* [dts] [PATCH 0/2] Enhance l2fwd crypto Test Suite
@ 2017-03-16 1:44 Chen, Zhaoyan
2017-03-16 1:44 ` [dts] [PATCH 1/2] " Chen, Zhaoyan
` (2 more replies)
0 siblings, 3 replies; 4+ messages in thread
From: Chen, Zhaoyan @ 2017-03-16 1:44 UTC (permalink / raw)
To: dts; +Cc: Chen, Zhaoyan
Packaged the updates for l2fwd crypto Test Suite
Main features are
- Fully automated generated reference cipher data via 3rd-party crypto lib
- Enhance the test coverage by key size/iv/add/input/crytpo suite combination
- Code clean up for DTS update
root (2):
Enhance l2fwd crypto Test Suite
Enhance l2fwd-crypto Test Suite
tests/TestSuite_l2fwd_crypto.py | 1908 +++++++++++++++++++++++++++++++--------
1 file changed, 1530 insertions(+), 378 deletions(-)
--
2.5.5
^ permalink raw reply [flat|nested] 4+ messages in thread
* [dts] [PATCH 1/2] Enhance l2fwd crypto Test Suite
2017-03-16 1:44 [dts] [PATCH 0/2] Enhance l2fwd crypto Test Suite Chen, Zhaoyan
@ 2017-03-16 1:44 ` Chen, Zhaoyan
2017-03-16 1:44 ` [dts] [PATCH 2/2] Enhance l2fwd-crypto " Chen, Zhaoyan
2017-03-23 5:45 ` [dts] [PATCH 0/2] Enhance l2fwd crypto " Liu, Yong
2 siblings, 0 replies; 4+ messages in thread
From: Chen, Zhaoyan @ 2017-03-16 1:44 UTC (permalink / raw)
To: dts; +Cc: Chen, Zhaoyan
1. Change the packet generator from "scapy" to packet module
2. Ehanhce the cipher/hash output generator with
cryptography module, instead of openssl
3. Update comments and clean up code
---
tests/TestSuite_l2fwd_crypto.py | 2027 +++++++++++++++++++++++++++++++--------
1 file changed, 1613 insertions(+), 414 deletions(-)
diff --git a/tests/TestSuite_l2fwd_crypto.py b/tests/TestSuite_l2fwd_crypto.py
index 9c78a6f..a578ac0 100644
--- a/tests/TestSuite_l2fwd_crypto.py
+++ b/tests/TestSuite_l2fwd_crypto.py
@@ -1,6 +1,6 @@
# BSD LICENSE
#
-# Copyright(c) 2010-2014 Intel Corporation. All rights reserved.
+# Copyright(c) 2016-2017 Intel Corporation. All rights reserved.
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
@@ -32,11 +32,21 @@
import hmac
import hashlib
import binascii
-
-import utils
import time
-
+import os
+import sys
+import utils
+import commands
from test_case import TestCase
+from packet import Packet, sniff_packets, load_sniff_packets, save_packets
+
+from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, modes
+from cryptography.hazmat.backends import default_backend
+
+# Manually Install the CryptoMobile Python Library,
+# Before running this test suite
+# Web link : https://github.com/mitshell/CryptoMobile
+import CryptoMobile.CM as cm
class TestL2fwdCrypto(TestCase):
@@ -74,20 +84,24 @@ class TestL2fwdCrypto(TestCase):
# Rebuild the dpdk with cryptodev pmds
self.dut.send_expect("export AESNI_MULTI_BUFFER_LIB_PATH=/root/ipsec_043/code/", "#")
self.dut.send_expect("export LIBSSO_SNOW3G_PATH=/root/libsso_snow3g/snow3g/", "#")
+ self.dut.send_expect("export LIBSSO_ZUC_PATH=/root/libsso_zuc.1.0.1.1-8/zuc", "#")
self.dut.send_expect("export LIBSSO_KASUMI_PATH=/root/LibSSO_0_3_1/isg_cid-wireless_libs/ciphers/kasumi/", "#")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_QAT=n$/CONFIG_RTE_LIBRTE_PMD_QAT=y/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_AESNI_GCM=n$/CONFIG_RTE_LIBRTE_PMD_AESNI_GCM=y/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_NULL_CRYPTO=n$/CONFIG_RTE_LIBRTE_PMD_NULL_CRYPTO=y/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_SNOW3G=n$/CONFIG_RTE_LIBRTE_PMD_SNOW3G=y/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_KASUMI=n$/CONFIG_RTE_LIBRTE_PMD_KASUMI=y/' config/common_base", "# ")
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_OPENSSL=n$/CONFIG_RTE_LIBRTE_PMD_OPENSSL=y/' config/common_base", "# ")
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=n$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=y/' config/common_base", "# ")
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_ZUC=n$/CONFIG_RTE_LIBRTE_PMD_ZUC=y/' config/common_base", "# ")
self.dut.skip_setup = False
self.dut.build_install_dpdk(self.dut.target)
-
+
# l2fwd-crypto compile
out = self.dut.build_dpdk_apps("./examples/l2fwd-crypto")
self.verify("Error" not in out, "Compilation error")
self.verify("No such" not in out, "Compilation error")
-
+
# Bind QAT VF devices
out = self.dut.send_expect("lspci -d:443|awk '{print $1}'", "# ", 10)
self.dut.send_expect('echo "8086 0443" > /sys/bus/pci/drivers/igb_uio/new_id', "# ", 10)
@@ -100,133 +114,179 @@ class TestL2fwdCrypto(TestCase):
def set_up(self):
pass
- def test_qat_AES(self):
-
+ def test_qat_AES_CBC_auto(self):
result = True
-
- self.logger.info("Test qat_c_AES_CBC_01")
+ self.logger.info("Test qat_c_AES_CBC_00")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_c_AES_CBC_01"):
+ test_vectors, "qat_c_AES_CBC_00"):
result = False
-
- self.logger.info("Test qat_c_AES_CTR_01")
+
+ def test_qat_AES_CTR_auto(self):
+ result = True
+ self.logger.info("Test qat_c_AES_CTR_00")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_c_AES_CTR_01"):
