Merge pull request #1194 from armink/fix_sfud

Fix sfud

components/drivers/spi/sfud/README.md

@@ -29,7 +29,9 @@
 |:--:|:----:|:--:|:--:|:--:|:--:|
 |[W25Q40BV](http://microchip.ua/esp8266/W25Q40BV(EOL).pdf)|Winbond|4Mb|50Mhz|不支持|已停产|
 |[W25Q80DV](http://www.winbond.com/resource-files/w25q80dv_revg_07212015.pdf)|Winbond|8Mb|104Mhz|支持||
+|[W25Q16BV](https://media.digikey.com/pdf/Data%20Sheets/Winbond%20PDFs/W25Q16BV.pdf)|Winbond|16Mb|104Mhz|不支持| by [slipperstree](https://github.com/slipperstree)|
 |[W25Q16CV](http://www.winbond.com/resource-files/da00-w25q16cvf1.pdf)|Winbond|16Mb|104Mhz|支持||
+|[W25Q16DV](http://www.winbond.com/resource-files/w25q16dv%20revk%2005232016%20doc.pdf)|Winbond|16Mb|104Mhz|支持| by [slipperstree](https://github.com/slipperstree)|
 |[W25Q32BV](http://www.winbond.com/resource-files/w25q32bv_revi_100413_wo_automotive.pdf)|Winbond|32Mb|104Mhz|支持||
 |[W25Q64CV](http://www.winbond.com/resource-files/w25q64cv_revh_052214[2].pdf)|Winbond|64Mb|80Mhz|支持||
 |[W25Q128BV](http://www.winbond.com/resource-files/w25q128bv_revh_100313_wo_automotive.pdf)|Winbond|128Mb|104Mhz|支持||
@@ -44,6 +46,7 @@
 |[GD25Q16B](http://www.gigadevice.com/product/detail/5/410.html)|GigaDevice|16Mb|120Mhz|不支持| by [TanekLiang](https://github.com/TanekLiang) |
 |[GD25Q64B](http://www.gigadevice.com/product/detail/5/364.html)|GigaDevice|64Mb|120Mhz|不支持||
 |[S25FL216K](http://www.cypress.com/file/197346/download)|Cypress|16Mb|65Mhz|不支持||
+|[S25FL032P](http://www.cypress.com/file/196861/download)|Cypress|32Mb|104Mhz|不支持| by [yc_911](https://gitee.com/yc_911) |
 |[S25FL164K](http://www.cypress.com/file/196886/download)|Cypress|64Mb|108Mhz|支持||
 |[A25L080](http://www.amictechnology.com/datasheets/A25L080.pdf)|AMIC|8Mb|100Mhz|不支持||
 |[A25LQ64](http://www.amictechnology.com/datasheets/A25LQ64.pdf)|AMIC|64Mb|104Mhz|支持||
@@ -57,39 +60,37 @@
 
 #### 2.2.1 初始化 SFUD 库
 
+将会调用 `sfud_device_init` ，初始化 Flash 设备表中的全部设备。如果只有一个 Flash 也可以只使用 `sfud_device_init` 进行单一初始化。
+
 > 注意：初始化完的 SPI Flash 默认都 **已取消写保护** 状态，如需开启写保护，请使用 sfud_write_status 函数修改 SPI Flash 状态。
 
 ```C
 sfud_err sfud_init(void)
 ```
 
-#### 2.2.2 获取 Flash 设备对象
-
-在 SFUD 配置文件中会定义 Flash 设备表，负责存放所有将要使用的 Flash 设备对象，所以 SFUD 支持多个 Flash 设备同时驱动。设备表的配置在 `/sfud/inc/sfud_cfg.h` 中 `SFUD_FLASH_DEVICE_TABLE` 宏定义，详细配置方法参照 [2.3 配置方法 Flash](#23-配置方法)）。本方法通过 Flash 设备位于设备表中索引值来返回 Flash 设备对象，超出设备表范围返回 `NULL` 。
+#### 2.2.2 初始化指定的 Flash 设备
 
 ```C
-sfud_flash *sfud_get_device(size_t index)
+sfud_err sfud_device_init(sfud_flash *flash)
 ```
 
 |参数                                    |描述|
 |:-----                                  |:----|
-|index                                   |Flash 设备位于 FLash 设备表中的索引值|
+|flash                                   |待初始化的 Flash 设备|
 
