[已解决]使用 flash_encryption 不断重启

zhangjianian
Posts: 10
Joined: Wed Apr 26, 2023 11:55 am

[已解决]使用 flash_encryption 不断重启

Postby zhangjianian » Wed Apr 26, 2023 12:15 pm

我使用 flash_encryption 例子不断重启,具体信息如下:
开发板:ESP32-S3-DevKitC-1-N32R8V
IDF:v5.0

重启日志:

Code: Select all

ELF file SHA256: c283c4f9cdaf5567

Rebooting...
ESP-ROM:esp32s3-20210327
Build:Mar 27 2021
rst:0x3 (RTC_SW_SYS_RST),boot:0x8 (SPI_FAST_FLASH_BOOT)
Saved PC:0x40375755
0x40375755: esp_restart_noos_dig at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/esp_system/esp_system.c:46 (discriminator 1)

SPIWP:0xee
Octal Flash Mode Enabled
For OPI Flash, Use Default Flash Boot Mode
mode:SLOW_RD, clock div:1
load:0x3fce3978,len:0x29e0
load:0x403c9700,len:0xbe8
load:0x403cc700,len:0x44d4
entry 0x403c9904
I (51) boot: ESP-IDF v5.0-dirty 2nd stage bootloader
I (51) boot: compile time 18:49:52
I (52) boot: chip revision: v0.1
I (54) boot_comm: chip revision: 1, min. bootloader chip revision: 0
I (61) boot.esp32s3: Boot SPI Speed : 80MHz
I (65) boot.esp32s3: SPI Mode       : SLOW READ
I (71) boot.esp32s3: SPI Flash Size : 2MB
I (75) boot: Enabling RNG early entropy source...
I (81) boot: Partition Table:
I (84) boot: ## Label            Usage          Type ST Offset   Length
I (92) boot:  0 nvs              WiFi data        01 02 0000a000 00006000
I (99) boot:  1 storage          Unknown data     01 ff 00010000 00001000
I (107) boot:  2 factory          factory app      00 00 00020000 00100000
I (114) boot:  3 nvs_key          NVS keys         01 04 00120000 00001000
I (122) boot:  4 custom_nvs       WiFi data        01 02 00121000 00006000
I (129) boot: End of partition table
I (134) boot_comm: chip revision: 1, min. application chip revision: 0
I (141) esp_image: segment 0: paddr=00020020 vaddr=3c020020 size=09c74h ( 40052) map
I (160) esp_image: segment 1: paddr=00029c9c vaddr=3fc91900 size=02ae8h ( 10984) load
I (163) esp_image: segment 2: paddr=0002c78c vaddr=40374000 size=0388ch ( 14476) load
I (171) esp_image: segment 3: paddr=00030020 vaddr=42000020 size=1e1b0h (123312) map
I (206) esp_image: segment 4: paddr=0004e1d8 vaddr=4037788c size=0a014h ( 40980) load
I (219) esp_image: segment 5: paddr=000581f4 vaddr=50000000 size=00010h (    16) load
I (225) boot: Loaded app from partition at offset 0x20000
I (225) boot: Checking flash encryption...
I (227) flash_encrypt: flash encryption is enabled (1 plaintext flashes left)
I (235) boot: Disabling RNG early entropy source...
I (251) cpu_start: Pro cpu up.
I (252) cpu_start: Starting app cpu, entry point is 0x403752b4
0x403752b4: call_start_cpu1 at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/esp_system/port/cpu_start.c:142