+ test_vectors, "qat_c_AES_CTR_00"):
result = False
-
- self.logger.info("Test qat_c_AES_GCM_01")
+
+ def test_qat_AES_GCM_auto(self):
+ result = True
+ self.logger.info("Test qat_c_AES_GCM_00")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_c_AES_GCM_01"):
+ test_vectors, "qat_c_AES_GCM_00"):
result = False
-
- self.verify(result, True)
-
- def test_qat_MD5(self):
- """
- Validate MD5 HMAC digest with Intel QuickAssist device
- """
-
+
+ def test_qat_h_MD_SHA_auto(self):
result = True
-
- self.logger.info("Test qat_h_MD5_HMAC_01")
-
- # if output_hash not existed, calculate it automatically
- vector = test_vectors['qat_h_MD5_HMAC_01']
- if not vector['output_hash']:
- key = binascii.a2b_hex(vector['auth_key'])
- msg = binascii.a2b_hex(vector['input'])
- digest = hmac.new(key, msg, hashlib.md5).digest()
- vector['output_hash'] = binascii.b2a_hex(digest)
-
+ self.logger.info("Test qat_h_MD_SHA_00")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_MD5_HMAC_01"):
+ test_vectors, "qat_h_MD_SHA_00"):
result = False
- self.verify(result, True)
-
- def test_qat_SHA(self):
+
+ def test_qat_h_AES_XCBC_MAC_auto(self):
+ result = True
+ self.logger.info("Test qat_h_AES_XCBC_MAC_01")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "qat_h_AES_XCBC_MAC_01"):
+ result = False
+
+ def test_qat_3DES_CBC_auto(self):
+ result = True
+ self.logger.info("Test qat_c_3DES_CBC_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "qat_c_3DES_CBC_00"):
+ result = False
+
+ def test_qat_3DES_CTR_auto(self):
+ result = True
+ self.logger.info("Test qat_c_3DES_CTR_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "qat_c_3DES_CTR_00"):
+ result = False
+
+ def test_qat_AES_GCM_AES_GCM(self):
result = True
- self.logger.info("Test qat_h_SHA1_HMAC_01")
+ self.logger.info("Test qat_ch_AES_GCM_AES_GCM_01")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_SHA1_HMAC_01"):
+ test_vectors, "qat_ch_AES_GCM_AES_GCM_01"):
result = False
-
- self.logger.info("Test qat_h_SHA224_HMAC_01")
+
+ def test_qat_AES_DOCSISBPI_auto(self):
+ result = True
+ self.logger.info("Test qat_ch_AES_DOCSISBPI")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_SHA224_HMAC_01"):
+ test_vectors, "qat_ch_AES_DOCSISBPI"):
result = False
-
- self.logger.info("Test qat_h_SHA256_HMAC_01")
+
+ def test_qat_c_DES_DOCSISBPI_auto(self):
+ result = True
+ self.logger.info("Test qat_c_DES_DOCSISBPI")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_SHA256_HMAC_01"):
+ test_vectors, "qat_c_DES_DOCSISBPI"):
result = False
+
+ def test_qat_SNOW3G_auto(self):
+
+ result = True
- self.logger.info("Test qat_h_SHA384_HMAC_01")
+ self.logger.info("Test qat_c_UEA2_01")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_SHA384_HMAC_01"):
+ test_vectors, "qat_c_UEA2_01"):
result = False
- self.logger.info("Test qat_h_SHA512_HMAC_01")
+ self.logger.info("Test qat_h_UIA2_01")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_SHA512_HMAC_01"):
+ test_vectors, "qat_h_UIA2_01"):
result = False
-
+
self.verify(result, True)
-
- def test_qat_AES_XCBC_MAC(self):
+
+ def test_qat_KASUMI_auto(self):
result = True
+ self.logger.info("Test qat_kasumi_c_F8_01")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "qat_kasumi_c_F8_01"):
+ result = False
- self.logger.info("Test qat_h_AES_XCBC_MAC_01")
+ self.logger.info("Test qat_kasumi_h_F9_01")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_AES_XCBC_MAC_01"):
+ test_vectors, "qat_kasumi_h_F9_01"):
result = False
self.verify(result, True)
-
- def test_qat_SNOW3G(self):
+
+ def test_qat_ZUC_auto(self):
result = True
+ self.logger.info("Test qat_c_EEA3_01")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "qat_c_EEA3_01"):
+ result = False
- self.logger.info("Test qat_c_UEA2_01")
+ self.logger.info("Test qat_h_EIA3_01")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_c_UEA2_01"):
+ test_vectors, "qat_h_EIA3_01"):
result = False
+
+ def test_qat_c_NULL_auto(self):
- self.logger.info("Test qat_h_UIA2_01")
+ result = True
+
+ self.logger.info("Test qat_c_NULL_auto")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_h_UIA2_01"):
+ test_vectors, "null_c_NULL_auto"):
result = False
self.verify(result, True)
-
- def test_qat_AES_GCM_AES_GCM(self):
+
+ def test_qat_h_NULL_auto(self):
result = True
- self.logger.info("Test qat_ch_AES_GCM_AES_GCM_01")
+ self.logger.info("Test qat_h_NULL_auto")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "qat_ch_AES_GCM_AES_GCM_01"):
+ test_vectors, "qat_h_NULL_auto"):
result = False
self.verify(result, True)
-
+
+ def test_aesni_mb_AES_CBC_auto(self):
+ result = True
+ self.logger.info("Test aesni_mb_c_AES_CBC_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "aesni_mb_c_AES_CBC_00"):
+ result = False
+
+ def test_aesni_mb_AES_CTR_auto(self):
+ result = True
+ self.logger.info("Test aesni_mb_c_AES_CTR_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "aesni_mb_c_AES_CTR_00"):
+ result = False