-#### 2.2.3 获取 Flash 设备总数
+#### 2.2.3 获取 Flash 设备对象
 
-返回 Flash 设备表的总长度。
+在 SFUD 配置文件中会定义 Flash 设备表，负责存放所有将要使用的 Flash 设备对象，所以 SFUD 支持多个 Flash 设备同时驱动。设备表的配置在 `/sfud/inc/sfud_cfg.h` 中 `SFUD_FLASH_DEVICE_TABLE` 宏定义，详细配置方法参照 [2.3 配置方法 Flash](#23-配置方法)）。本方法通过 Flash 设备位于设备表中索引值来返回 Flash 设备对象，超出设备表范围返回 `NULL` 。
 
 ```C
-size_t sfud_get_device_num(void)
+sfud_flash *sfud_get_device(size_t index)
 ```
 
-#### 2.2.4 获取 Flash 设备表
-
-```C
-const sfud_flash *sfud_get_device_table(void)
-```
+|参数                                    |描述|
+|:-----                                  |:----|
+|index                                   |Flash 设备位于 FLash 设备表中的索引值|
 
-#### 2.2.5 读取 Flash 数据
+#### 2.2.4 读取 Flash 数据
 
 ```C
 sfud_err sfud_read(const sfud_flash *flash, uint32_t addr, size_t size, uint8_t *data)
@@ -102,7 +103,7 @@ sfud_err sfud_read(const sfud_flash *flash, uint32_t addr, size_t size, uint8_t
 |size                                    |从起始地址开始读取数据的总大小|
 |data                                    |读取到的数据|
 
-#### 2.2.6 擦除 Flash 数据
+#### 2.2.5 擦除 Flash 数据
 
 > 注意：擦除操作将会按照 Flash 芯片的擦除粒度（详见 Flash 数据手册，一般为 block 大小。初始化完成后，可以通过 `sfud_flash->chip.erase_gran` 查看）对齐，请注意保证起始地址和擦除数据大小按照 Flash 芯片的擦除粒度对齐，否则执行擦除操作后，将会导致其他数据丢失。
 
@@ -116,7 +117,7 @@ sfud_err sfud_erase(const sfud_flash *flash, uint32_t addr, size_t size)
 |addr                                    |起始地址|
 |size                                    |从起始地址开始擦除数据的总大小|
 
-#### 2.2.7 擦除 Flash 全部数据
+#### 2.2.6 擦除 Flash 全部数据
 
 ```C
 sfud_err sfud_chip_erase(const sfud_flash *flash)
@@ -126,7 +127,7 @@ sfud_err sfud_chip_erase(const sfud_flash *flash)
 |:-----                                  |:----|
 |flash                                   |Flash 设备对象|
 
-#### 2.2.8 往 Flash 写数据
+#### 2.2.7 往 Flash 写数据
 
 ```C
 sfud_err sfud_write(const sfud_flash *flash, uint32_t addr, size_t size, const uint8_t *data)
@@ -139,7 +140,7 @@ sfud_err sfud_write(const sfud_flash *flash, uint32_t addr, size_t size, const u
 |size                                    |从起始地址开始写入数据的总大小|
 |data                                    |待写入的数据|
 
-#### 2.2.9 先擦除再往 Flash 写数据
+#### 2.2.8 先擦除再往 Flash 写数据
 
 > 注意：擦除操作将会按照 Flash 芯片的擦除粒度（详见 Flash 数据手册，一般为 block 大小。初始化完成后，可以通过 `sfud_flash->chip.erase_gran` 查看）对齐，请注意保证起始地址和擦除数据大小按照 Flash 芯片的擦除粒度对齐，否则执行擦除操作后，将会导致其他数据丢失。
 
@@ -154,7 +155,7 @@ sfud_err sfud_erase_write(const sfud_flash *flash, uint32_t addr, size_t size, c
 |size                                    |从起始地址开始写入数据的总大小|
 |data                                    |待写入的数据|
 
-#### 2.2.10 读取 Flash 状态
+#### 2.2.9 读取 Flash 状态
 
 ```C
 sfud_err sfud_read_status(const sfud_flash *flash, uint8_t *status)
@@ -165,7 +166,7 @@ sfud_err sfud_read_status(const sfud_flash *flash, uint8_t *status)
 |flash                                   |Flash 设备对象|
 |status                                  |当前状态寄存器值|
 
