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Merge branch 'update/nvs_partition_util' into 'master' 

Update for creation of unique filename for encryption keys

See merge request idf/esp-idf!3808
pull/3236/head
Angus Gratton 2019-03-28 15:07:44 +08:00
rodzic 85fb54a501 cd8c42600c
commit 6fcfdd3d6a
4 zmienionych plików z 412 dodań i 179 usunięć
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40
components/nvs_flash/nvs_partition_generator/README.rst
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@ -12,7 +12,7 @@ Prerequisites
To use this utility in encryption mode, the following packages need to be installed: To use this utility in encryption mode, the following packages need to be installed:
- cryptography package - cryptography package
This dependency is already captured by including these packages in `requirement.txt` in top level IDF directory. These dependencies is already captured by including these packages in `requirement.txt` in top level IDF directory.
CSV file format CSV file format
--------------- ---------------
@ -28,7 +28,7 @@ Type
Encoding Encoding
Supported values are: ``u8``, ``i8``, ``u16``, ``u32``, ``i32``, ``string``, ``hex2bin``, ``base64`` and ``binary``. This specifies how actual data values are encoded in the resultant binary file. Difference between ``string`` and ``binary`` encoding is that ``string`` data is terminated with a NULL character, whereas ``binary`` data is not. Supported values are: ``u8``, ``i8``, ``u16``, ``u32``, ``i32``, ``string``, ``hex2bin``, ``base64`` and ``binary``. This specifies how actual data values are encoded in the resultant binary file. Difference between ``string`` and ``binary`` encoding is that ``string`` data is terminated with a NULL character, whereas ``binary`` data is not.
.. note:: For ``file`` type, only ``hex2bin``, ``base64``, ``string`` and ``binary`` is supported as of now. .. note:: For ``file`` type, only ``hex2bin``, ``base64``, ``string`` and ``binary`` is supported as of now.
Value Value
Data value. Data value.
@ -44,7 +44,7 @@ Below is an example dump of such CSV file::
key1,data,u8,1 key1,data,u8,1
key2,file,string,/path/to/file key2,file,string,/path/to/file
.. note:: Make sure there are no spaces before and after ',' in CSV file. .. note:: Make sure there are no spaces before and after ',' or at the end of each line in CSV file.
NVS Entry and Namespace association NVS Entry and Namespace association
----------------------------------- -----------------------------------
@ -71,7 +71,7 @@ Running the utility
python nvs_partition_gen.py [-h] [--input INPUT] [--output OUTPUT] python nvs_partition_gen.py [-h] [--input INPUT] [--output OUTPUT]
[--size SIZE] [--version {v1,v2}] [--size SIZE] [--version {v1,v2}]
[--keygen {true,false}] [--encrypt {true,false}] [--keygen {true,false}] [--encrypt {true,false}]
[--keyfile KEYFILE] [--keyfile KEYFILE] [--outdir OUTDIR]
+------------------------+----------------------------------------------------------------------------------------------+ +------------------------+----------------------------------------------------------------------------------------------+
@ -85,15 +85,14 @@ Running the utility
+------------------------+----------------------------------------------------------------------------------------------+ +------------------------+----------------------------------------------------------------------------------------------+
| --version {v1,v2} | Set version. Default: v2 | | --version {v1,v2} | Set version. Default: v2 |
+------------------------+----------------------------------------------------------------------------------------------+ +------------------------+----------------------------------------------------------------------------------------------+
| --keygen {true,false} | Generate keys for encryption. Creates an `encryption_keys.bin` file (in current directory). | | --keygen {true,false} | Generate keys for encryption. |
| | Default: false |
+------------------------+----------------------------------------------------------------------------------------------+ +------------------------+----------------------------------------------------------------------------------------------+
| --encrypt {true,false} | Set encryption mode. Default: false | | --encrypt {true,false} | Set encryption mode. Default: false |
+------------------------+----------------------------------------------------------------------------------------------+ +------------------------+----------------------------------------------------------------------------------------------+
| --keyfile KEYFILE | File having key for encryption (Applicable only if encryption mode is true) | | --keyfile KEYFILE | File having key for encryption (Applicable only if encryption mode is true) |
+------------------------+----------------------------------------------------------------------------------------------+ +------------------------+----------------------------------------------------------------------------------------------+
| --outdir OUTDIR | The output directory to store the files created (Default: current directory) |
+------------------------+----------------------------------------------------------------------------------------------+
You can run this utility in two modes: You can run this utility in two modes:
- Default mode - Binary generated in this mode is an unencrypted binary file. - Default mode - Binary generated in this mode is an unencrypted binary file.
@ -108,7 +107,7 @@ You can run this utility in two modes:
python nvs_partition_gen.py [-h] --input INPUT --output OUTPUT python nvs_partition_gen.py [-h] --input INPUT --output OUTPUT
--size SIZE [--version {v1,v2}] --size SIZE [--version {v1,v2}]
[--keygen {true,false}] [--encrypt {true,false}] [--keygen {true,false}] [--encrypt {true,false}]
[--keyfile KEYFILE] [--keyfile KEYFILE] [--outdir OUTDIR]
You can run the utility using below command:: You can run the utility using below command::
@ -123,28 +122,34 @@ You can run the utility using below command::
python nvs_partition_gen.py [-h] --input INPUT --output OUTPUT python nvs_partition_gen.py [-h] --input INPUT --output OUTPUT
--size SIZE --encrypt {true,false} --size SIZE --encrypt {true,false}
--keygen {true,false} | --keyfile KEYFILE --keygen {true,false} --keyfile KEYFILE
[--version {v1,v2}] [--version {v1,v2}] [--outdir OUTDIR]
You can run the utility using below commands: You can run the utility using below commands:
- By taking encryption keys as an input file. A sample encryption keys binary file is provided with the utility::
python nvs_partition_gen.py --input sample.csv --output sample_encrypted.bin --size 0x3000 --encrypt true --keyfile testdata/sample_encryption_keys.bin
- By enabling generation of encryption keys:: - By enabling generation of encryption keys::
python nvs_partition_gen.py --input sample.csv --output sample_encrypted.bin --size 0x3000 --encrypt true --keygen true python nvs_partition_gen.py --input sample.csv --output sample_encrypted.bin --size 0x3000 --encrypt true --keygen true
- By taking encryption keys as an input file. A sample encryption keys binary file is provided with the utility::
python nvs_partition_gen.py --input sample.csv --output sample_encrypted.bin --size 0x3000 --encrypt true --keyfile testdata/sample_encryption_keys.bin
- By enabling generation of encryption keys and storing the keys in custom filename::
python nvs_partition_gen.py --input sample.csv --output sample_encrypted.bin --size 0x3000 --encrypt true --keygen true --keyfile encryption_keys_generated.bin
.. note:: If `--keygen` is given with `--keyfile` argument, generated keys will be stored in `--keyfile` file. If `--keygen` argument is absent, `--keyfile` is taken as input file having key for encryption.
*To generate* **only** *encryption keys with this utility* ( Creates an `encryption_keys.bin` file in current directory ): :: *To generate* **only** *encryption keys with this utility*::
python nvs_partition_gen.py --keygen true python nvs_partition_gen.py --keygen true
.. note:: This `encryption_keys.bin` file is compatible with NVS key-partition structure. Refer to :ref:`nvs_key_partition` for more details. This creates an `encryption_keys_<timestamp>.bin` file.