+
+ def test_aesni_mb_AES_DOCSISBPI_auto(self):
+ result = True
+ self.logger.info("Test aesni_mb_c_AES_DOCSISBPI")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "aesni_mb_c_AES_DOCSISBPI"):
+ result = False
+
def test_aesni_AES_GCM_AES_GCM(self):
result = True
- self.logger.info("Test aesni_ch_AES_GCM_AES_GCM_01")
+ self.logger.info("Test aesni_gcm_ch_AES_GCM_AES_GCM_01")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "aesni_ch_AES_GCM_AES_GCM_01"):
+ test_vectors, "aesni_gcm_ch_AES_GCM_AES_GCM_01"):
result = False
self.verify(result, True)
-
- def test_kasumi_KASUMI(self):
+
+ def test_kasumi_KASUMI_auto(self):
result = True
-
self.logger.info("Test kasumi_c_F8_01")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "kasumi_c_F8_01"):
@@ -238,18 +298,51 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
+
+ def test_null_NULL_CIPHER(self):
+
+ result = True
+ self.logger.info("Test null_c_NULL_auto")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "null_c_NULL_auto"):
+ result = False
+
+ self.verify(result, True)
+
+ def test_null_NULL_HASH(self):
- def test_null_NULL(self):
+ result = True
+
+ self.logger.info("Test null_h_NULL_auto")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "null_h_NULL_auto"):
+ result = False
+
+ self.verify(result, True)
+
+ def test_null_c_NULL_auto(self):
result = True
- self.logger.info("Test null_c_NULL_01")
+ self.logger.info("Test null_c_NULL_auto")
if not self.__execute_l2fwd_crypto_test(
- test_vectors, "null_c_NULL_01"):
+ test_vectors, "null_c_NULL_auto"):
result = False
self.verify(result, True)
+
+ def test_null_h_NULL_auto(self):
+ result = True
+
+ self.logger.info("Test null_h_NULL_auto")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "null_h_NULL_auto"):
+ result = False
+
+ self.verify(result, True)
+
+
def test_snow3g_SNOW3G(self):
result = True
@@ -265,7 +358,130 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
+
+ def test_zun_ZUC_auto(self):
+
+ result = True
+ self.logger.info("Test zuc_c_EEA3_01")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "zuc_c_EEA3_01"):
+ result = False
+ self.logger.info("Test zuc_h_EIA3_01")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "zuc_h_EIA3_01"):
+ result = False
+
+ # openssl pmd cases
+ def test_openssl_3DES_CBC_auto(self):
+ result = True
+ self.logger.info("Test openssl_c_3DES_CBC_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "openssl_c_3DES_CBC_00"):
+ result = False
+
+ def test_openssl_3DES_CTR_auto(self):
+ result = True
+ self.logger.info("Test openssl_c_3DES_CTR_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "openssl_c_3DES_CTR_00"):
+ result = False
+
+ def test_openssl_AES_CBC_auto(self):
+ result = True
+ self.logger.info("Test openssl_c_AES_CBC_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "openssl_c_AES_CBC_00"):
+ result = False
+
+ def test_openssl_AES_CTR_auto(self):
+ result = True
+ self.logger.info("Test openssl_c_AES_CTR_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "openssl_c_AES_CTR_00"):
+ result = False
+
+ def test_openssl_AES_GCM_auto(self):
+ result = True
+ self.logger.info("Test openssl_c_AES_GCM_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "openssl_c_AES_GCM_00"):
+ result = False
+
+ def test_openssl_h_MD_SHA_auto(self):
+ result = True
+ self.logger.info("Test openssl_h_MD_SHA_00")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "openssl_h_MD_SHA_00"):
+ result = False
+
+ def test_openssl_c_DES_DOCSISBPI_auto(self):
+ result = True
+ self.logger.info("Test openssl_c_DES_DOCSISBPI")
+ if not self.__execute_l2fwd_crypto_test(
+ test_vectors, "openssl_c_DES_DOCSISBPI"):
+ result = False
+
+ def test_calculatr_case_number(self):
+
+ self.__calculate_totall_cases_numb()
+
+ def __calculate_totall_cases_numb(self):
+ alg_map = {}
+ pmd_map = {}
+ map_combine = {}
+ count = 0
+ alg = ""
+ pmd = ""
+ alg_list = ["AES_CBC","AES_CTR","AES_GCM","3DES_CBC", \
+ "3DES_CTR","SNOW3G","KASUMI","ZUC","NULL","MD_SHA"]
+ pmd_list = ["qat","aesni_mb","aesni_gcm","snow3g",\
+ "kasumi","zuc","openssl","null"]
+ valid_map = {
+ "qat": ["AES_CBC", "AES_CTR","AES_GCM","3DES_CBC", \
+ "3DES_CTR","SNOW3G","KASUMI","NULL","MD_SHA"],
+ "aesni_mb":["AES_CBC", "AES_CTR"],
+ "aesni_gcm":["AES_GCM"],
+ "snow3g":["SNOW3G"],
+ "kasumi":["KASUMI"],
+ "zuc":["ZUC"],
+ "openssl":["AES_CBC", "AES_CTR","AES_GCM","3DES_CBC","3DES_CTR","MD_SHA"],
+ "null":["NULL"]
+ }
+
+ for index,value in test_vectors.iteritems():
+ test_vector_list = self.__test_vector_to_vector_list(value,
+ core_mask="-1",port_mask=self.port_mask)
+ count = count + len(test_vector_list)
+ for i in alg_list:
+ if (index.upper()).find(i) != -1:
+ alg = i
+ if i in alg_map:
+ alg_map[i] += len(test_vector_list)
+ else:
+ alg_map[i] = len(test_vector_list)
+ for j in pmd_list:
+ if (index).find(j) != -1:
+ pmd = j if j !="" else "qat"
+ if i in pmd_map:
+ pmd_map[j] += len(test_vector_list)
+ else:
+ pmd_map[j] = len(test_vector_list)
+ if alg in valid_map[pmd]:
+ temp_str = pmd + "_" + alg
+ if temp_str in map_combine:
+ map_combine[temp_str] += len(test_vector_list)
+ else:
+ map_combine[temp_str] = len(test_vector_list)
+ for k,v in alg_map.iteritems():
+ self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k,number=v))
+ for k,v in pmd_map.iteritems():
+ self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k,number=v))
+ for k,v in map_combine.iteritems():
+ self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k,number=v))
+ self.logger.info("Total cases:\t\t\t {0}".format(count))
+
+
def __execute_l2fwd_crypto_test(self, test_vectors, test_vector_name):
if test_vector_name not in test_vectors:
@@ -274,89 +490,68 @@ class TestL2fwdCrypto(TestCase):
test_vector = test_vectors[test_vector_name]
- result = True
- cmd_str = self.__test_vector_to_cmd(test_vector,
- core_mask=self.core_mask,
- port_mask=self.port_mask)
-
- self.dut.send_expect(cmd_str, "==", 30)
-
- self.tester.send_expect("rm -rf %s.pcap" % (self.rx_interface), "#")
- self.tester.send_expect("tcpdump -P in -w %s.pcap -i %s &" % (self.rx_interface, self.rx_interface), "#")
- # Wait 5 sec for tcpdump stable
- time.sleep(5)
-
- payload = self.__format_hex_to_param(test_vector["input"], "\\x", "\\x")
-
- PACKET_COUNT = 65
-
- self.tester.scapy_foreground()
- self.tester.scapy_append('sendp([Ether(src="52:00:00:00:00:00")/IP(src="192.168.1.1",dst="192.168.1.2")/Raw(load=\"%s\")], iface="%s", count=%s)' % (payload, self.tx_interface, PACKET_COUNT))
-
- self.tester.scapy_execute()
-
- time.sleep(5)
-
- self.tester.send_expect("killall tcpdump", "#")
- self.tester.send_expect("^C", "#")
-
- # Wait 5 secs for tcpdump exit
- time.sleep(5)
-
- self.tester.send_expect("scapy", ">>>")
- self.tester.send_expect("p=rdpcap('%s.pcap', count=%s)" % (self.rx_interface, PACKET_COUNT), ">>>")
+ test_vector_list = self.__test_vector_to_vector_list(test_vector,
+ core_mask=self.core_mask,
+ port_mask=self.port_mask)
- hex_list = []
- for i in range(PACKET_COUNT):
- cmd = "linehexdump(p[%s],onlyhex=1)" % i
- hex_list.append(self.tester.send_expect(cmd, ">>>"))
-
- # Exit the scapy
- self.tester.send_expect("exit()", "#", 60)
-
- for hex_str in hex_list:
- packet_hex = hex_str.split(" ")
- # self.logger.info(hex_str)
- # self.logger.info(packet_hex)
-
- cipher_offset = 34
- cipher_length = len(test_vector["output_cipher"])/2
- if cipher_length == 0:
- cipher_length = len(test_vector["input"])/2
- cipher_text = "".join(packet_hex[cipher_offset:cipher_offset+cipher_length])
- # self.logger.info("Cipher text in packet = " + cipher_text)
- # self.logger.info("Ref Cipher text = " + test_vector["output_cipher"])
- if str.lower(cipher_text) == str.lower(test_vector["output_cipher"]):
- self.logger.info("Cipher Matched.")
- else:
- if test_vector["output_cipher"] != "":
- result = False
- self.logger.info("Cipher NOT Matched.")
- self.logger.info("Cipher text in packet = " + cipher_text)
- self.logger.info("Ref Cipher text = " + test_vector["output_cipher"])
- else:
- self.logger.info("Skip Cipher, Since no cipher text set")
-
- hash_offset = cipher_offset + cipher_length
- hash_length = len(test_vector["output_hash"])/2
- if hash_length != 0:
- hash_text = "".join(packet_hex[hash_offset:hash_offset+hash_length])
- # self.logger.info("Hash text in packet = " + hash_text)
- # self.logger.info("Ref Hash text = " + test_vector["output_hash"])
- if str.lower(hash_text) == str.lower(test_vector["output_hash"]):
- self.logger.info("Hash Matched")
+ result = True
+ self.logger.info("Total Generated {0} Tests".format(len(test_vector_list)))
+ for test_vector in test_vector_list:
+ self.logger.debug(test_vector)
+ cmd_str = self.__test_vector_to_cmd(test_vector,
+ core_mask=self.core_mask,
+ port_mask=self.port_mask)
+ self.dut.send_expect(cmd_str, "==", 30)
+ time.sleep(5)
+
+ payload = self.__format_hex_to_list(test_vector["input"])
+
+ inst = sniff_packets(self.rx_interface, timeout=5)
+
+ PACKET_COUNT = 65
+ pkt = Packet()
+ pkt.assign_layers(["ether", "ipv4", "raw"])
+ pkt.config_layer("ether", {"src":"52:00:00:00:00:00"})
+ pkt.config_layer("ipv4", {"src":"192.168.1.1", "dst":"192.168.1.2"})
+ pkt.config_layer("raw", {"payload":payload})
+ pkt.send_pkt(tx_port=self.tx_interface, count=PACKET_COUNT)
+ pkt.pktgen.pkt.show()
+
+ pkt_rec = load_sniff_packets(inst)
+
+ for pkt_r in pkt_rec:
+ packet_hex = pkt_r.strip_element_layer4("load")
+ cipher_text = binascii.b2a_hex(packet_hex)
+ self.logger.info("Cipher text in packet = " + cipher_text)
+ self.logger.info("Ref Cipher text = " + test_vector["output_cipher"])
+ if str.lower(cipher_text) == str.lower(test_vector["output_cipher"]):
+ self.logger.info(cipher_text)
+ self.logger.info("Cipher Matched.")
else:
- result = False
- self.logger.info("Hash NOT Matched")
+ if test_vector["output_cipher"] != "":
+ result = False
+ self.logger.info("Cipher NOT Matched.")