-#### 2.2.11 写（修改） Flash 状态
+#### 2.2.10 写（修改） Flash 状态
 
 ```C
 sfud_err sfud_write_status(const sfud_flash *flash, bool is_volatile, uint8_t status)
@@ -197,9 +198,25 @@ sfud_err sfud_write_status(const sfud_flash *flash, bool is_volatile, uint8_t st
 
 > 注意：关闭后该库只驱动支持 SFDP 规范的 Flash，也会适当的降低部分代码量。另外 2.3.2 及 2.3.3 这两个宏定义至少定义一种，也可以两种方式都选择。
 
-#### 2.3.4 Flash 设备表
+#### 2.3.4 既不使用 SFDP ，也不使用 Flash 参数信息表
+
+为了进一步降低代码量，`SFUD_USING_SFDP` 与 `SFUD_USING_FLASH_INFO_TABLE` 也可以 **都不定义** 。
+
+此时，只要在定义 Flash 设备时，指定好 Flash 参数，之后再调用 `sfud_device_init` 对该设备进行初始化。参考如下代码：
+
+```C
+sfud_flash sfud_norflash0 = {
+        .name = "norflash0",
+        .spi.name = "SPI1",
+        .chip = { "W25Q64FV", SFUD_MF_ID_WINBOND, 0x40, 0x17, 8L * 1024L * 1024L, SFUD_WM_PAGE_256B, 4096, 0x20 } };
+......
+sfud_device_init(&sfud_norflash0);
+......
+```
+
+#### 2.3.5 Flash 设备表
 
-主要修改 `SFUD_FLASH_DEVICE_TABLE` 这个宏定义，示例如下：
+如果产品中存在多个 Flash ，可以添加 Flash 设备表。修改 `SFUD_FLASH_DEVICE_TABLE` 这个宏定义，示例如下：
 
 ```C
 enum {

components/drivers/spi/sfud/inc/sfud.h

@@ -43,6 +43,15 @@ extern "C" {
  */
 sfud_err sfud_init(void);
 
+/**
+ * SFUD initialize by flash device
+ *
+ * @param flash flash device
+ *
+ * @return result
+ */
+sfud_err sfud_device_init(sfud_flash *flash);
+
 /**
  * get flash device by its index which in the flash information table
  *

components/drivers/spi/sfud/inc/sfud_cfg.h

@@ -52,11 +52,6 @@
 #define SFUD_USING_FLASH_INFO_TABLE
 #endif
 
-
-#if !defined(RT_SFUD_USING_SFDP) && !defined(RT_SFUD_USING_FLASH_INFO_TABLE)
-#error "Please configure RT_SFUD_USING_SFDP or RT_SFUD_USING_FLASH_INFO_TABLE at least one kind of mode (in rtconfig.h)."
-#endif
-
 #define SFUD_FLASH_DEVICE_TABLE {0}
 
 #endif /* _SFUD_CFG_H_ */

components/drivers/spi/sfud/inc/sfud_def.h

@@ -77,7 +77,7 @@ if (!(EXPR))                                                                   \
     else {if (__delay_temp) {__delay_temp();} retry --;}
 
 /* software version number */
-#define SFUD_SW_VERSION                             "1.0.2"
+#define SFUD_SW_VERSION                             "1.0.4"
 /*
  * all defined supported command
  */