.. note:: This newly created file having encryption keys in `keys/` directory is compatible with NVS key-partition structure. Refer to :ref:`nvs_key_partition` for more details.
You can also provide the format version number (in any of the two modes): You can also provide the format version number (in any of the two modes):
@ -179,3 +184,4 @@ Caveats
- Utility doesn't check for duplicate keys and will write data pertaining to both keys. User needs to make sure keys are distinct. - Utility doesn't check for duplicate keys and will write data pertaining to both keys. User needs to make sure keys are distinct.
- Once a new page is created, no data will be written in the space left in previous page. Fields in the CSV file need to be ordered in such a way so as to optimize memory. - Once a new page is created, no data will be written in the space left in previous page. Fields in the CSV file need to be ordered in such a way so as to optimize memory.
- 64-bit datatype is not yet supported. - 64-bit datatype is not yet supported.

172
components/nvs_flash/nvs_partition_generator/nvs_partition_gen.py
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@ -31,8 +31,16 @@ import array
import csv import csv
import zlib import zlib
import codecs import codecs
from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes import datetime
from cryptography.hazmat.backends import default_backend import distutils.dir_util
try:
from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
from cryptography.hazmat.backends import default_backend
except ImportError:
print('The cryptography package is not installed.'
'Please refer to the Get Started section of the ESP-IDF Programming Guide for '
'setting up the required packages.')
raise
VERSION1_PRINT = "v1 - Multipage Blob Support Disabled" VERSION1_PRINT = "v1 - Multipage Blob Support Disabled"
VERSION2_PRINT = "v2 - Multipage Blob Support Enabled" VERSION2_PRINT = "v2 - Multipage Blob Support Enabled"
@ -615,7 +623,7 @@ def write_entry(nvs_instance, key, datatype, encoding, value):
if datatype == "file": if datatype == "file":
abs_file_path = value abs_file_path = value
if os.path.isabs(value) is False: if os.path.isabs(value) is False:
script_dir = os.path.dirname(__file__) script_dir = os.getcwd()
abs_file_path = os.path.join(script_dir, value) abs_file_path = os.path.join(script_dir, value)
with open(abs_file_path, 'rb') as f: with open(abs_file_path, 'rb') as f:
@ -637,7 +645,8 @@ def nvs_close(nvs_instance):
def check_input_args(input_filename=None, output_filename=None, input_part_size=None, is_key_gen=None, def check_input_args(input_filename=None, output_filename=None, input_part_size=None, is_key_gen=None,
encrypt_mode=None, key_file=None, version_no=None, print_arg_str=None, print_encrypt_arg_str=None): encrypt_mode=None, key_file=None, version_no=None, print_arg_str=None, print_encrypt_arg_str=None,
output_dir=None):
global version, is_encrypt_data, input_size, key_gen global version, is_encrypt_data, input_size, key_gen
@ -646,6 +655,12 @@ def check_input_args(input_filename=None, output_filename=None, input_part_size=
key_gen = is_key_gen key_gen = is_key_gen
input_size = input_part_size input_size = input_part_size
if not output_dir == os.getcwd() and (key_file and os.path.isabs(key_file)):
sys.exit("Error. Cannot provide --outdir argument as --keyfile is absolute path.")
if not os.path.isdir(output_dir):
distutils.dir_util.mkpath(output_dir)
if is_encrypt_data.lower() == 'true': if is_encrypt_data.lower() == 'true':
is_encrypt_data = True is_encrypt_data = True
elif is_encrypt_data.lower() == 'false': elif is_encrypt_data.lower() == 'false':
@ -668,18 +683,25 @@ def check_input_args(input_filename=None, output_filename=None, input_part_size=
elif any(arg is not None for arg in [input_filename, output_filename, input_size]): elif any(arg is not None for arg in [input_filename, output_filename, input_size]):
sys.exit(print_arg_str) sys.exit(print_arg_str)
else: else:
if not input_size: if not (input_filename and output_filename and input_size):
if not all(arg is not None for arg in [input_filename, output_filename]): sys.exit(print_arg_str)
sys.exit(print_arg_str)
if is_encrypt_data and not key_gen and not key_file: if is_encrypt_data and not key_gen and not key_file:
sys.exit(print_encrypt_arg_str) sys.exit(print_encrypt_arg_str)
if is_encrypt_data and key_gen and key_file: if not is_encrypt_data and key_file:
sys.exit(print_encrypt_arg_str) sys.exit("Invalid. Cannot give --keyfile as --encrypt is set to false.")
if not is_encrypt_data and key_file: if key_file:
sys.exit("Invalid. Cannot give --keyfile as --encrypt is set to false.") key_file_name, key_file_ext = os.path.splitext(key_file)
if key_file_ext:
if not key_file_ext == '.bin':
sys.exit("--keyfile argument can be a filename with no extension or .bin extension only")
# If only one of the arguments - input_filename, output_filename, input_size is given
if ((any(arg is None for arg in [input_filename, output_filename, input_size])) is True) and \
((all(arg is None for arg in [input_filename, output_filename, input_size])) is False):
sys.exit(print_arg_str)
if input_size: if input_size:
# Set size # Set size
@ -695,7 +717,8 @@ def check_input_args(input_filename=None, output_filename=None, input_part_size=
sys.exit("Minimum NVS partition size needed is 0x3000 bytes.") sys.exit("Minimum NVS partition size needed is 0x3000 bytes.")