+ self.logger.info("Cipher text in packet = " + cipher_text)
+ self.logger.info("Ref Cipher text = " + test_vector["output_cipher"])
+ else:
+ self.logger.info("Skip Cipher, Since no cipher text set")
+
+ hash_length = len(test_vector["output_hash"])/2
+ if hash_length != 0:
+ hash_text = binascii.b2a_hex(pkt_r.pktgen.pkt["Padding"].getfieldval("load"))
self.logger.info("Hash text in packet = " + hash_text)
self.logger.info("Ref Hash text = " + test_vector["output_hash"])
- else:
- self.logger.info("Skip Hash, Since no hash text set")
-
- # Close l2fwd-crypto
- # self.dut.send_expect("killall -9 l2fwd-crypto", "# ", 15)
- self.dut.send_expect("^C", "# ", 15)
+ if str.lower(hash_text) == str.lower(test_vector["output_hash"]):
+ self.logger.info("Hash Matched")
+ else:
+ result = False
+ self.logger.info("Hash NOT Matched")
+ self.logger.info("Hash text in packet = " + hash_text)
+ self.logger.info("Ref Hash text = " + test_vector["output_hash"])
+ else:
+ self.logger.info("Skip Hash, Since no hash text set")
+ self.logger.info("Packet Size : %d " % (len(test_vector["input"]) / 2))
if result:
self.logger.info("PASSED")
else:
@@ -365,7 +560,7 @@ class TestL2fwdCrypto(TestCase):
return result
def tear_down(self):
- pass
+ self.dut.kill_all()
def tear_down_all(self):
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_QAT=y$/CONFIG_RTE_LIBRTE_PMD_QAT=n/' config/common_base", "# ")
@@ -373,11 +568,30 @@ class TestL2fwdCrypto(TestCase):
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_NULL_CRYPTO=y$/CONFIG_RTE_LIBRTE_PMD_NULL_CRYPTO=n/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_SNOW3G=y$/CONFIG_RTE_LIBRTE_PMD_SNOW3G=n/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_KASUMI=y$/CONFIG_RTE_LIBRTE_PMD_KASUMI=n/' config/common_base", "# ")
-
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_OPENSSL=y$/CONFIG_RTE_LIBRTE_PMD_OPENSSL=n/' config/common_base", "# ")
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=y$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=n/' config/common_base", "# ")
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_ZUC=y$/CONFIG_RTE_LIBRTE_PMD_ZUC=n/' config/common_base", "# ")
+
+ def __get_tcpdump_cmd(self,interface):
+ cmd = ""
+
+ status, output = commands.getstatusoutput("tcpdump --version")
+ head = output.find('tcpdump version')
+ strlen = len("tcpdump version ")
+ tail = output.find("\nlibpcap version")
+ version = output[head + strlen : tail]
+ v = int(version.replace('.',''))
+ if v < 462 :
+ cmd = "".join("tcpdump -P in -w %s.pcap -i %s &"%(interface,interface))
+ else:
+ cmd = "".join("tcpdump -Q in -w %s.pcap -i %s &"%(interface,interface))
+ return cmd
+
def __test_vector_to_cmd(self, test_vector, core_mask="", port_mask=""):
L2FWD_CRYPTO_APP = "./examples/l2fwd-crypto/build/app/l2fwd-crypto"
EAL_CORE_MASK = " -cf" if core_mask == "" else " -c" + core_mask
EAL_MM_CHANNEL = " -n4"
+ EAL_SOCKET_MEM = " --socket-mem=512,512 "
EAL_SEP = " --"
PORT_MASK = "" if port_mask == "" else " -p" + port_mask
QUEUE_NUM = ""
@@ -434,7 +648,7 @@ class TestL2fwdCrypto(TestCase):
if self.__check_field_in_vector(test_vector, "aad_random_size"):
aad_random_size = " --aad_random_size " + test_vector["aad_random_size"]
- cmd_str = "".join([L2FWD_CRYPTO_APP, EAL_CORE_MASK, EAL_MM_CHANNEL, vdev, vdev, EAL_SEP,
+ cmd_str = "".join([L2FWD_CRYPTO_APP, EAL_CORE_MASK, EAL_MM_CHANNEL,EAL_SOCKET_MEM, vdev, vdev, EAL_SEP,
PORT_MASK, QUEUE_NUM, chain, cdev_type, cipher_algo, cipher_op, cipher_key,
iv, auth_algo, auth_op, auth_key, auth_key_random_size, aad, aad_random_size])
@@ -460,85 +674,675 @@ class TestL2fwdCrypto(TestCase):
return result
+ def __format_hex_to_list(self, hex_str):
+ if not hex_str:
+ return []
+ if len(hex_str) == 1:
+ return [hex_str]
+
+ result = []
+ result.append(hex_str[0:2])
+ for i in range(2, len(hex_str), 2):
+ if len(hex_str) < i + 2:
+ result.append(hex_str[i:])
+ else:
+ result.append(hex_str[i:i+2])
+ return result
+
+ def __gen_input(self, length, pattern=None):
+ pattern = "11"
+ input_str = ""
+ for i in range(length):
+ input_str += pattern
+ return input_str
+
+ def __gen_key(self, length, pattern=None, mask="000000"):
+ base_key = "000102030405060708090a0b0c0d0e0f"
+ key = ""
+ n = length // 16
+ for i in range(n):
+ key = key + base_key
+ base_key = base_key[2:] + base_key[0:2]
+ m = length % 16