components/drivers/spi/sfud/inc/sfud_flash_def.h

@@ -107,21 +107,23 @@ typedef struct {
  *  notice me for update it. The configuration information name and index reference the sfud_flash_chip structure.
  * | name | mf_id | type_id | capacity_id | capacity | write_mode | erase_gran | erase_gran_cmd |
  */
-#define SFUD_FLASH_CHIP_TABLE                                                                                    \
-{                                                                                                                \
-    {"AT45DB161E", SFUD_MF_ID_ATMEL, 0x26, 0x00, 2*1024*1024, SFUD_WM_BYTE|SFUD_WM_DUAL_BUFFER, 512, 0x81},      \
-    {"W25Q40BV", SFUD_MF_ID_WINBOND, 0x40, 0x13, 512*1024, SFUD_WM_PAGE_256B, 4096, 0x20},                       \
-    {"SST25VF016B", SFUD_MF_ID_SST, 0x25, 0x41, 2*1024*1024, SFUD_WM_BYTE|SFUD_WM_AAI, 4096, 0x20},              \
-    {"M25P32", SFUD_MF_ID_MICRON, 0x20, 0x16, 4*1024*1024, SFUD_WM_PAGE_256B, 64*1024, 0xD8},                    \
-    {"M25P80", SFUD_MF_ID_MICRON, 0x20, 0x14, 1*1024*1024, SFUD_WM_PAGE_256B, 64*1024, 0xD8},                    \
-    {"M25P40", SFUD_MF_ID_MICRON, 0x20, 0x13, 512*1024, SFUD_WM_PAGE_256B, 64*1024, 0xD8},                       \
-    {"EN25Q32B", SFUD_MF_ID_EON, 0x30, 0x16, 4*1024*1024, SFUD_WM_PAGE_256B, 4096, 0x20},                        \
-    {"GD25Q64B", SFUD_MF_ID_GIGADEVICE, 0x40, 0x17, 8*1024*1024, SFUD_WM_PAGE_256B, 4096, 0x20},                 \
-    {"GD25Q16B", SFUD_MF_ID_GIGADEVICE, 0x40, 0x15, 2*1024*1024, SFUD_WM_PAGE_256B, 4096, 0x20},                 \
-    {"S25FL216K", SFUD_MF_ID_CYPRESS, 0x40, 0x15, 2*1024*1024, SFUD_WM_PAGE_256B, 4096, 0x20},                   \
-    {"A25L080", SFUD_MF_ID_AMIC, 0x30, 0x14, 1*1024*1024, SFUD_WM_PAGE_256B, 4096, 0x20},                        \
-    {"F25L004", SFUD_MF_ID_ESMT, 0x20, 0x13, 512*1024, SFUD_WM_BYTE|SFUD_WM_AAI, 4096, 0x20},                    \
-    {"PCT25VF016B", SFUD_MF_ID_SST, 0x25, 0x41, 2*1024*1024, SFUD_WM_BYTE|SFUD_WM_AAI, 4096, 0x20},              \
+#define SFUD_FLASH_CHIP_TABLE                                                                                       \
+{                                                                                                                   \
+    {"AT45DB161E", SFUD_MF_ID_ATMEL, 0x26, 0x00, 2L*1024L*1024L, SFUD_WM_BYTE|SFUD_WM_DUAL_BUFFER, 512, 0x81},      \
+    {"W25Q40BV", SFUD_MF_ID_WINBOND, 0x40, 0x13, 512L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                        \
+    {"W25Q16BV", SFUD_MF_ID_WINBOND, 0x40, 0x15, 2L*1024L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                    \
+    {"SST25VF016B", SFUD_MF_ID_SST, 0x25, 0x41, 2L*1024L*1024L, SFUD_WM_BYTE|SFUD_WM_AAI, 4096, 0x20},              \
+    {"M25P32", SFUD_MF_ID_MICRON, 0x20, 0x16, 4L*1024L*1024L, SFUD_WM_PAGE_256B, 64L*1024L, 0xD8},                  \
+    {"M25P80", SFUD_MF_ID_MICRON, 0x20, 0x14, 1L*1024L*1024L, SFUD_WM_PAGE_256B, 64L*1024L, 0xD8},                  \
+    {"M25P40", SFUD_MF_ID_MICRON, 0x20, 0x13, 512L*1024L, SFUD_WM_PAGE_256B, 64L*1024L, 0xD8},                      \
+    {"EN25Q32B", SFUD_MF_ID_EON, 0x30, 0x16, 4L*1024L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                        \
+    {"GD25Q64B", SFUD_MF_ID_GIGADEVICE, 0x40, 0x17, 8L*1024L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                 \
+    {"GD25Q16B", SFUD_MF_ID_GIGADEVICE, 0x40, 0x15, 2L*1024L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                 \
+    {"S25FL216K", SFUD_MF_ID_CYPRESS, 0x40, 0x15, 2L*1024L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                   \
+    {"S25FL032P", SFUD_MF_ID_CYPRESS, 0x02, 0x15, 4L*1024L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                   \
+    {"A25L080", SFUD_MF_ID_AMIC, 0x30, 0x14, 1L*1024L*1024L, SFUD_WM_PAGE_256B, 4096, 0x20},                        \
+    {"F25L004", SFUD_MF_ID_ESMT, 0x20, 0x13, 512L*1024L, SFUD_WM_BYTE|SFUD_WM_AAI, 4096, 0x20},                     \
+    {"PCT25VF016B", SFUD_MF_ID_SST, 0x25, 0x41, 2L*1024L*1024L, SFUD_WM_BYTE|SFUD_WM_AAI, 4096, 0x20},              \
 }
 #endif /* SFUD_USING_FLASH_INFO_TABLE */
 

components/drivers/spi/sfud/src/sfud.c

@@ -36,10 +36,6 @@
 #error "Please configure the flash device information table in (in sfud_cfg.h)."
 #endif
 
