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NVS Partition Generator Utility

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Introduction

The utility nvs_flash/nvs_partition_generator/nvs_partition_gen.py creates a binary file, compatible with the NVS architecture defined in Non-Volatile Storage Library, based on the key-value pairs provided in a CSV file.

This utility is ideally suited for generating a binary blob, containing data specific to ODM/OEM, which can be flashed externally at the time of device manufacturing. This allows manufacturers to generate many instances of the same application firmware with customized parameters for each device, such as a serial number.

Prerequisites

To use this utility in encryption mode, install the following packages:
  • cryptography

All the required packages are included in requirements.txt in the root of the ESP-IDF directory.

CSV File Format

Each line of a CSV file should contain 4 parameters, separated by a comma. The table below describes each of these parameters.

No.

Parameter

Description

Notes

1

Key

Key of the data. The data can be accessed later from an application using this key.

2

Type

Supported values are file, data, and namespace.

3

Encoding

Supported values are: u8, i8, u16, i16, u32, i32, u64, i64, string, hex2bin, base64, and binary. This specifies how actual data values are encoded in the resulting binary file. The difference between the string and binary encoding is that string data is terminated with a NULL character, whereas binary data is not.

As of now, for the file type, only hex2bin, base64, string, and binary encoding is supported.

4

Value

Data value

Encoding and Value cells for the namespace field type should be empty. Encoding and Value of namespace are fixed and are not configurable. Any values in these cells are ignored.

Note

The first line of the CSV file should always be the column header and it is not configurable.

Below is an example dump of such a CSV file:

key,type,encoding,value     <-- column header
namespace_name,namespace,,  <-- First entry should be of type "namespace"
key1,data,u8,1
key2,file,string,/path/to/file

Note

Make sure there are no spaces:
  • before and after ','

  • at the end of each line in a CSV file

NVS Entry and Namespace Association

When a namespace entry is encountered in a CSV file, each following entry will be treated as part of that namespace until the next namespace entry is found. At this point, all the following entries will be treated as part of the new namespace.

Note

First entry in a CSV file should always be a namespace entry.

Multipage Blob Support

By default, binary blobs are allowed to span over multiple pages and are written in the format mentioned in Section Structure of Entry. If you intend to use the older format, the utility provides an option to disable this feature.

Encryption-Decryption Support

The NVS Partition Generator utility also allows you to create an encrypted binary file and decrypt an encrypted one. The utility uses the XTS-AES encryption. Please refer to NVS Encryption for more details.

Running the Utility

Usage:

python nvs_partition_gen.py [-h] {generate,generate-key,encrypt,decrypt} ...

Optional Arguments:

No.

Parameter

Description

1

-h / --help

Show the help message and exit

Commands:

Run nvs_partition_gen.py {command} -h for additional help

No.

Parameter

Description

1

generate

Generate NVS partition

2

generate-key

Generate keys for encryption

3

encrypt

Generate NVS encrypted partition

4

decrypt

Decrypt NVS encrypted partition

Generate NVS Partition (Default)

Usage:

python nvs_partition_gen.py generate [-h] [--version {1,2}] [--outdir OUTDIR] input output size

Positional Arguments:

Parameter

Description

input

Path to CSV file to parse

output

Path to output NVS binary file

size

Size of NVS partition in bytes (must be multiple of 4096)

Optional Arguments:

Parameter

Description

-h / --help

Show the help message and exit

--version {1,2}

Set multipage blob version (Default: Version 2)

Version 1 - Multipage blob support disabled

Version 2 - Multipage blob support enabled

--outdir OUTDIR

Output directory to store file created (Default: current directory)

You can run the utility to generate NVS partition using the command below. A sample CSV file is provided with the utility:

python nvs_partition_gen.py generate sample_singlepage_blob.csv sample.bin 0x3000

Generate Encryption Keys Partition

Usage:

python nvs_partition_gen.py generate-key [-h] [--key_protect_hmac] [--kp_hmac_keygen]
                                            [--kp_hmac_keyfile KP_HMAC_KEYFILE] [--kp_hmac_inputkey KP_HMAC_INPUTKEY]
                                            [--keyfile KEYFILE] [--outdir OUTDIR]

Optional Arguments:

Parameter

Description

-h / --help

Show the help message and exit

--keyfile KEYFILE

Path to output encryption keys file

--outdir OUTDIR

Output directory to store files created. (Default: current directory)

Optional Arguments (HMAC scheme-specific):

Parameter

Description

--key_protect_hmac

If set, the NVS encryption key protection scheme based on HMAC peripheral is used; else the default scheme based on flash encryption is used

--kp_hmac_keygen

Generate the HMAC key for HMAC-based encryption scheme

--kp_hmac_keyfile KP_HMAC_KEYFILE

Path to output the HMAC key file

--kp_hmac_inputkey KP_HMAC_INPUTKEY

File having the HMAC key for generating the NVS encryption keys

You can run the utility to generate only the encryption key partition using the command below:

python nvs_partition_gen.py generate-key

For generating encryption key for the HMAC-based scheme, the following commands can be used:

  • Generate the HMAC key and the NVS encryption keys:

    python nvs_partition_gen.py generate-key --key_protect_hmac --kp_hmac_keygen
    

Note

Encryption key of the format <outdir>/keys/keys-<timestamp>.bin and HMAC key of the format <outdir>/keys/hmac-keys-<timestamp>.bin are created.