+ key = key + base_key[0:2*m]
+ return key
+
+ def __cryptography_cipher(self, vector):
+ key = binascii.a2b_hex(vector["cipher_key"])
+ iv = binascii.a2b_hex(vector["iv"])
+ cipher_algo_str = vector["cipher_algo"]
+ if vector["cipher_algo"] == "AES_CBC":
+ cipher_algo = algorithms.AES(key)
+ cipher_mode = modes.CBC(iv)
+ elif vector["cipher_algo"] == "AES_CTR":
+ cipher_algo = algorithms.AES(key)
+ cipher_mode = modes.CTR(iv)
+ elif vector["cipher_algo"] == "3DES_CBC":
+ cipher_algo = algorithms.TripleDES(key)
+ cipher_mode = modes.CBC(iv)
+ elif vector["cipher_algo"] == "AES_GCM":
+ cipher_algo = algorithms.AES(key)
+ cipher_mode = modes.GCM(iv)
+ else:
+ cipher_algo = algorithms.AES(key)
+ cipher_mode = modes.CBC(iv)
+
+ cipher = Cipher(cipher_algo, cipher_mode, backend=default_backend())
+ encryptor = cipher.encryptor()
+ cipher_text = encryptor.update(binascii.a2b_hex(vector["input"])) + encryptor.finalize()
+
+ return binascii.b2a_hex(cipher_text)
+
+ def __CryptoMoble_cipher(self,vector):
+ # default is kasumi , kasumi alg we need to guarantee IV is :0001020304000000
+ #so count is 66051 , dir =1 , bearer = 0
+ cipher_str = ""
+ out_str = ""
+ cipher_algo = vector['cipher_algo']
+
+ mBitlen = 8 * (len(vector['input']) / 2)
+ bin_input = bytearray.fromhex(vector["input"])
+ str_input = str(bin_input)
+ bin_key = binascii.a2b_hex(vector["cipher_key"])
+ if ((cipher_algo.upper()).find("KASUMI") != -1):
+ vector["iv"] = vector["iv"][:10] + "000000"
+ out_str = cm.UEA1(key=bin_key,count=66051, bearer=0, \
+ dir=1,data=str_input,bitlen=mBitlen)
+
+ elif ((cipher_algo.upper()).find("SNOW3G") != -1):
+
+ vector["iv"] = "00000000000000000000000000000000"
+ out_str = cm.UEA2(key=bin_key,count=0,bearer=0,dir=0, \
+ data=str_input,bitlen=mBitlen)
+
+ elif ((cipher_algo.upper()).find("ZUC") != -1):
+ vector["iv"] = "00010203040000000001020304000000"
+ out_str = cm.EEA3(key=bin_key,count=0x10203,bearer=0,dir=1, \
+ data=str_input,bitlen=mBitlen)
+
+ cipher_str = out_str.encode("hex").upper()
+
+ return cipher_str
+
+ def __gen_null_cipher_out(self,vector):
+ cipher_str = ""
+ if (vector['chain'] == "CIPHER_ONLY") or (vector['chain'] == "CIPHER_HASH"):
+ cipher_str = vector['input']
+ elif (vector['chain'] == "HASH_CIPHER"):
+ cipher_str = vector['output_hash']
+ return cipher_str
+
+ def __gen_cipher_output(self, vector):
+ #import pdb
+ #pdb.set_trace()
+ if vector["chain"] == "HASH_ONLY":
+ vector["output_cipher"] == ""
+ return
+
+ if vector["output_cipher"] != "*":
+ return
+
+ cipher_str = ""
+ ####
+ if(((vector['cipher_algo']).upper()).find("KASUMI") != -1) or \
+ (((vector['cipher_algo']).upper()).find("SNOW3G") != -1) or \
+ (((vector['cipher_algo']).upper()).find("ZUC") != -1):
+ cipher_str = self.__CryptoMoble_cipher(vector)
+ elif (vector['cipher_algo'] == "NULL"):
+ cipher_str = self.__gen_null_cipher_out(vector)
+ else:
+ cipher_str = self.__cryptography_cipher(vector)
+ vector["output_cipher"] = cipher_str.upper()
+
+ def __gen_kasumi_hash(self,vector):
+ auth_str = ""
+ auth_algo = vector['auth_algo']
+ mBitlen = 8 * (len(vector['input']) / 2)
+ bin_input = bytearray.fromhex(vector["input"])
+ str_input = str(bin_input)
+ bin_key = binascii.a2b_hex(vector["auth_key"])
+
+ #vector["add"] = vector["add"][:6] + "000000"
+ #ADD IS 0001020304050607
+ hash_out = cm.UIA1(key=bin_key,count=0X10203, fresh=0X4050607,dir=0, \
+ data=str_input)
+ auth_str = hash_out.encode("hex").upper()
+
+ return auth_str
+
+ def __gen_snow3g_hash(self,vector):
+ auth_str = ""
+ auth_algo = vector['auth_algo']
+ mBitlen = 8 * (len(vector['input']) / 2)
+ bin_input = bytearray.fromhex(vector["input"])
+ str_input = str(bin_input)
+ bin_key = binascii.a2b_hex(vector["auth_key"])
+ #ADD IS 00010203040506070001020304050607
+ vector["aad"] = "00000000000000000000000000000000"
+ #vector["aad"][:16] + vector["aad"][:16]
+
+ hash_out = cm.UIA2(key=bin_key,count=0, fresh=0,dir=0, \
+ data=str_input)
+
+ #hash_out = cm.UIA2(key=bin_key,count=0x7060504, fresh=0x3020100,dir=0, \
+ # data=str_input)
+ auth_str = hash_out.encode("hex").upper()
+
+ return auth_str
+
+ def __gen_zuc_hash(self,vector):
+ auth_str = ""
+ auth_algo = vector['auth_algo']
+ mBitlen = 8 * (len(vector['input']) / 2)
+ bin_input = bytearray.fromhex(vector["input"])
+ str_input = str(bin_input)
+ bin_key = binascii.a2b_hex(vector["auth_key"])
+