I (0) cpu_start: App cpu up.
I (266) cpu_start: Pro cpu start user code
I (267) cpu_start: cpu freq: 160000000 Hz
I (267) cpu_start: Application information:
I (270) cpu_start: Project name:     flash_encryption
I (275) cpu_start: App version:      1
I (280) cpu_start: Compile time:     Apr 26 2023 18:49:37
I (286) cpu_start: ELF file SHA256:  c283c4f9cdaf5567...
I (292) cpu_start: ESP-IDF:          v5.0-dirty
I (297) heap_init: Initializing. RAM available for dynamic allocation:
I (304) heap_init: At 3FC94E40 len 000548D0 (338 KiB): D/IRAM
I (311) heap_init: At 3FCE9710 len 00005724 (21 KiB): STACK/DRAM
I (317) heap_init: At 3FCF0000 len 00008000 (32 KiB): DRAM
I (323) heap_init: At 600FE010 len 00001FF0 (7 KiB): RTCRAM
I (331) spi_flash: detected chip: mxic
W (334) spi_flash: Detected flash size > 16 MB, but access beyond 16 MB is not supported for this flash model yet.
I (345) spi_flash: flash io: dio
W (349) spi_flash: Detected size(32768k) larger than the size in the binary image header(2048k). Using the size in the binary image header.
W (362) flash_encrypt: Flash encryption mode is DEVELOPMENT (not secure)
I (371) cpu_start: Starting scheduler on PRO CPU.
I (0) cpu_start: Starting scheduler on APP CPU.

Example to check Flash Encryption status
This is esp32s3 chip with 2 CPU core(s), WiFi/BLE, silicon revision v0.1, 2MB external flash
FLASH_CRYPT_CNT eFuse value is 1
Flash encryption feature is enabled in DEVELOPMENT mode
Erasing partition "storage" (0x1000 bytes)
Writing data with esp_partition_write:
I (514) example: 0x3fcf3b10   00 01 02 03 04 05 06 07  08 09 0a 0b 0c 0d 0e 0f  |................|
I (514) example: 0x3fcf3b20   10 11 12 13 14 15 16 17  18 19 1a 1b 1c 1d 1e 1f  |................|
Reading with esp_partition_read:
I (524) example: 0x3fcf3af0   00 01 02 03 04 05 06 07  08 09 0a 0b 0c 0d 0e 0f  |................|
I (534) example: 0x3fcf3b00   10 11 12 13 14 15 16 17  18 19 1a 1b 1c 1d 1e 1f  |................|
Reading with esp_flash_read:
I (554) example: 0x3fcf3af0   ff ff ff ff ff ff ff ff  ff ff ff ff ff ff ff ff  |................|
I (554) example: 0x3fcf3b00   ff ff ff ff ff ff ff ff  ff ff ff ff ff ff ff ff  |................|
I (564) nvs: NVS key partition empty, generating keys
I (634) nvs: NVS partition "nvs" is encrypted.
E (634) example: Failed to read NVS security cfg: [0x1116] (ESP_ERR_NVS_KEYS_NOT_INITIALIZED)
ESP_ERROR_CHECK failed: esp_err_t 0x1116 (ESP_ERR_NVS_KEYS_NOT_INITIALIZED) at 0x4200829e
0x4200829e: app_main at D:/WorkSpace/Espressif/security/flash_encryption/main/flash_encrypt_main.c:87 (discriminator 1)

file: "./main/flash_encrypt_main.c" line 87
func: app_main
expression: ret

abort() was called at PC 0x4037a2d7 on core 0
0x4037a2d7: _esp_error_check_failed at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/esp_system/esp_err.c:47



Backtrace: 0x40375db6:0x3fcf3a70 0x4037a2e1:0x3fcf3a90 0x4037f7e6:0x3fcf3ab0 0x4037a2d7:0x3fcf3b20 0x4200829e:0x3fcf3b50 0x4201dfdf:0x3fcf3b70 0x4037ccb9:0x3fcf3ba0
0x40375db6: panic_abort at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/esp_system/panic.c:412

0x4037a2e1: esp_system_abort at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/esp_system/esp_system.c:135

0x4037f7e6: abort at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/newlib/abort.c:38

0x4037a2d7: _esp_error_check_failed at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/esp_system/esp_err.c:47

0x4200829e: app_main at D:/WorkSpace/Espressif/security/flash_encryption/main/flash_encrypt_main.c:87 (discriminator 1)

0x4201dfdf: main_task at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/freertos/FreeRTOS-Kernel/portable/port_common.c:131 (discriminator 2)