def nvs_part_gen(input_filename=None, output_filename=None, input_part_size=None, is_key_gen=None, encrypt_mode=None, key_file=None, version_no=None): def nvs_part_gen(input_filename=None, output_filename=None, input_part_size=None, is_key_gen=None, encrypt_mode=None,
key_file=None, encr_key_prefix=None, version_no=None, output_dir=None):
""" Wrapper to generate nvs partition binary """ Wrapper to generate nvs partition binary
:param input_filename: Name of input file containing data :param input_filename: Name of input file containing data
@ -709,6 +732,9 @@ def nvs_part_gen(input_filename=None, output_filename=None, input_part_size=None
""" """
global key_input, key_len_needed global key_input, key_len_needed
encr_key_bin_file = None
encr_keys_dir = None
backslash = ['/','\\']
key_len_needed = 64 key_len_needed = 64
key_input = bytearray() key_input = bytearray()
@ -720,6 +746,8 @@ def nvs_part_gen(input_filename=None, output_filename=None, input_part_size=None
key_input = key_f.read(64) key_input = key_f.read(64)
if all(arg is not None for arg in [input_filename, output_filename, input_size]): if all(arg is not None for arg in [input_filename, output_filename, input_size]):
if not os.path.isabs(output_filename) and not any(ch in output_filename for ch in backslash):
output_filename = os.path.join(output_dir, '') + output_filename
input_file = open(input_filename, 'rt', encoding='utf8') input_file = open(input_filename, 'rt', encoding='utf8')
output_file = open(output_filename, 'wb') output_file = open(output_filename, 'wb')
@ -737,6 +765,8 @@ def nvs_part_gen(input_filename=None, output_filename=None, input_part_size=None
input_file.close() input_file.close()
output_file.close() output_file.close()
print("NVS binary created: " + output_filename)
if key_gen: if key_gen:
keys_page_buf = bytearray(b'\xff') * Page.PAGE_PARAMS["max_size"] keys_page_buf = bytearray(b'\xff') * Page.PAGE_PARAMS["max_size"]
key_bytes = bytearray() key_bytes = bytearray()
@ -750,57 +780,87 @@ def nvs_part_gen(input_filename=None, output_filename=None, input_part_size=None
crc_data = bytes(crc_data) crc_data = bytes(crc_data)
crc = zlib.crc32(crc_data, 0xFFFFFFFF) crc = zlib.crc32(crc_data, 0xFFFFFFFF)
struct.pack_into('<I', keys_page_buf, key_len, crc & 0xFFFFFFFF) struct.pack_into('<I', keys_page_buf, key_len, crc & 0xFFFFFFFF)
with open("encryption_keys.bin",'wb') as output_keys_file:
if not key_file or (key_file and not os.path.isabs(key_file)):
# Create encryption keys bin file with timestamp
if not encr_key_prefix:
timestamp = datetime.datetime.now().strftime('%m-%d_%H-%M')
output_dir = os.path.join(output_dir, '')
encr_keys_dir = output_dir + "keys"
if not os.path.isdir(encr_keys_dir):
distutils.dir_util.mkpath(encr_keys_dir)
# Add backslash to `keys` dir if it is not present
encr_keys_dir = os.path.join(encr_keys_dir, '')
if key_file:
key_file_name, ext = os.path.splitext(key_file)
if ext:
if ".bin" not in ext:
sys.exit("Error: --keyfile must have .bin extension")
encr_key_bin_file = os.path.basename(key_file)
else:
encr_key_bin_file = key_file_name + ".bin"
if encr_keys_dir:
encr_key_bin_file = encr_keys_dir + encr_key_bin_file
else:
if encr_key_prefix:
encr_key_bin_file = encr_keys_dir + encr_key_prefix + "-keys" + ".bin"
else:
encr_key_bin_file = encr_keys_dir + "encryption_keys_" + timestamp + ".bin"
with open(encr_key_bin_file,'wb') as output_keys_file:
output_keys_file.write(keys_page_buf) output_keys_file.write(keys_page_buf)
print("Binary created.") print("Encryption keys binary created: " + encr_key_bin_file)
def main(): def main():
parser = argparse.ArgumentParser(description="ESP32 NVS partition generation utility") parser = argparse.ArgumentParser(description="ESP32 NVS partition generation utility")
nvs_part_gen_group = parser.add_argument_group('To generate NVS partition') nvs_part_gen_group = parser.add_argument_group('To generate NVS partition')
nvs_part_gen_group.add_argument( nvs_part_gen_group.add_argument("--input",
"--input", help="Path to CSV file to parse.",
help="Path to CSV file to parse.", default=None)
default=None)
nvs_part_gen_group.add_argument( nvs_part_gen_group.add_argument("--output",
"--output", help='Path to output converted binary file.',
help='Path to output converted binary file.', default=None)
default=None)
nvs_part_gen_group.add_argument( nvs_part_gen_group.add_argument("--size",
"--size", help='Size of NVS Partition in bytes (must be multiple of 4096)')
help='Size of NVS Partition in bytes (must be multiple of 4096)')
nvs_part_gen_group.add_argument( nvs_part_gen_group.add_argument("--version",
"--version", help='Set version. Default: v2',
help='Set version. Default: v2', choices=['v1','v2'],
choices=['v1','v2'], default='v2',
default='v2', type=str.lower)
type=str.lower)
keygen_action = nvs_part_gen_group.add_argument( keygen_action_key = nvs_part_gen_group.add_argument("--keygen",
"--keygen", help='Generate keys for encryption.',
help='Generate keys for encryption. Creates an `encryption_keys.bin` file. Default: false', choices=['true','false'],
choices=['true','false'], default='false',
default='false', type=str.lower)
type=str.lower)
nvs_part_gen_group.add_argument( nvs_part_gen_group.add_argument("--encrypt",
"--encrypt", help='Set encryption mode. Default: false',
help='Set encryption mode. Default: false', choices=['true','false'],
choices=['true','false'], default='false',
default='false', type=str.lower)
type=str.lower)
nvs_part_gen_group.add_argument( keygen_action_file = nvs_part_gen_group.add_argument("--keyfile",
"--keyfile", help='File having key for encryption (Applicable only if encryption mode is true).',
help='File having key for encryption (Applicable only if encryption mode is true)', default=None)
default=None)
keygen_action_dir = nvs_part_gen_group.add_argument('--outdir',
dest='outdir',
default=os.getcwd(),
help='the output directory to store the files created\
(Default: current directory)')
key_gen_group = parser.add_argument_group('To generate encryption keys') key_gen_group = parser.add_argument_group('To generate encryption keys')
key_gen_group._group_actions.append(keygen_action) key_gen_group._group_actions.append(keygen_action_key)
key_gen_group._group_actions.append(keygen_action_file)
key_gen_group._group_actions.append(keygen_action_dir)
args = parser.parse_args() args = parser.parse_args()
input_filename = args.input input_filename = args.input
@ -810,13 +870,17 @@ def main():
is_key_gen = args.keygen is_key_gen = args.keygen
is_encrypt_data = args.encrypt is_encrypt_data = args.encrypt
key_file = args.keyfile key_file = args.keyfile
output_dir_path = args.outdir
encr_keys_prefix = None
print_arg_str = "Invalid.\nTo generate nvs partition binary --input, --output and --size arguments are mandatory.\n \ print_arg_str = "Invalid.\nTo generate nvs partition binary --input, --output and --size arguments are mandatory.\
To generate encryption keys --keygen argument is mandatory." \nTo generate encryption keys --keygen argument is mandatory."
print_encrypt_arg_str = "Missing parameter. Enter --keyfile or --keygen." print_encrypt_arg_str = "Missing parameter. Enter --keyfile or --keygen."