+ #add is 00010203080000000001020308000000
+ #vector["aad"] = vector["aad"][:8] + "08000000" + vector["aad"][:8] + "08000000"
+ vector["aad"] = "00000000000000000000000000000000"
+ hash_out = cm.EIA3(key=bin_key,count=0, bearer=0,dir=0,data=str_input,bitlen=mBitlen)
+ auth_str = hash_out.encode("hex").upper()
+
+ return auth_str
+
+ def __gen_null_hash(self,vector):
+ auth_str = ""
+ if (vector['chain'] == "HASH_ONLY") or (vector['chain'] == "HASH_CIPHER"):
+ auth_str = vector['input']
+ elif (vector['chain'] == "CIPHER_HASH"):
+ auth_str = vector['output_cipher']
+ return auth_str
+
+ def __gen_hash_output(self, vector):
+ if vector["chain"] == "CIPHER_ONLY":
+ vector["output_hash"] == ""
+ return
+
+ if vector["output_hash"] != "*":
+ return
+
+ if vector["chain"] == "HASH_ONLY":
+ vector["output_cipher"] = ""
+
+ hash_str = ""
+
+ if vector["chain"] == "CIPHER_HASH":
+ input_str = vector["output_cipher"]
+ else:
+ input_str = vector["input"]
+
+ auth_algo = vector["auth_algo"]
+ if auth_algo == "MD5_HMAC":
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ binascii.a2b_hex(input_str), hashlib.md5).hexdigest()
+ elif auth_algo == "SHA1_HMAC":
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ binascii.a2b_hex(input_str), hashlib.sha1).hexdigest()
+ elif auth_algo == "SH224_HMAC":
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ binascii.a2b_hex(input_str), hashlib.sha224).hexdigest()
+ elif auth_algo == "SH256_HMAC":
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ binascii.a2b_hex(input_str), hashlib.sha256).hexdigest()
+ elif auth_algo == "SHA384_HMAC":
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ binascii.a2b_hex(input_str), hashlib.sha384).hexdigest()
+ elif auth_algo == "SHA512_HMAC":
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ binascii.a2b_hex(input_str), hashlib.sha512).hexdigest()
+ elif auth_algo == "AES_XCBC_MAC":
+ pass
+ elif auth_algo == "AES_GCM":
+ pass
+ elif auth_algo == "AES_GMAC":
+ pass
+ elif auth_algo == "SNOW3G_UIA2":
+ hash_str = self.__gen_snow3g_hash(vector)
+ elif auth_algo == "ZUC_EIA3":
+ hash_str = self.__gen_zuc_hash(vector)
+ elif auth_algo == "KASUMI_F9":
+ hash_str = self.__gen_kasumi_hash(vector)
+ elif auth_algo == "NULL":
+ hash_str = self.__gen_null_hash(vector)
+ elif auth_algo == "MD5":
+ hash_str = hashlib.md5(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ elif auth_algo == "SHA1":
+ hash_str = hashlib.sha1(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ elif auth_algo == "SHA224":
+ hash_str = hashlib.sha224(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ elif auth_algo == "SHA256":
+ hash_str = hashlib.sha256(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ elif auth_algo == "SHA384":
+ hash_str = hashlib.sha384(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ elif auth_algo == "SHA512":
+ hash_str = hashlib.sha512(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ else:
+ pass
+ vector["output_hash"] = hash_str.upper()
+ self.__actually_aesni_mb_digest(vector)
+
+ def __gen_output(self, vector, cmds, core_mask="", port_mask=""):
+ if core_mask != "-1":
+ self.__gen_cipher_output(vector)
+ self.__gen_hash_output(vector)
+ cmds.append(vector)
+
+ def __var2list(self, var):
+ var_list = var if isinstance(var, list) else [var]
+ return var_list
+
+ def __is_valid_op(self, chain, op):
+ chain_op_map = {
+ "CIPHER_ONLY": ["ENCRYPT", "DECRYPT"],
+ "HASH_ONLY": ["GENERATE", "VERIFY"],
+ "CIPHER_HASH": ["ENCRYPT", "GENERATE"],
+ "HASH_CIPHER": ["DECRYPT", "VERIFY"],
+ }
+ if op in chain_op_map[chain]:
+ return True
+ return False
+
+ def __is_valid_size(self, key_type, algo, size):
+ algo_size_map = {
+ "AES_CBC": {
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ },
+ "SHA1_HMAC": {
+ "auth_key": [64],
+ "aad": [0]
+ },
+
+ "aes-cbc": {
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ },
+ "aes-ctr": {
+ "cipher_key": [16, 24, 32],
+ "iv": [16]
+ },
+ "3des-cbc": {
+ "cipher_key": [16, 24],
+ "iv": [8]
+ },
+ "3des-ctr": {
+ "cipher_key": [16, 24],
+ "iv": [8]
+ },
+ "aes-gcm": {
+ "cipher_key": [16, 24, 32],
+ "auth_key": [16, 24, 32],
+ "aad": [0,1,2,3,4,5,6,8,9,12,16,24,32,64,128,155,256,1024,65535],
+ "iv": [12,16]
+ },
+ "aes-docsisbpi":{
+ "cipher_key": [16],
+ "iv": [16],
+ },
+ "des-docsisbpi":{
+ "cipher_key": [8],
+ "iv": [8],
+ },
+ "snow3g-uea2": {
