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authorEgor Tensin <Egor.Tensin@gmail.com>2015-07-12 02:35:21 +0300
committerEgor Tensin <Egor.Tensin@gmail.com>2015-07-12 02:35:21 +0300
commitc3225c3db188cf30cb11f633b14cfc08c082f47b (patch)
treef8f7394ff192f35814c624a72f12f2ba8ac0ac92 /test
parentREADME updates (diff)
downloadaes-tools-c3225c3db188cf30cb11f633b14cfc08c082f47b.tar.gz
aes-tools-c3225c3db188cf30cb11f633b14cfc08c082f47b.zip
README updates
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diff --git a/test/README.md b/test/README.md
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+++ b/test/README.md
@@ -1,10 +1,13 @@
# Testing
-After you've [built](../#building) the block encryption/decryption utilities, you can verify the implementation either [manually](#manually) or [automatically](#using-test-vectors) using test vectors.
+After you've [built](../#building) the block encryption/decryption utilities,
+you can verify the implementation either [manually](#manually) or
+[automatically](#using-test-vectors) using test vectors.
## Manually
-You can test the AES implementation using the block encryption/decryption utilities `aes_encrypt_block.exe` and `aes_decrypt_block.exe`.
+You can test the AES implementation using the block encryption/decryption
+utilities `aes_encrypt_block.exe` and `aes_decrypt_block.exe`.
Use the `--help` option to examine the usage info of a utility.
For example, for AES-128 in ECB mode:
@@ -20,32 +23,40 @@ and for AES-192 in CBC mode:
30c81c46a35ce411e5fbc1191a0a52ef
f69f2445df4f9b17ad2b417be66c3710
-On older CPUs, you can run the utilities [using Intel SDE](../README.md#running-on-older-cpus).
+On older CPUs, you can run the utilities
+[using Intel SDE](../README.md#running-on-older-cpus).
## Using test vectors
-The test scripts are written in Python 3 and have uniform interfaces: they accept a path to the directory with the block encryption/decryption utilities and allow to run them [using Intel SDE](https://github.com/egor-tensin/aesni#running-on-older-cpus).
+The test scripts are written in Python 3 and have uniform interfaces: they
+accept a path to the directory with the block encryption/decryption utilities
+and allow to run them [using Intel SDE](../README.md#running-on-older-cpus).
They also write log files with a short summary at the end.
-In general, each scripts counts the number of tests that failed, succeeded, caused an error, and the tests that were skipped.
+In general, each scripts counts the number of tests that failed, succeeded,
+caused an error, and the tests that were skipped.
You must therefore make sure that
* no errors occured while running the tests,
* all the tests succeeded,
* and the skipped tests were skipped for a good reason.
-To pass a path to the directory with the required utilities, use the `--path` parameter.
+To pass a path to the directory with the required utilities, use the `--path`
+parameter.
To make scripts run the utilities using Intel SDE, pass `--sde`.
Use `--help` to see the script's usage details.
### NIST Special Publication 800-38A
-To test the implementation against the vectors from [NIST SP 800-38A](http://csrc.nist.gov/publications/nistpubs/800-38a/sp800-38a.pdf) using `nist-sp-800-32a.py`.
+To test the implementation against the vectors from
+[NIST SP 800-38A](http://csrc.nist.gov/publications/nistpubs/800-38a/sp800-38a.pdf),
+use `nist-sp-800-32a.py`.
python nist-sp-800-38a.py -p C:\build\utils\Debug
### Cryptographic Algorithm Validation Program
-To test the implementation against the vectors from [CAVP](http://csrc.nist.gov/groups/STM/cavp/) using `cavp.py`.
+To test the implementation against the vectors from
+[CAVP](http://csrc.nist.gov/groups/STM/cavp/), use `cavp.py`.
The AES Known Answer Test (KAT) Vectors are used and read from `KAT_AES.zip`.
python cavp.py -p C:\build\utils\Debug