check_input_args(input_filename,output_filename, part_size, is_key_gen, is_encrypt_data, key_file, version_no, print_arg_str, print_encrypt_arg_str) check_input_args(input_filename,output_filename, part_size, is_key_gen, is_encrypt_data, key_file, version_no,
nvs_part_gen(input_filename, output_filename, part_size, is_key_gen, is_encrypt_data, key_file, version_no) print_arg_str, print_encrypt_arg_str, output_dir_path)
nvs_part_gen(input_filename, output_filename, part_size, is_key_gen, is_encrypt_data, key_file,
encr_keys_prefix, version_no, output_dir_path)
if __name__ == "__main__": if __name__ == "__main__":

5
components/nvs_flash/test_nvs_host/Makefile
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@ -61,5 +61,10 @@ clean:
rm -f $(COVERAGE_FILES) *.gcov rm -f $(COVERAGE_FILES) *.gcov
rm -rf coverage_report/ rm -rf coverage_report/
rm -f coverage.info rm -f coverage.info
rm ../nvs_partition_generator/partition_single_page.bin
rm ../nvs_partition_generator/partition_multipage_blob.bin
rm ../nvs_partition_generator/partition_encrypted.bin
rm ../nvs_partition_generator/partition_encrypted_using_keygen.bin
rm ../nvs_partition_generator/partition_encrypted_using_keyfile.bin
.PHONY: clean all test long-test .PHONY: clean all test long-test

374
components/nvs_flash/test_nvs_host/test_nvs.cpp
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@ -21,8 +21,10 @@
#include <sstream> #include <sstream>
#include <iostream> #include <iostream>
#include <fstream> #include <fstream>
#include <dirent.h>
#include <unistd.h> #include <unistd.h>
#include <sys/wait.h> #include <sys/wait.h>
#include <string.h>
#define TEST_ESP_ERR(rc, res) CHECK((rc) == (res)) #define TEST_ESP_ERR(rc, res) CHECK((rc) == (res))
#define TEST_ESP_OK(rc) CHECK((rc) == ESP_OK) #define TEST_ESP_OK(rc) CHECK((rc) == ESP_OK)
@ -825,7 +827,7 @@ TEST_CASE("nvs api tests, starting with random data in flash", "[nvs][long]")
extern "C" void nvs_dump(const char *partName); extern "C" void nvs_dump(const char *partName);
class RandomTest { class RandomTest {
static const size_t nKeys = 11; static const size_t nKeys = 11;
int32_t v1 = 0, v2 = 0; int32_t v1 = 0, v2 = 0;
uint64_t v3 = 0, v4 = 0; uint64_t v3 = 0, v4 = 0;
@ -844,12 +846,12 @@ public:
template<typename TGen> template<typename TGen>
esp_err_t doRandomThings(nvs_handle handle, TGen gen, size_t& count) { esp_err_t doRandomThings(nvs_handle handle, TGen gen, size_t& count) {
const char* keys[] = {"foo", "bar", "longkey_0123456", "another key", "param1", "param2", "param3", "param4", "param5", "singlepage", "multipage"}; const char* keys[] = {"foo", "bar", "longkey_0123456", "another key", "param1", "param2", "param3", "param4", "param5", "singlepage", "multipage"};
const ItemType types[] = {ItemType::I32, ItemType::I32, ItemType::U64, ItemType::U64, ItemType::SZ, ItemType::SZ, ItemType::SZ, ItemType::SZ, ItemType::SZ, ItemType::BLOB, ItemType::BLOB}; const ItemType types[] = {ItemType::I32, ItemType::I32, ItemType::U64, ItemType::U64, ItemType::SZ, ItemType::SZ, ItemType::SZ, ItemType::SZ, ItemType::SZ, ItemType::BLOB, ItemType::BLOB};
void* values[] = {&v1, &v2, &v3, &v4, &v5, &v6, &v7, &v8, &v9, &v10, &v11}; void* values[] = {&v1, &v2, &v3, &v4, &v5, &v6, &v7, &v8, &v9, &v10, &v11};
const size_t nKeys = sizeof(keys) / sizeof(keys[0]); const size_t nKeys = sizeof(keys) / sizeof(keys[0]);
static_assert(nKeys == sizeof(types) / sizeof(types[0]), ""); static_assert(nKeys == sizeof(types) / sizeof(types[0]), "");
static_assert(nKeys == sizeof(values) / sizeof(values[0]), ""); static_assert(nKeys == sizeof(values) / sizeof(values[0]), "");
@ -1065,7 +1067,7 @@ public:
return ESP_OK; return ESP_OK;
} }
esp_err_t handleExternalWriteAtIndex(uint8_t index, const void* value, const size_t len ) { esp_err_t handleExternalWriteAtIndex(uint8_t index, const void* value, const size_t len ) {
if(index == 9) { /* This is only done for small-page blobs for now*/ if(index == 9) { /* This is only done for small-page blobs for now*/
if(len > smallBlobLen) { if(len > smallBlobLen) {
return ESP_FAIL; return ESP_FAIL;
@ -1076,7 +1078,7 @@ public:
} else { } else {
return ESP_FAIL; return ESP_FAIL;
} }
} }
}; };
TEST_CASE("monkey test", "[nvs][monkey]") TEST_CASE("monkey test", "[nvs][monkey]")
@ -1089,7 +1091,7 @@ TEST_CASE("monkey test", "[nvs][monkey]")
SpiFlashEmulator emu(10); SpiFlashEmulator emu(10);
emu.randomize(seed); emu.randomize(seed);
emu.clearStats(); emu.clearStats();
const uint32_t NVS_FLASH_SECTOR = 2; const uint32_t NVS_FLASH_SECTOR = 2;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 8; const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 8;
emu.setBounds(NVS_FLASH_SECTOR, NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN); emu.setBounds(NVS_FLASH_SECTOR, NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN);
@ -1114,10 +1116,10 @@ TEST_CASE("test recovery from sudden poweroff", "[long][nvs][recovery][monkey]")
const size_t iter_count = 2000; const size_t iter_count = 2000;
SpiFlashEmulator emu(10); SpiFlashEmulator emu(10);
const uint32_t NVS_FLASH_SECTOR = 2; const uint32_t NVS_FLASH_SECTOR = 2;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 8; const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 8;
emu.setBounds(NVS_FLASH_SECTOR, NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN); emu.setBounds(NVS_FLASH_SECTOR, NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN);
size_t totalOps = 0; size_t totalOps = 0;
@ -1786,7 +1788,7 @@ TEST_CASE("nvs code handles errors properly when partition is near to full", "[n
SpiFlashEmulator emu(5); SpiFlashEmulator emu(5);
Storage storage; Storage storage;
char nvs_key[16] = ""; char nvs_key[16] = "";
TEST_ESP_OK(storage.init(0, 5)); TEST_ESP_OK(storage.init(0, 5));
/* Four pages should fit roughly 12 blobs*/ /* Four pages should fit roughly 12 blobs*/
@ -1794,7 +1796,7 @@ TEST_CASE("nvs code handles errors properly when partition is near to full", "[n
sprintf(nvs_key, "key:%u", count); sprintf(nvs_key, "key:%u", count);