0x4037ccb9: vPortTaskWrapper at D:/Studio/Espressif/frameworks/esp-idf-v5.0/components/freertos/FreeRTOS-Kernel/portable/xtensa/port.c:151
Summary:

Code: Select all

espefuse.py v4.4
Connecting...
Failed to get PID of a device on com3, using standard reset sequence.
.
Detecting chip type... ESP32-S3

=== Run "summary" command ===
EFUSE_NAME (Block) Description  = [Meaningful Value] [Readable/Writeable] (Hex Value)
----------------------------------------------------------------------------------------
Calibration fuses:
TEMP_SENSOR_CAL (BLOCK2)                           ??? Temperature calibration                        = -23.5 R/W (0b111101011)
ADC1_MODE0_D2 (BLOCK2)                             ??? ADC1 calibration 1                             = 28 R/W (0x07)
ADC1_MODE1_D2 (BLOCK2)                             ??? ADC1 calibration 2                             = 216 R/W (0x36)
ADC1_MODE2_D2 (BLOCK2)                             ??? ADC1 calibration 3                             = -432 R/W (0xec)
ADC1_MODE3_D2 (BLOCK2)                             ??? ADC1 calibration 4                             = 200 R/W (0x32)
ADC2_MODE0_D2 (BLOCK2)                             ??? ADC2 calibration 5                             = -332 R/W (0xd3)
ADC2_MODE1_D2 (BLOCK2)                             ??? ADC2 calibration 6                             = -192 R/W (0xb0)
ADC2_MODE2_D2 (BLOCK2)                             ??? ADC2 calibration 7                             = -324 R/W (0xd1)
ADC2_MODE3_D2 (BLOCK2)                             ??? ADC2 calibration 8                             = -424 R/W (0xea)
ADC1_MODE0_D1 (BLOCK2)                             ??? ADC1 calibration 9                             = 16 R/W (0b000100)
ADC1_MODE1_D1 (BLOCK2)                             ??? ADC1 calibration 10                            = -80 R/W (0b110100)
ADC1_MODE2_D1 (BLOCK2)                             ??? ADC1 calibration 11                            = -52 R/W (0b101101)
ADC1_MODE3_D1 (BLOCK2)                             ??? ADC1 calibration 12                            = 4 R/W (0b000001)
ADC2_MODE0_D1 (BLOCK2)                             ??? ADC2 calibration 13                            = -36 R/W (0b101001)
ADC2_MODE1_D1 (BLOCK2)                             ??? ADC2 calibration 14                            = 12 R/W (0b000011)
ADC2_MODE2_D1 (BLOCK2)                             ??? ADC2 calibration 15                            = -32 R/W (0b101000)
ADC2_MODE3_D1 (BLOCK2)                             ??? ADC2 calibration 16                            = 60 R/W (0b001111)