-#if !defined(SFUD_USING_SFDP) && !defined(SFUD_USING_FLASH_INFO_TABLE)
-#error "Please configure SFUD_USING_SFDP or SFUD_USING_FLASH_INFO_TABLE at least one kind of mode (in sfud_cfg.h)."
-#endif
-
 /* user configured flash device information table */
 static sfud_flash flash_table[] = SFUD_FLASH_DEVICE_TABLE;
 /* supported manufacturer information table */
@@ -251,7 +247,7 @@ static sfud_err hardware_init(sfud_flash *flash) {
         return result;
     }
 
-    /* I found when the flash read mode is supported AAI mode. The flash all blocks is protected,
+    /* I found when the flash write mode is supported AAI mode. The flash all blocks is protected,
      * so need change the flash status to unprotected before write and erase operate. */
     if (flash->chip.write_mode & SFUD_WM_AAI) {
         result = sfud_write_status(flash, true, 0x00);
@@ -261,7 +257,7 @@ static sfud_err hardware_init(sfud_flash *flash) {
     }
 
     /* if the flash is large than 16MB (256Mb) then enter in 4-Byte addressing mode */
-    if (flash->chip.capacity > (1 << 24)) {
+    if (flash->chip.capacity > (1L << 24)) {
         result = set_4_byte_address_mode(flash, true);
     } else {
         flash->addr_in_4_byte = false;
@@ -401,7 +397,7 @@ sfud_err sfud_erase(const sfud_flash *flash, uint32_t addr, size_t size) {
     sfud_err result = SFUD_SUCCESS;
     const sfud_spi *spi = &flash->spi;
     uint8_t cmd_data[5], cmd_size, cur_erase_cmd;
-    size_t eraser_index, cur_erase_size;
+    size_t cur_erase_size;
 
     SFUD_ASSERT(flash);
     /* must be call this function after initialize OK */
@@ -425,6 +421,7 @@ sfud_err sfud_erase(const sfud_flash *flash, uint32_t addr, size_t size) {
     while (size) {
         /* if this flash is support SFDP parameter, then used SFDP parameter supplies eraser */
 #ifdef SFUD_USING_SFDP
+        size_t eraser_index;
         if (flash->sfdp.available) {
             /* get the suitable eraser for erase process from SFDP parameter */
             eraser_index = sfud_sfdp_get_suitable_eraser(flash, addr, size);

components/drivers/spi/sfud/src/sfud_sfdp.c

@@ -159,7 +159,7 @@ static bool read_basic_header(const sfud_flash *flash, sfdp_para_header *basic_h
     basic_header->minor_rev = header[1];
     basic_header->major_rev = header[2];
     basic_header->len       = header[3];
-    basic_header->ptp       = header[4] | header[5] << 8 | header[6] << 16;
+    basic_header->ptp       = (long)header[4] | (long)header[5] << 8 | (long)header[6] << 16;
     /* check JEDEC basic flash parameter header */
     if (basic_header->major_rev > SUPPORT_MAX_SFDP_MAJOR_REV) {
         SFUD_INFO("Error: This reversion(V%d.%d) JEDEC basic flash parameter header is not supported.",
@@ -171,7 +171,7 @@ static bool read_basic_header(const sfud_flash *flash, sfdp_para_header *basic_h
         return false;
     }
     SFUD_DEBUG("Check JEDEC basic flash parameter header is OK. The table id is %d, reversion is V%d.%d,"
-            " length is %d, parameter table pointer is 0x%06X.", basic_header->id, basic_header->major_rev,
+            " length is %d, parameter table pointer is 0x%06lX.", basic_header->id, basic_header->major_rev,
             basic_header->minor_rev, basic_header->len, basic_header->ptp);
 
     return true;
@@ -196,7 +196,7 @@ static bool read_basic_table(sfud_flash *flash, sfdp_para_header *basic_header)
 