TEST_ESP_OK(storage.writeItem(1, ItemType::BLOB, nvs_key, blob, sizeof(blob))); TEST_ESP_OK(storage.writeItem(1, ItemType::BLOB, nvs_key, blob, sizeof(blob)));
} }
for(uint8_t count = 13; count <= 20; count++) { for(uint8_t count = 13; count <= 20; count++) {
sprintf(nvs_key, "key:%u", count); sprintf(nvs_key, "key:%u", count);
TEST_ESP_ERR(storage.writeItem(1, ItemType::BLOB, nvs_key, blob, sizeof(blob)), ESP_ERR_NVS_NOT_ENOUGH_SPACE); TEST_ESP_ERR(storage.writeItem(1, ItemType::BLOB, nvs_key, blob, sizeof(blob)), ESP_ERR_NVS_NOT_ENOUGH_SPACE);
@ -1821,7 +1823,7 @@ TEST_CASE("Check that NVS supports old blob format without blob index", "[nvs]")
TEST_ESP_OK( nvs_flash_init_custom("test", 0, 2) ); TEST_ESP_OK( nvs_flash_init_custom("test", 0, 2) );
TEST_ESP_OK( nvs_open_from_partition("test", "dummyNamespace", NVS_READONLY, &handle)); TEST_ESP_OK( nvs_open_from_partition("test", "dummyNamespace", NVS_READONLY, &handle));
char buf[64] = {0}; char buf[64] = {0};
size_t buflen = 64; size_t buflen = 64;
uint8_t hexdata[] = {0x01, 0x02, 0x03, 0xab, 0xcd, 0xef}; uint8_t hexdata[] = {0x01, 0x02, 0x03, 0xab, 0xcd, 0xef};
@ -1853,7 +1855,7 @@ TEST_CASE("Check that NVS supports old blob format without blob index", "[nvs]")
TEST_ESP_OK(p2.findItem(1, ItemType::BLOB_IDX, "dummyHex2BinKey")); TEST_ESP_OK(p2.findItem(1, ItemType::BLOB_IDX, "dummyHex2BinKey"));
/* Read the blob in new format and check the contents*/ /* Read the blob in new format and check the contents*/
buflen = 64; buflen = 64;
TEST_ESP_OK( nvs_get_blob(handle, "dummyBase64Key", buf, &buflen)); TEST_ESP_OK( nvs_get_blob(handle, "dummyBase64Key", buf, &buflen));
CHECK(memcmp(buf, base64data, buflen) == 0); CHECK(memcmp(buf, base64data, buflen) == 0);
@ -1865,29 +1867,29 @@ TEST_CASE("monkey test with old-format blob present", "[nvs][monkey]")
std::mt19937 gen(rd()); std::mt19937 gen(rd());
uint32_t seed = 3; uint32_t seed = 3;
gen.seed(seed); gen.seed(seed);
SpiFlashEmulator emu(10); SpiFlashEmulator emu(10);
emu.randomize(seed); emu.randomize(seed);
emu.clearStats(); emu.clearStats();
const uint32_t NVS_FLASH_SECTOR = 2; const uint32_t NVS_FLASH_SECTOR = 2;
const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 8; const uint32_t NVS_FLASH_SECTOR_COUNT_MIN = 8;
static const size_t smallBlobLen = Page::CHUNK_MAX_SIZE / 3; static const size_t smallBlobLen = Page::CHUNK_MAX_SIZE / 3;
emu.setBounds(NVS_FLASH_SECTOR, NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN); emu.setBounds(NVS_FLASH_SECTOR, NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN);
TEST_ESP_OK(nvs_flash_init_custom(NVS_DEFAULT_PART_NAME, NVS_FLASH_SECTOR, NVS_FLASH_SECTOR_COUNT_MIN)); TEST_ESP_OK(nvs_flash_init_custom(NVS_DEFAULT_PART_NAME, NVS_FLASH_SECTOR, NVS_FLASH_SECTOR_COUNT_MIN));
nvs_handle handle; nvs_handle handle;
TEST_ESP_OK(nvs_open("namespace1", NVS_READWRITE, &handle)); TEST_ESP_OK(nvs_open("namespace1", NVS_READWRITE, &handle));
RandomTest test; RandomTest test;
for ( uint8_t it = 0; it < 10; it++) { for ( uint8_t it = 0; it < 10; it++) {
size_t count = 200; size_t count = 200;
/* Erase index and chunks for the blob with "singlepage" key */ /* Erase index and chunks for the blob with "singlepage" key */
for (uint8_t num = NVS_FLASH_SECTOR; num < NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN; num++) { for (uint8_t num = NVS_FLASH_SECTOR; num < NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN; num++) {
Page p; Page p;
p.load(num); p.load(num);
p.eraseItem(1, ItemType::BLOB, "singlepage", Item::CHUNK_ANY, VerOffset::VER_ANY); p.eraseItem(1, ItemType::BLOB, "singlepage", Item::CHUNK_ANY, VerOffset::VER_ANY);
p.eraseItem(1, ItemType::BLOB_IDX, "singlepage", Item::CHUNK_ANY, VerOffset::VER_ANY); p.eraseItem(1, ItemType::BLOB_IDX, "singlepage", Item::CHUNK_ANY, VerOffset::VER_ANY);
@ -1896,7 +1898,7 @@ TEST_CASE("monkey test with old-format blob present", "[nvs][monkey]")
/* Now write "singlepage" blob in old format*/ /* Now write "singlepage" blob in old format*/
for (uint8_t num = NVS_FLASH_SECTOR; num < NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN; num++) { for (uint8_t num = NVS_FLASH_SECTOR; num < NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN; num++) {
Page p; Page p;
p.load(num); p.load(num);
if (p.state() == Page::PageState::ACTIVE) { if (p.state() == Page::PageState::ACTIVE) {
uint8_t buf[smallBlobLen]; uint8_t buf[smallBlobLen];
@ -1905,7 +1907,7 @@ TEST_CASE("monkey test with old-format blob present", "[nvs][monkey]")
if(blobLen > p.getVarDataTailroom()) { if(blobLen > p.getVarDataTailroom()) {
blobLen = p.getVarDataTailroom(); blobLen = p.getVarDataTailroom();
} }
std::generate_n(buf, blobLen, [&]() -> uint8_t { std::generate_n(buf, blobLen, [&]() -> uint8_t {
return static_cast<uint8_t>(gen() % 256); return static_cast<uint8_t>(gen() % 256);
}); });
@ -1913,14 +1915,14 @@ TEST_CASE("monkey test with old-format blob present", "[nvs][monkey]")
TEST_ESP_OK(p.writeItem(1, ItemType::BLOB, "singlepage", buf, blobLen, Item::CHUNK_ANY)); TEST_ESP_OK(p.writeItem(1, ItemType::BLOB, "singlepage", buf, blobLen, Item::CHUNK_ANY));
TEST_ESP_OK(p.findItem(1, ItemType::BLOB, "singlepage")); TEST_ESP_OK(p.findItem(1, ItemType::BLOB, "singlepage"));
test.handleExternalWriteAtIndex(9, buf, blobLen); // This assumes "singlepage" is always at index 9 test.handleExternalWriteAtIndex(9, buf, blobLen); // This assumes "singlepage" is always at index 9
break; break;
} }
} }
/* Initialize again */ /* Initialize again */
TEST_ESP_OK(nvs_flash_init_custom(NVS_DEFAULT_PART_NAME, NVS_FLASH_SECTOR, NVS_FLASH_SECTOR_COUNT_MIN)); TEST_ESP_OK(nvs_flash_init_custom(NVS_DEFAULT_PART_NAME, NVS_FLASH_SECTOR, NVS_FLASH_SECTOR_COUNT_MIN));
TEST_ESP_OK(nvs_open("namespace1", NVS_READWRITE, &handle)); TEST_ESP_OK(nvs_open("namespace1", NVS_READWRITE, &handle));
/* Perform random things */ /* Perform random things */
auto res = test.doRandomThings(handle, gen, count); auto res = test.doRandomThings(handle, gen, count);