Config fuses:
DIS_ICACHE (BLOCK0)                                Disables ICache                                    = False R/W (0b0)
DIS_DCACHE (BLOCK0)                                Disables DCache                                    = False R/W (0b0)
DIS_DOWNLOAD_ICACHE (BLOCK0)                       Disables Icache when SoC is in Download mode       = True R/W (0b1)
DIS_DOWNLOAD_DCACHE (BLOCK0)                       Disables Dcache when SoC is in Download mode       = True R/W (0b1)
DIS_FORCE_DOWNLOAD (BLOCK0)                        Disables forcing chip into Download mode           = False R/W (0b0)
DIS_CAN (BLOCK0)                                   Disables the TWAI Controller hardware              = False R/W (0b0)
DIS_APP_CPU (BLOCK0)                               Disables APP CPU                                   = False R/W (0b0)
FLASH_TPUW (BLOCK0)                                Configures flash startup delay after SoC power-up, = 0 R/W (0x0)
                                                    unit is (ms/2). When the value is 15, delay is 7.
                                                   5 ms
DIS_DIRECT_BOOT (BLOCK0)                           Disables direct boot mode                          = True R/W (0b1)
DIS_USB_SERIAL_JTAG_ROM_PRINT (BLOCK0)             Disables USB-Serial-JTAG ROM printing              = False R/W (0b0)
FLASH_ECC_MODE (BLOCK0)                            Configures the ECC mode for SPI flash
   = 16-byte to 18-byte mode R/W (0b0)
DIS_USB_SERIAL_JTAG_DOWNLOAD_MODE (BLOCK0)         Disables USB-Serial-JTAG download feature in UART  = False R/W (0b0)
                                                   download boot mode
UART_PRINT_CONTROL (BLOCK0)                        Sets the default UART boot message output mode     = Enabled R/W (0b00)
FLASH_TYPE (BLOCK0)                                Selects SPI flash type                             = 8 data lines R/W (0b1)
FLASH_PAGE_SIZE (BLOCK0)                           Sets the size of flash page                        = 0 R/W (0b00)
FLASH_ECC_EN (BLOCK0)                              Enables ECC in Flash boot mode                     = False R/W (0b0)
FORCE_SEND_RESUME (BLOCK0)                         Forces ROM code to send an SPI flash resume comman = False R/W (0b0)
                                                   d during SPI boot
DIS_USB_OTG_DOWNLOAD_MODE (BLOCK0)                 Disables USB-OTG download feature in UART download = True R/W (0b1)
                                                    boot mode
DISABLE_WAFER_VERSION_MAJOR (BLOCK0)               Disables check of wafer version major              = False R/W (0b0)
DISABLE_BLK_VERSION_MAJOR (BLOCK0)                 Disables check of blk version major                = False R/W (0b0)
BLOCK_USR_DATA (BLOCK3)                            User data
   = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 R/W

Efuse fuses:
WR_DIS (BLOCK0)                                    Disables programming of individual eFuses          = 8388864 R/W (0x00800100)
RD_DIS (BLOCK0)                                    Disables software reading from BLOCK4-10           = 1 R/W (0b0000001)

Identity fuses:
SECURE_VERSION (BLOCK0)                            Secure version (used by ESP-IDF anti-rollback feat = 0 R/W (0x0000)
                                                   ure)
MAC (BLOCK1)                                       Factory MAC Address
   = 7c:df:a1:fa:da:a8 (OK) R/W
WAFER_VERSION_MINOR_LO (BLOCK1)                    WAFER_VERSION_MINOR least significant bits         = 1 R/W (0b001)
PKG_VERSION (BLOCK1)                               Package version                                    = 0 R/W (0b000)
BLK_VERSION_MINOR (BLOCK1)                         BLOCK version minor                                = 2 R/W (0b010)
WAFER_VERSION_MINOR_HI (BLOCK1)                    WAFER_VERSION_MINOR most significant bits          = 0 R/W (0b0)
WAFER_VERSION_MAJOR (BLOCK1)                       WAFER_VERSION_MAJOR                                = 0 R/W (0b00)
OPTIONAL_UNIQUE_ID (BLOCK2)                        Optional unique 128-bit ID
   = 10 da 23 06 bb 2c 2d a2 43 d2 3a 66 d0 32 6a 51 R/W
BLK_VERSION_MAJOR (BLOCK2)                         BLOCK version major                                = With calibration R/W (0b01)
CUSTOM_MAC (BLOCK3)                                Custom MAC Address
   = 00:00:00:00:00:00 (OK) R/W
WAFER_VERSION_MINOR (BLOCK0)                       calc WAFER VERSION MINOR = WAFER_VERSION_MINOR_HI  = 1 R/W (0x1)
                                                   << 3 + WAFER_VERSION_MINOR_LO (read only)