  • Generate the NVS encryption keys, given the HMAC key:

    python nvs_partition_gen.py generate-key --key_protect_hmac --kp_hmac_inputkey testdata/sample_hmac_key.bin
    

Note

You can provide the custom filename for the HMAC key as well as the encryption key as a parameter.

Generate Encrypted NVS Partition

Usage:

python nvs_partition_gen.py encrypt [-h] [--version {1,2}] [--keygen]
                                    [--keyfile KEYFILE] [--inputkey INPUTKEY] [--outdir OUTDIR]
                                    [--key_protect_hmac] [--kp_hmac_keygen]
                                    [--kp_hmac_keyfile KP_HMAC_KEYFILE] [--kp_hmac_inputkey KP_HMAC_INPUTKEY]
                                    input output size

Positional Arguments:

Parameter

Description

input

Path to CSV file to parse

output

Path to output NVS binary file

size

Size of NVS partition in bytes (must be multiple of 4096)

Optional Arguments:

Parameter

Description

-h / --help

Show the help message and exit

--version {1,2}

Set multipage blob version (Default: Version 2)

Version 1 - Multipage blob support disabled

Version 2 - Multipage blob support enabled

--keygen

Generates key for encrypting NVS partition

--keyfile KEYFILE

Path to output encryption keys file

--inputkey INPUTKEY

File having key for encrypting NVS partition

--outdir OUTDIR

Output directory to store file created (Default: current directory)

Optional Arguments (HMAC scheme-specific):

Parameter

Description

--key_protect_hmac

If set, the NVS encryption key protection scheme based on HMAC peripheral is used; else the default scheme based on flash encryption is used

--kp_hmac_keygen

Generate the HMAC key for HMAC-based encryption scheme

--kp_hmac_keyfile KP_HMAC_KEYFILE

Path to output HMAC key file

--kp_hmac_inputkey KP_HMAC_INPUTKEY

File having the HMAC key for generating the NVS encryption keys

You can run the utility to encrypt NVS partition using the command below. A sample CSV file is provided with the utility:

  • Encrypt by allowing the utility to generate encryption keys:

    python nvs_partition_gen.py encrypt sample_singlepage_blob.csv sample_encr.bin 0x3000 --keygen
    

    Note

    Encryption key of the format <outdir>/keys/keys-<timestamp>.bin is created.

  • To generate an encrypted partition using the HMAC-based scheme, the above command can be used along with some additional parameters.

    • Encrypt by allowing the utility to generate encryption keys and the HMAC-key:

      python nvs_partition_gen.py encrypt sample_singlepage_blob.csv sample_encr.bin 0x3000 --keygen --key_protect_hmac --kp_hmac_keygen
      

    Note

    Encryption key of the format <outdir>/keys/keys-<timestamp>.bin and HMAC key of the format <outdir>/keys/hmac-keys-<timestamp>.bin are created.

    • Encrypt by allowing the utility to generate encryption keys with user-provided HMAC-key:

      python nvs_partition_gen.py encrypt sample_singlepage_blob.csv sample_encr.bin 0x3000 --keygen --key_protect_hmac --kp_hmac_inputkey testdata/sample_hmac_key.bin
      

Note

You can provide the custom filename for the HMAC key as well as the encryption key as a parameter.

  • Encrypt by allowing the utility to generate encryption keys and store it in provided custom filename:

    python nvs_partition_gen.py encrypt sample_singlepage_blob.csv sample_encr.bin 0x3000 --keygen --keyfile sample_keys.bin
    

Note

  • Encryption key of the format <outdir>/keys/sample_keys.bin is created.

  • This newly created file having encryption keys in keys/ directory is compatible with NVS key-partition structure. Refer to NVS Key Partition for more details.

  • Encrypt by providing the encryption keys as input binary file:

    python nvs_partition_gen.py encrypt sample_singlepage_blob.csv sample_encr.bin 0x3000 --inputkey sample_keys.bin
    

Decrypt Encrypted NVS Partition

Usage:

python nvs_partition_gen.py decrypt [-h] [--outdir OUTDIR] input key output

Positional Arguments:

Parameter

Description

input

Path to encrypted NVS partition file to parse

key

Path to file having keys for decryption

output

Path to output decrypted binary file

Optional Arguments:

Parameter

Description

-h / --help

Show the help message and exit

--outdir OUTDIR

Output directory to store files created. (Default: current directory)

You can run the utility to decrypt encrypted NVS partition using the command below:

python nvs_partition_gen.py decrypt sample_encr.bin sample_keys.bin sample_decr.bin
You can also provide the format version number:
  • Multipage blob support disabled (Version 1)

  • Multipage blob support enabled (Version 2)

Multipage Blob Support Disabled (Version 1)

You can run the utility in this format by setting the version parameter to 1, as shown below. A sample CSV file for the same is provided with the utility:

python nvs_partition_gen.py generate sample_singlepage_blob.csv sample.bin 0x3000 --version 1

Multipage Blob Support Enabled (Version 2)

You can run the utility in this format by setting the version parameter to 2, as shown below. A sample CSV file for the same is provided with the utility:

python nvs_partition_gen.py generate sample_multipage_blob.csv sample.bin 0x4000 --version 2

Note

  • Minimum NVS Partition Size needed is 0x3000 bytes.

  • When flashing the binary onto the device, make sure it is consistent with the application's sdkconfig.

Caveats

  • Utility does not check for duplicate keys and will write data pertaining to both keys. You need to make sure that the keys are distinct.

  • Once a new page is created, no data will be written in the space left on the previous page. Fields in the CSV file need to be ordered in such a way as to optimize memory.

  • 64-bit datatype is not yet supported.


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