if (res != ESP_OK) { if (res != ESP_OK) {
@ -1933,7 +1935,7 @@ TEST_CASE("monkey test with old-format blob present", "[nvs][monkey]")
bool oldVerPresent = false, newVerPresent = false; bool oldVerPresent = false, newVerPresent = false;
for (uint8_t num = NVS_FLASH_SECTOR; num < NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN; num++) { for (uint8_t num = NVS_FLASH_SECTOR; num < NVS_FLASH_SECTOR + NVS_FLASH_SECTOR_COUNT_MIN; num++) {
Page p; Page p;
p.load(num); p.load(num);
if(!oldVerPresent && p.findItem(1, ItemType::BLOB, "singlepage", Item::CHUNK_ANY, VerOffset::VER_ANY) == ESP_OK) { if(!oldVerPresent && p.findItem(1, ItemType::BLOB, "singlepage", Item::CHUNK_ANY, VerOffset::VER_ANY) == ESP_OK) {
oldVerPresent = true; oldVerPresent = true;
@ -1945,7 +1947,7 @@ TEST_CASE("monkey test with old-format blob present", "[nvs][monkey]")
} }
CHECK(oldVerPresent != newVerPresent); CHECK(oldVerPresent != newVerPresent);
} }
s_perf << "Monkey test: nErase=" << emu.getEraseOps() << " nWrite=" << emu.getWriteOps() << std::endl; s_perf << "Monkey test: nErase=" << emu.getEraseOps() << " nWrite=" << emu.getWriteOps() << std::endl;
} }
@ -1955,23 +1957,23 @@ TEST_CASE("Recovery from power-off during modification of blob present in old-fo
std::mt19937 gen(rd()); std::mt19937 gen(rd());
uint32_t seed = 3; uint32_t seed = 3;
gen.seed(seed); gen.seed(seed);
SpiFlashEmulator emu(3); SpiFlashEmulator emu(3);
emu.clearStats(); emu.clearStats();
TEST_ESP_OK(nvs_flash_init_custom(NVS_DEFAULT_PART_NAME, 0, 3)); TEST_ESP_OK(nvs_flash_init_custom(NVS_DEFAULT_PART_NAME, 0, 3));
nvs_handle handle; nvs_handle handle;
TEST_ESP_OK(nvs_open("namespace1", NVS_READWRITE, &handle)); TEST_ESP_OK(nvs_open("namespace1", NVS_READWRITE, &handle));
uint8_t hexdata[] = {0x01, 0x02, 0x03, 0xab, 0xcd, 0xef}; uint8_t hexdata[] = {0x01, 0x02, 0x03, 0xab, 0xcd, 0xef};
uint8_t hexdata_old[] = {0x11, 0x12, 0x13, 0xbb, 0xcc, 0xee}; uint8_t hexdata_old[] = {0x11, 0x12, 0x13, 0xbb, 0xcc, 0xee};
size_t buflen = sizeof(hexdata); size_t buflen = sizeof(hexdata);
uint8_t buf[Page::CHUNK_MAX_SIZE]; uint8_t buf[Page::CHUNK_MAX_SIZE];
/* Power-off when blob was being written on the same page where its old version in old format /* Power-off when blob was being written on the same page where its old version in old format
* was present*/ * was present*/
Page p; Page p;
p.load(0); p.load(0);
/* Write blob in old-format*/ /* Write blob in old-format*/
TEST_ESP_OK(p.writeItem(1, ItemType::BLOB, "singlepage", hexdata_old, sizeof(hexdata_old))); TEST_ESP_OK(p.writeItem(1, ItemType::BLOB, "singlepage", hexdata_old, sizeof(hexdata_old)));
@ -1995,7 +1997,7 @@ TEST_CASE("Recovery from power-off during modification of blob present in old-fo
TEST_ESP_OK( nvs_get_blob(handle, "singlepage", buf, &buflen)); TEST_ESP_OK( nvs_get_blob(handle, "singlepage", buf, &buflen));
CHECK(memcmp(buf, hexdata, buflen) == 0); CHECK(memcmp(buf, hexdata, buflen) == 0);
Page p2; Page p2;
p2.load(0); p2.load(0);
TEST_ESP_ERR(p2.findItem(1, ItemType::BLOB, "singlepage"), ESP_ERR_NVS_TYPE_MISMATCH); TEST_ESP_ERR(p2.findItem(1, ItemType::BLOB, "singlepage"), ESP_ERR_NVS_TYPE_MISMATCH);
@ -2007,7 +2009,7 @@ TEST_CASE("Recovery from power-off during modification of blob present in old-fo
std::mt19937 gen(rd()); std::mt19937 gen(rd());
uint32_t seed = 3; uint32_t seed = 3;
gen.seed(seed); gen.seed(seed);
SpiFlashEmulator emu(3); SpiFlashEmulator emu(3);
emu.clearStats(); emu.clearStats();
@ -2018,13 +2020,13 @@ TEST_CASE("Recovery from power-off during modification of blob present in old-fo
uint8_t hexdata[] = {0x01, 0x02, 0x03, 0xab, 0xcd, 0xef}; uint8_t hexdata[] = {0x01, 0x02, 0x03, 0xab, 0xcd, 0xef};
uint8_t hexdata_old[] = {0x11, 0x12, 0x13, 0xbb, 0xcc, 0xee}; uint8_t hexdata_old[] = {0x11, 0x12, 0x13, 0xbb, 0xcc, 0xee};
size_t buflen = sizeof(hexdata); size_t buflen = sizeof(hexdata);
uint8_t buf[Page::CHUNK_MAX_SIZE]; uint8_t buf[Page::CHUNK_MAX_SIZE];
/* Power-off when blob was being written on the different page where its old version in old format /* Power-off when blob was being written on the different page where its old version in old format
* was present*/ * was present*/
Page p; Page p;
p.load(0); p.load(0);
/* Write blob in old-format*/ /* Write blob in old-format*/
TEST_ESP_OK(p.writeItem(1, ItemType::BLOB, "singlepage", hexdata_old, sizeof(hexdata_old))); TEST_ESP_OK(p.writeItem(1, ItemType::BLOB, "singlepage", hexdata_old, sizeof(hexdata_old)));
@ -2037,7 +2039,7 @@ TEST_CASE("Recovery from power-off during modification of blob present in old-fo
item.blobIndex.chunkCount = 1; item.blobIndex.chunkCount = 1;
item.blobIndex.chunkStart = VerOffset::VER_0_OFFSET; item.blobIndex.chunkStart = VerOffset::VER_0_OFFSET;
p.markFull(); p.markFull();
Page p2; Page p2;
p2.load(1); p2.load(1);
p2.setSeqNumber(1); p2.setSeqNumber(1);
@ -2052,7 +2054,7 @@ TEST_CASE("Recovery from power-off during modification of blob present in old-fo
TEST_ESP_OK( nvs_get_blob(handle, "singlepage", buf, &buflen)); TEST_ESP_OK( nvs_get_blob(handle, "singlepage", buf, &buflen));
CHECK(memcmp(buf, hexdata, buflen) == 0); CHECK(memcmp(buf, hexdata, buflen) == 0);
Page p3; Page p3;
p3.load(0); p3.load(0);
TEST_ESP_ERR(p3.findItem(1, ItemType::BLOB, "singlepage"), ESP_ERR_NVS_NOT_FOUND); TEST_ESP_ERR(p3.findItem(1, ItemType::BLOB, "singlepage"), ESP_ERR_NVS_NOT_FOUND);
} }
@ -2060,12 +2062,12 @@ TEST_CASE("Recovery from power-off during modification of blob present in old-fo
static void check_nvs_part_gen_args(char const *part_name, int size, char const *filename, bool is_encr, nvs_sec_cfg_t* xts_cfg) static void check_nvs_part_gen_args(char const *part_name, int size, char const *filename, bool is_encr, nvs_sec_cfg_t* xts_cfg)
{ {
nvs_handle handle; nvs_handle handle;
if (is_encr) if (is_encr)
TEST_ESP_OK(nvs_flash_secure_init_custom(part_name, 0, size, xts_cfg)); TEST_ESP_OK(nvs_flash_secure_init_custom(part_name, 0, size, xts_cfg));
else else