Security fuses:
SOFT_DIS_JTAG (BLOCK0)                             Software disables JTAG by programming odd number o = 0 R/W (0b000)
                                                   f 1 bit(s). JTAG can be re-enabled via HMAC periph
                                                   eral
HARD_DIS_JTAG (BLOCK0)                             Hardware disables JTAG permanently                 = True R/W (0b1)
DIS_DOWNLOAD_MANUAL_ENCRYPT (BLOCK0)               Disables flash encryption when in download boot mo = False R/W (0b0)
                                                   des
SPI_BOOT_CRYPT_CNT (BLOCK0)                        Enables encryption and decryption, when an SPI boo = Enable R/W (0b001)
                                                   t mode is set. Enabled when 1 or 3 bits are set,di
                                                   sabled otherwise
SECURE_BOOT_KEY_REVOKE0 (BLOCK0)                   Revokes use of secure boot key digest 0            = False R/W (0b0)
SECURE_BOOT_KEY_REVOKE1 (BLOCK0)                   Revokes use of secure boot key digest 1            = False R/W (0b0)
SECURE_BOOT_KEY_REVOKE2 (BLOCK0)                   Revokes use of secure boot key digest 2            = False R/W (0b0)
KEY_PURPOSE_0 (BLOCK0)                             KEY0 purpose                                       = XTS_AES_128_KEY R/- (0x4)
KEY_PURPOSE_1 (BLOCK0)                             KEY1 purpose                                       = USER R/W (0x0)
KEY_PURPOSE_2 (BLOCK0)                             KEY2 purpose                                       = USER R/W (0x0)
KEY_PURPOSE_3 (BLOCK0)                             KEY3 purpose                                       = USER R/W (0x0)
KEY_PURPOSE_4 (BLOCK0)                             KEY4 purpose                                       = USER R/W (0x0)
KEY_PURPOSE_5 (BLOCK0)                             KEY5 purpose                                       = USER R/W (0x0)
SECURE_BOOT_EN (BLOCK0)                            Enables secure boot                                = False R/W (0b0)
SECURE_BOOT_AGGRESSIVE_REVOKE (BLOCK0)             Enables aggressive secure boot key revocation mode = False R/W (0b0)
STRAP_JTAG_SEL (BLOCK0)                            Enable selection between usb_to_jtagor pad_to_jtag = False R/W (0b0)
                                                    through GPIO3
DIS_DOWNLOAD_MODE (BLOCK0)                         Disables all Download boot modes                   = False R/W (0b0)
ENABLE_SECURITY_DOWNLOAD (BLOCK0)                  Enables secure UART download mode (read/write flas = False R/W (0b0)
                                                   h only)
BLOCK_KEY0 (BLOCK4)
  Purpose: XTS_AES_128_KEY
    Encryption key0 or user data
   = ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? ?? -/-
BLOCK_KEY1 (BLOCK5)
  Purpose: USER
               Encryption key1 or user data
   = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 R/W
BLOCK_KEY2 (BLOCK6)
  Purpose: USER
               Encryption key2 or user data
   = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 R/W
BLOCK_KEY3 (BLOCK7)
  Purpose: USER
               Encryption key3 or user data
   = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 R/W
BLOCK_KEY4 (BLOCK8)
  Purpose: USER
               Encryption key4 or user data
   = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 R/W
BLOCK_KEY5 (BLOCK9)
  Purpose: USER
               Encryption key5 or user data
   = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 R/W
BLOCK_SYS_DATA2 (BLOCK10)                          System data (part 2)
   = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 R/W

Spi_Pad_Config fuses:
SPI_PAD_CONFIG_CLK (BLOCK1)                        SPI CLK pad                                        = 0 R/W (0b000000)
SPI_PAD_CONFIG_Q (BLOCK1)                          SPI Q (D1) pad                                     = 0 R/W (0b000000)
SPI_PAD_CONFIG_D (BLOCK1)                          SPI D (D0) pad                                     = 0 R/W (0b000000)
SPI_PAD_CONFIG_CS (BLOCK1)                         SPI CS pad                                         = 0 R/W (0b000000)
SPI_PAD_CONFIG_HD (BLOCK1)                         SPI HD (D3) pad                                    = 0 R/W (0b000000)
SPI_PAD_CONFIG_WP (BLOCK1)                         SPI WP (D2) pad                                    = 0 R/W (0b000000)
SPI_PAD_CONFIG_DQS (BLOCK1)                        SPI DQS pad                                        = 0 R/W (0b000000)
SPI_PAD_CONFIG_D4 (BLOCK1)                         SPI D4 pad                                         = 0 R/W (0b000000)
SPI_PAD_CONFIG_D5 (BLOCK1)                         SPI D5 pad                                         = 0 R/W (0b000000)
SPI_PAD_CONFIG_D6 (BLOCK1)                         SPI D6 pad                                         = 0 R/W (0b000000)
SPI_PAD_CONFIG_D7 (BLOCK1)                         SPI D7 pad                                         = 0 R/W (0b000000)