     /* read JEDEC basic flash parameter table */
     if (read_sfdp_data(flash, table_addr, table, sizeof(table)) != SFUD_SUCCESS) {
-        SFUD_INFO("Error: Can't read JEDEC basic flash parameter table.");
+        SFUD_INFO("Warning: Can't read JEDEC basic flash parameter table.");
         return false;
     }
     /* print JEDEC basic flash parameter table info */
@@ -287,7 +287,7 @@ static bool read_basic_table(sfud_flash *flash, sfdp_para_header *basic_header)
         return false;
     }
     /* get flash memory capacity */
-    uint32_t table2_temp = (table[7] << 24) | (table[6] << 16) | (table[5] << 8) | table[4];
+    uint32_t table2_temp = ((long)table[7] << 24) | ((long)table[6] << 16) | ((long)table[5] << 8) | (long)table[4];
     switch ((table[7] & (0x01 << 7)) >> 7) {
     case 0:
         sfdp->capacity = 1 + (table2_temp >> 3);
@@ -299,14 +299,14 @@ static bool read_basic_table(sfud_flash *flash, sfdp_para_header *basic_header)
             SFUD_INFO("Error: The flash capacity is grater than 32 Gb/ 4 GB! Not Supported.");
             return false;
         }
-        sfdp->capacity = 1 << (table2_temp - 3);
+        sfdp->capacity = 1L << (table2_temp - 3);
         break;
     }
     SFUD_DEBUG("Capacity is %ld Bytes.", sfdp->capacity);
     /* get erase size and erase command  */
     for (i = 0, j = 0; i < SFUD_SFDP_ERASE_TYPE_MAX_NUM; i++) {
         if (table[28 + 2 * i] != 0x00) {
-            sfdp->eraser[j].size = 1 << table[28 + 2 * i];
+            sfdp->eraser[j].size = 1L << table[28 + 2 * i];
             sfdp->eraser[j].cmd = table[28 + 2 * i + 1];
             SFUD_DEBUG("Flash device supports %ldKB block erase. Command is 0x%02X.", sfdp->eraser[j].size / 1024,
                     sfdp->eraser[j].cmd);
@@ -344,7 +344,7 @@ static sfud_err read_sfdp_data(const sfud_flash *flash, uint32_t addr, uint8_t *
     };
 
     SFUD_ASSERT(flash);
-    SFUD_ASSERT(addr < 1 << 24);
+    SFUD_ASSERT(addr < 1L << 24);
     SFUD_ASSERT(read_buf);
     SFUD_ASSERT(flash->spi.wr);
 

components/drivers/spi/spi_flash_sfud.c

@@ -250,8 +250,13 @@ rt_spi_flash_device_t rt_sfud_flash_probe(const char *spi_flash_dev_name, const
     spi_flash_dev_name_bak = (char *) rt_malloc(rt_strlen(spi_flash_dev_name) + 1);
     spi_dev_name_bak = (char *) rt_malloc(rt_strlen(spi_dev_name) + 1);
 
-    if (rtt_dev && sfud_dev && spi_flash_dev_name_bak && spi_dev_name_bak) {
+    if (rtt_dev) {
         rt_memset(rtt_dev, 0, sizeof(struct spi_flash_device));
+        /* initialize lock */
+        rt_mutex_init(&(rtt_dev->lock), spi_flash_dev_name, RT_IPC_FLAG_FIFO);
+    }
+    
+    if (rtt_dev && sfud_dev && spi_flash_dev_name_bak && spi_dev_name_bak) {
         rt_memset(sfud_dev, 0, sizeof(sfud_flash));
         rt_strncpy(spi_flash_dev_name_bak, spi_flash_dev_name, rt_strlen(spi_flash_dev_name));
         rt_strncpy(spi_dev_name_bak, spi_dev_name, rt_strlen(spi_dev_name));
@@ -268,8 +273,6 @@ rt_spi_flash_device_t rt_sfud_flash_probe(const char *spi_flash_dev_name, const
             }
             sfud_dev->spi.name = spi_dev_name_bak;
             rt_spi_configure(rtt_dev->rt_spi_device, &cfg);
-            /* initialize lock */
-            rt_mutex_init(&(rtt_dev->lock), spi_flash_dev_name, RT_IPC_FLAG_FIFO);
         }
         /* SFUD flash device initialize */
         {
@@ -308,6 +311,10 @@ rt_spi_flash_device_t rt_sfud_flash_probe(const char *spi_flash_dev_name, const
     }
 
 error:
+
+    if (rtt_dev) {
+        rt_mutex_detach(&(rtt_dev->lock));
+    }
     /* may be one of objects memory was malloc success, so need free all */
     rt_free(rtt_dev);
     rt_free(sfud_dev);