partition (%s) test failed!\n", "download");
- }
- }
- MSH_CMD_EXPORT(fal_sample, fal sample);
- static void fal_elmfat_sample(void)
- {
- int fd, size;
- struct statfs elm_stat;
- struct fal_blk_device *blk_dev;
- char str[] = "elmfat mount to W25Q flash.", buf[80];
- /* fal init */
- fal_init();
- /* create block device */
- blk_dev = (struct fal_blk_device *)fal_blk_device_create(FS_PARTITION_NAME);
- if(blk_dev == RT_NULL)
- rt_kprintf("Can't create a block device on '%s' partition.\n", FS_PARTITION_NAME);
- else
- rt_kprintf("Create a block device on the %s partition of flash successful.\n", FS_PARTITION_NAME);
- /* make a elmfat format filesystem */
- if(dfs_mkfs("elm", FS_PARTITION_NAME) == 0)
- rt_kprintf("make elmfat filesystem success.\n");
- /* mount elmfat file system to FS_PARTITION_NAME */
- if(dfs_mount(FS_PARTITION_NAME, "/", "elm", 0, 0) == 0)
- rt_kprintf("elmfat filesystem mount success.\n");
- /* Get elmfat file system statistics */
- if(statfs("/", &elm_stat) == 0)
- rt_kprintf("elmfat filesystem block size: %d, total blocks: %d, free blocks: %d.\n",
- elm_stat.f_bsize, elm_stat.f_blocks, elm_stat.f_bfree);
- if(mkdir("/user", 0x777) == 0)
- rt_kprintf("make a directory: '/user'.\n");
- rt_kprintf("Write string '%s' to /user/test.txt.\n", str);
- /* Open the file in create and read-write mode, create the file if it does not exist*/
- fd = open("/user/test.txt", O_WRONLY | O_CREAT);
- if (fd >= 0)
- {
- if(write(fd, str, sizeof(str)) == sizeof(str))
- rt_kprintf("Write data done.\n");
- close(fd);
- }
- /* Open file in read-only mode */
- fd = open("/user/test.txt", O_RDONLY);
- if (fd >= 0)
- {
- size = read(fd, buf, sizeof(buf));
- close(fd);
- if(size == sizeof(str))
- rt_kprintf("Read data from file test.txt(size: %d): %s \n", size, buf);
- }
- }
- MSH_CMD_EXPORT_ALIAS(fal_elmfat_sample, fal_elmfat,fal elmfat sample);
- static void easyflash_sample(void)
- {
- /* fal init */
- fal_init();
- /* easyflash init */
- if(easyflash_init() == EF_NO_ERR)
- {
- uint32_t i_boot_times = NULL;
- char *c_old_boot_times, c_new_boot_times[11] = {0};
- /* get the boot count number from Env */
- c_old_boot_times = ef_get_env("boot_times");
- /* get the boot count number failed */
- if (c_old_boot_times == RT_NULL)
- c_old_boot_times[0] = '0';
- i_boot_times = atol(c_old_boot_times);
- /* boot count +1 */
- i_boot_times ++;
- rt_kprintf("===============================================\n");
- rt_kprintf("The system now boot %d times\n", i_boot_times);
- rt_kprintf("===============================================\n");
- /* interger to string */
- sprintf(c_new_boot_times, "%d", i_boot_times);
- /* set and store the boot count number to Env */
- ef_set_env("boot_times", c_new_boot_times);
- ef_save_env();
- }
- }
- MSH_CMD_EXPORT(easyflash_sample, easyflash sample);
复制代码
3.5 测试结果
打开串口助手,输入命令:
第一次命令调用:
第二次RESET开发板后调用:
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