Usb Config fuses:
DIS_USB (BLOCK0)                                   Disables the USB OTG hardware                      = False R/W (0b0)
USB_EXCHG_PINS (BLOCK0)                            Exchanges USB D+ and D- pins                       = False R/W (0b0)
EXT_PHY_ENABLE (BLOCK0)                            Enables external USB PHY                           = False R/W (0b0)
BTLC_GPIO_ENABLE (BLOCK0)                          Enables BTLC GPIO                                  = 0 R/W (0b00)
DIS_USB_JTAG (BLOCK0)                              Disable usb_serial_jtag-to-jtag function           = True R/W (0b1)
DIS_USB_SERIAL_JTAG (BLOCK0)                       Disable usb_serial_jtag module                     = False R/W (0b0)
USB_PHY_SEL (BLOCK0)                               Select internal/external PHY for USB OTGand usb_se = False R/W (0b0)
                                                   rial_jtag

Vdd_Spi Config fuses:
VDD_SPI_XPD (BLOCK0)                               The VDD_SPI regulator is powered on                = True R/W (0b1)
VDD_SPI_TIEH (BLOCK0)                              The VDD_SPI power supply voltage at reset          = Connect to 1.8V LDO R/W (0b0)
VDD_SPI_FORCE (BLOCK0)                             Force using VDD_SPI_XPD and VDD_SPI_TIEH to config = True R/W (0b1)
                                                   ure VDD_SPI LDO
PIN_POWER_SELECTION (BLOCK0)                       Sets default power supply for GPIO33..37           = VDD_SPI R/W (0b1)

Wdt Config fuses:
WDT_DELAY_SEL (BLOCK0)                             Selects RTC WDT timeout threshold at startup       = 0 R/W (0b00)

Flash voltage (VDD_SPI) set to 1.8V by efuse.

问题:
1. 都是默认设置,重启的原因?怎么解决?
2. 日志显示的这部分,是否正常?
Reading with esp_flash_read:
I (554) example: 0x3fcf3af0 ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff |................|
I (554) example: 0x3fcf3b00 ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff |................|
十分感谢!
Attachments
NVS.png
NVS.png (5.98 KiB) Viewed 2290 times
Security features.png
Security features.png (22.64 KiB) Viewed 2290 times
Last edited by zhangjianian on Mon Jul 24, 2023 6:47 am, edited 1 time in total.

ESP_WangYX
Posts: 97
Joined: Mon Jun 28, 2021 12:48 pm

Re: 使用 flash_encryption 不断重启

Postby ESP_WangYX » Tue May 09, 2023 8:58 am

Hi,从示例的 log 看已经成功启用 flash 加密了。启用 flash 加密后,使用 esp_partition_* 类型的 API 将自动进行 加密\解密。因此 esp_partition_read() 读出的内容就是 esp_partition_write() 写的内容。低级的 flash 读写接口,如 esp_flash_* 在读写时不会自动加解密,因此读出的内容不是 esp_partition_write() 写的内容,参考:https://docs.espressif.com/projects/esp ... pted-flash
示例中重启原因为初始化 nvs_key 失败,示例在启用 flash 加密后,默认启动 nvs 加密,在生成 nvs_key 时若该分区存在脏数据就会报错。修正方法:先擦除这块分区的数据,再重启设备就好了。

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