TEST_ESP_OK( nvs_flash_init_custom(part_name, 0, size) ); TEST_ESP_OK( nvs_flash_init_custom(part_name, 0, size) );
TEST_ESP_OK( nvs_open_from_partition(part_name, "dummyNamespace", NVS_READONLY, &handle)); TEST_ESP_OK( nvs_open_from_partition(part_name, "dummyNamespace", NVS_READONLY, &handle));
uint8_t u8v; uint8_t u8v;
TEST_ESP_OK( nvs_get_u8(handle, "dummyU8Key", &u8v)); TEST_ESP_OK( nvs_get_u8(handle, "dummyU8Key", &u8v));
@ -2093,7 +2095,7 @@ static void check_nvs_part_gen_args(char const *part_name, int size, char const
int j; int j;
TEST_ESP_OK( nvs_get_blob(handle, "dummyHex2BinKey", buf, &buflen)); TEST_ESP_OK( nvs_get_blob(handle, "dummyHex2BinKey", buf, &buflen));
CHECK(memcmp(buf, hexdata, buflen) == 0); CHECK(memcmp(buf, hexdata, buflen) == 0);
uint8_t base64data[] = {'1', '2', '3', 'a', 'b', 'c'}; uint8_t base64data[] = {'1', '2', '3', 'a', 'b', 'c'};
TEST_ESP_OK( nvs_get_blob(handle, "dummyBase64Key", buf, &buflen)); TEST_ESP_OK( nvs_get_blob(handle, "dummyBase64Key", buf, &buflen));
CHECK(memcmp(buf, base64data, buflen) == 0); CHECK(memcmp(buf, base64data, buflen) == 0);
@ -2118,65 +2120,112 @@ static void check_nvs_part_gen_args(char const *part_name, int size, char const
CHECK(memcmp(bin_data, binfiledata, bin_len) == 0); CHECK(memcmp(bin_data, binfiledata, bin_len) == 0);
file.close(); file.close();
nvs_close(handle); nvs_close(handle);
} }
TEST_CASE("check and read data from partition generated via partition generation utility with multipage blob support disabled", "[nvs_part_gen]") TEST_CASE("check and read data from partition generated via partition generation utility with multipage blob support disabled", "[nvs_part_gen]")
{ {
int status;
int childpid = fork(); int childpid = fork();
if (childpid == 0) { if (childpid == 0) {
exit(execlp("python", "python", exit(execlp("cp", " cp",
"../nvs_partition_generator/nvs_partition_gen.py", "-rf",
"--input", "../nvs_partition_generator/testdata",
"../nvs_partition_generator/sample_singlepage_blob.csv", ".",NULL));
"--output",
"../nvs_partition_generator/partition_single_page.bin",
"--size",
"0x3000",
"--version",
"v1",NULL));
} else { } else {
CHECK(childpid > 0); CHECK(childpid > 0);
int status;
waitpid(childpid, &status, 0); waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1); CHECK(WEXITSTATUS(status) != -1);
childpid = fork();
if (childpid == 0) {
exit(execlp("python", "python",
"../nvs_partition_generator/nvs_partition_gen.py",
"--input",
"../nvs_partition_generator/sample_singlepage_blob.csv",
"--output",
"../nvs_partition_generator/partition_single_page.bin",
"--size",
"0x3000",
"--version",
"v1",NULL));
} else {
CHECK(childpid > 0);
int status;
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
} }
SpiFlashEmulator emu("../nvs_partition_generator/partition_single_page.bin"); SpiFlashEmulator emu("../nvs_partition_generator/partition_single_page.bin");
TEST_ESP_OK(nvs_flash_deinit());
check_nvs_part_gen_args("test", 3, "../nvs_partition_generator/testdata/sample_singlepage_blob.bin", false, NULL);
}
TEST_ESP_OK(nvs_flash_deinit());
check_nvs_part_gen_args("test", 3, "../nvs_partition_generator/testdata/sample_singlepage_blob.bin", false, NULL);
if (childpid == 0) {
exit(execlp("rm", " rm",
"-rf",
"testdata",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
}
TEST_CASE("check and read data from partition generated via partition generation utility with multipage blob support enabled", "[nvs_part_gen]") TEST_CASE("check and read data from partition generated via partition generation utility with multipage blob support enabled", "[nvs_part_gen]")
{ {
int status;
int childpid = fork(); int childpid = fork();
if (childpid == 0) { if (childpid == 0) {
exit(execlp("python", "python", exit(execlp("cp", " cp",
"../nvs_partition_generator/nvs_partition_gen.py", "-rf",
"--input", "../nvs_partition_generator/testdata",
"../nvs_partition_generator/sample_multipage_blob.csv", ".",NULL));
"--output",
"../nvs_partition_generator/partition_multipage_blob.bin",
"--size",
"0x4000",
"--version",
"v2",NULL));
} else { } else {
CHECK(childpid > 0); CHECK(childpid > 0);
int status;
waitpid(childpid, &status, 0); waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1); CHECK(WEXITSTATUS(status) != -1);
childpid = fork();
if (childpid == 0) {
exit(execlp("python", "python",
"../nvs_partition_generator/nvs_partition_gen.py",
"--input",
"../nvs_partition_generator/sample_multipage_blob.csv",
"--output",
"../nvs_partition_generator/partition_multipage_blob.bin",
"--size",
"0x4000",
"--version",
"v2",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
} }
SpiFlashEmulator emu("../nvs_partition_generator/partition_multipage_blob.bin"); SpiFlashEmulator emu("../nvs_partition_generator/partition_multipage_blob.bin");
check_nvs_part_gen_args("test", 4, "../nvs_partition_generator/testdata/sample_multipage_blob.bin",false,NULL); check_nvs_part_gen_args("test", 4, "../nvs_partition_generator/testdata/sample_multipage_blob.bin",false,NULL);
if (childpid == 0) {
exit(execlp("rm", " rm",
"-rf",
"testdata",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
} }
#if CONFIG_NVS_ENCRYPTION #if CONFIG_NVS_ENCRYPTION
@ -2320,29 +2369,42 @@ TEST_CASE("test nvs apis with encryption enabled", "[nvs]")
TEST_CASE("test nvs apis for nvs partition generator utility with encryption enabled", "[nvs_part_gen]") TEST_CASE("test nvs apis for nvs partition generator utility with encryption enabled", "[nvs_part_gen]")
{ {
int status;
int childpid = fork(); int childpid = fork();
if (childpid == 0) { if (childpid == 0) {
exit(execlp("python", "python", exit(execlp("cp", " cp",
"../nvs_partition_generator/nvs_partition_gen.py", "-rf",
"--input", "../nvs_partition_generator/testdata",
"../nvs_partition_generator/sample_multipage_blob.csv", ".",NULL));
"--output",
"../nvs_partition_generator/partition_encrypted.bin",
"--size",
"0x4000",
"--encrypt",
"True",
"--keyfile",
"../nvs_partition_generator/testdata/sample_encryption_keys.bin",NULL));
} else { } else {
CHECK(childpid > 0); CHECK(childpid > 0);
int status;
waitpid(childpid, &status, 0); waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1); CHECK(WEXITSTATUS(status) != -1);
childpid = fork();
if (childpid == 0) {
exit(execlp("python", "python",
"../nvs_partition_generator/nvs_partition_gen.py",
"--input",
"../nvs_partition_generator/sample_multipage_blob.csv",
"--output",
"../nvs_partition_generator/partition_encrypted.bin",
"--size",
"0x4000",
"--encrypt",
"True",
"--keyfile",
"../nvs_partition_generator/testdata/sample_encryption_keys.bin",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
} }
SpiFlashEmulator emu("../nvs_partition_generator/partition_encrypted.bin"); SpiFlashEmulator emu("../nvs_partition_generator/partition_encrypted.bin");
nvs_sec_cfg_t cfg; nvs_sec_cfg_t cfg;
for(int count = 0; count < NVS_KEY_SIZE; count++) { for(int count = 0; count < NVS_KEY_SIZE; count++) {
cfg.eky[count] = 0x11; cfg.eky[count] = 0x11;
@ -2350,7 +2412,19 @@ TEST_CASE("test nvs apis for nvs partition generator utility with encryption ena
} }
check_nvs_part_gen_args(NVS_DEFAULT_PART_NAME, 4, "../nvs_partition_generator/testdata/sample_multipage_blob.bin", true, &cfg); check_nvs_part_gen_args(NVS_DEFAULT_PART_NAME, 4, "../nvs_partition_generator/testdata/sample_multipage_blob.bin", true, &cfg);
childpid = fork();
if (childpid == 0) {
exit(execlp("rm", " rm",
"-rf",
"testdata",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
} }
@ -2358,32 +2432,81 @@ TEST_CASE("test nvs apis for nvs partition generator utility with encryption ena
{ {
int childpid = fork(); int childpid = fork();
int status; int status;
if (childpid == 0) {
exit(execlp("python", "python",
"../nvs_partition_generator/nvs_partition_gen.py",
"--input",
"../nvs_partition_generator/sample_multipage_blob.csv",
"--output",
"../nvs_partition_generator/partition_encrypted_using_keygen.bin",
"--size",
"0x4000",
"--encrypt",
"True",
"--keygen",
"true",NULL));
if (childpid == 0) {
exit(execlp("cp", " cp",
"-rf",
"../nvs_partition_generator/testdata",
".",NULL));
} else { } else {
CHECK(childpid > 0); CHECK(childpid > 0);
waitpid(childpid, &status, 0); waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1); CHECK(WEXITSTATUS(status) != -1);
childpid = fork();
if (childpid == 0) {
exit(execlp("rm", " rm",
"-rf",
"keys",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
childpid = fork();
if (childpid == 0) {
exit(execlp("python", "python",
"../nvs_partition_generator/nvs_partition_gen.py",
"--input",
"../nvs_partition_generator/sample_multipage_blob.csv",
"--output",
"../nvs_partition_generator/partition_encrypted_using_keygen.bin",
"--size",
"0x4000",
"--encrypt",
"True",
"--keygen",
"true",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
}
} }
DIR *dir;
struct dirent *file;
char *filename;
char *files;
char *file_ext;
dir = opendir("keys");
while ((file = readdir(dir)) != NULL)
{
filename = file->d_name;
files = strrchr(filename, '.');
if (files != NULL)
{
file_ext = files+1;
if (strncmp(file_ext,"bin",3) == 0)
{
break;
}
}
}
std::string encr_file = std::string("keys/") + std::string(filename);
SpiFlashEmulator emu("../nvs_partition_generator/partition_encrypted_using_keygen.bin"); SpiFlashEmulator emu("../nvs_partition_generator/partition_encrypted_using_keygen.bin");
char buffer[64]; char buffer[64];
FILE *fp; FILE *fp;
fp = fopen("encryption_keys.bin","rb"); fp = fopen(encr_file.c_str(),"rb");
fread(buffer,sizeof(buffer),1,fp); fread(buffer,sizeof(buffer),1,fp);
fclose(fp); fclose(fp);
@ -2398,14 +2521,37 @@ TEST_CASE("test nvs apis for nvs partition generator utility with encryption ena
check_nvs_part_gen_args(NVS_DEFAULT_PART_NAME, 4, "../nvs_partition_generator/testdata/sample_multipage_blob.bin", true, &cfg); check_nvs_part_gen_args(NVS_DEFAULT_PART_NAME, 4, "../nvs_partition_generator/testdata/sample_multipage_blob.bin", true, &cfg);
} }
TEST_CASE("test nvs apis for nvs partition generator utility with encryption enabled using keyfile", "[nvs_part_gen]") TEST_CASE("test nvs apis for nvs partition generator utility with encryption enabled using keyfile", "[nvs_part_gen]")
{ {
int childpid = fork(); int childpid = fork();
int status; int status;
if (childpid == 0) {
DIR *dir;
struct dirent *file;
char *filename;
char *files;
char *file_ext;
dir = opendir("keys");
while ((file = readdir(dir)) != NULL)
{
filename = file->d_name;
files = strrchr(filename, '.');
if (files != NULL)
{
file_ext = files+1;
if (strncmp(file_ext,"bin",3) == 0)
{
break;
}
}
}
std::string encr_file = std::string("keys/") + std::string(filename);
if (childpid == 0) {
exit(execlp("python", "python", exit(execlp("python", "python",
"../nvs_partition_generator/nvs_partition_gen.py", "../nvs_partition_generator/nvs_partition_gen.py",
"--input", "--input",
@ -2417,7 +2563,7 @@ TEST_CASE("test nvs apis for nvs partition generator utility with encryption ena
"--encrypt", "--encrypt",
"True", "True",
"--keyfile", "--keyfile",
"encryption_keys.bin",NULL)); encr_file.c_str(),NULL));
} else { } else {
CHECK(childpid > 0); CHECK(childpid > 0);
@ -2430,7 +2576,7 @@ TEST_CASE("test nvs apis for nvs partition generator utility with encryption ena
char buffer[64]; char buffer[64];
FILE *fp; FILE *fp;
fp = fopen("encryption_keys.bin","rb"); fp = fopen(encr_file.c_str(),"rb");
fread(buffer,sizeof(buffer),1,fp); fread(buffer,sizeof(buffer),1,fp);
fclose(fp); fclose(fp);
@ -2448,12 +2594,24 @@ TEST_CASE("test nvs apis for nvs partition generator utility with encryption ena
childpid = fork(); childpid = fork();
if (childpid == 0) { if (childpid == 0) {
exit(execlp("rm", " rm", exit(execlp("rm", " rm",
"encryption_keys.bin",NULL)); "-rf",
"keys",NULL));
} else { } else {
CHECK(childpid > 0); CHECK(childpid > 0);
waitpid(childpid, &status, 0); waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1); CHECK(WEXITSTATUS(status) != -1);
childpid = fork();
if (childpid == 0) {
exit(execlp("rm", " rm",
"-rf",
"testdata",NULL));
} else {
CHECK(childpid > 0);
waitpid(childpid, &status, 0);
CHECK(WEXITSTATUS(status) != -1);
}
} }
} }