+ "cipher_key": [16],
+ "iv": [16]
+ },
+ "kasumi-f8": {
+ "cipher_key": [16],
+ "iv": [8]
+ },
+ "zuc-eea3": {
+ "cipher_key": [16],
+ "iv": [16]
+ },
+ "null": {
+ "cipher_key": [0],
+ "auth_key": [0],
+ "aad": [0],
+ "iv": [0]
+ },
+ "md-hmac": {
+ "auth_key": [64],
+ "aad": [0],
+ },
+ "sha1-hmac": {
+ "auth_key": [64],
+ "aad": [0]
+ },
+ "sha2-224-hmac": {
+ "auth_key": [64],
+ "aad": [0]
+ },
+ "sha2-256-hmac": {
+ "auth_key": [64],
+ "aad": [0]
+ },
+ "sha2-384-hmac": {
+ "auth_key": [128],
+ "aad": [0]
+ },
+ "sha2-512-hmac": {
+ "auth_key": [128],
+ "aad": [0]
+ },
+ "AES_XCBC_MAC": {
+ "auth_key": [16],
+ "aad": [0]
+ },
+ "aes-gmac": {
+ "auth_key": [16, 24, 32],
+ "aad": [1, 16, 64, 128, 256, 65535]
+ },
+ "snow-uia2": {
+ "auth_key": [16],
+ "aad": [16]
+ },
+ "kasumi-f9": {
+ "auth_key": [16],
+ "aad": [8]
+ },
+ "zuc-eia3": {
+ "auth_key": [16],
+ "aad": [16]
+ },
+ "md5": {
+ "auth_key": [0],
+ "aad": [0],
+ },
+ "sha1": {
+ "auth_key": [0],
+ "aad": [0]
+ },
+ "sha2-224": {
+ "auth_key": [0],
+ "aad": [0]
+ },
+ "sha2-256": {
+ "auth_key": [0],
+ "aad": [0]
+ },
+ "sha2-384": {
+ "auth_key": [0],
+ "aad": [0]
+ },
+ "sha2-512": {
+ "auth_key": [0],
+ "aad": [0]
+ },
+ }
+ result = False
+ if algo in algo_size_map:
+ if key_type in algo_size_map[algo]:
+ if size in algo_size_map[algo][key_type]:
+ result = True
+ return result
+
+ def __actually_aesni_mb_digest(self,vector):
+
+ if ((vector["vdev"]).find("crypto_aesni_mb") == -1):
+ return
+
+ auth_algo_dgst_map = {
+ "md4-hmac": 12,
+ "sha1-hmac": 12,
+ "sha2-224-hamc": 14,
+ "sha2-256-hmac": 16,
+ "sha2-384-hamc": 24,
+ "sha2-512-hmac": 32,
+ "AES_XCBC_MAC": 12
+ }
+ if vector["auth_algo"] in auth_algo_dgst_map:
+ digest = auth_algo_dgst_map[vector["auth_algo"]]
+ vector["output_hash"] = vector["output_hash"] if digest >= (len(vector["output_hash"]) / 2) \
+ else (vector["output_hash"])[0:2*digest]
+
+
+ def __iter_cipher_algo(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "HASH_ONLY":
+ test_vector["cipher_algo"] = ""
+ self.__iter_cipher_op(test_vector, vector_list, core_mask, port_mask)
+ else:
+ cipher_algo_list = self.__var2list(test_vector["cipher_algo"])
+ for cipher_algo in cipher_algo_list:
+ test_vector = vector.copy()
+ test_vector["cipher_algo"] = cipher_algo
+ self.__iter_cipher_op(test_vector, vector_list, core_mask, port_mask)
+
+ def __iter_cipher_op(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "HASH_ONLY":
+ test_vector["cipher_op"] = ""
+ self.__iter_cipher_key(test_vector, vector_list, core_mask, port_mask)
+ else:
+ cipher_op_list = self.__var2list(test_vector["cipher_op"])
+ for cipher_op in cipher_op_list:
+ if self.__is_valid_op(test_vector["chain"], cipher_op):
+ test_vector = vector.copy()
+ test_vector["cipher_op"] = cipher_op
+ self.__iter_cipher_key(test_vector, vector_list, \
+ core_mask, port_mask)
+
+ def __iter_cipher_key(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "HASH_ONLY":
+ test_vector["cipher_key"] = ""
+ self.__iter_iv(test_vector, vector_list, core_mask, port_mask)
+ else:
+ cipher_key_list = self.__var2list(test_vector["cipher_key"])
+ for cipher_key in cipher_key_list:
+ test_vector = vector.copy()
+ if isinstance(cipher_key, int):
+ if self.__is_valid_size("cipher_key", \
+ test_vector["cipher_algo"], \
+ cipher_key):
+ test_vector["cipher_key"] = self.__gen_key(cipher_key)
+ self.__iter_iv(test_vector, vector_list, core_mask, port_mask)
+ else:
+ continue
+ else:
+ test_vector["cipher_key"] = cipher_key
+ self.__iter_iv(test_vector, vector_list, core_mask, port_mask)
+
+ def __iter_iv(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "HASH_ONLY":
+ test_vector["iv"] = ""
+ self.__iter_auth_algo(test_vector, vector_list, core_mask, port_mask)
+ else:
+ iv_list = self.__var2list(test_vector["iv"])
+ for iv in iv_list:
+ test_vector = vector.copy()
+ if isinstance(iv, int):
+ if self.__is_valid_size("iv", \
+ test_vector["cipher_algo"], \
+ iv):
+ test_vector["iv"] = self.__gen_key(iv)
+ self.__iter_auth_algo(test_vector, vector_list, \
+ core_mask, port_mask)
+ else:
+ continue
+ else:
+ test_vector["iv"] = iv
+ self.__iter_auth_algo(test_vector, vector_list, \
+ core_mask, port_mask)
+
+ def __iter_auth_algo(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "CIPHER_ONLY":
+ test_vector["auth_algo"] = ""
+ self.__iter_auth_op(test_vector, vector_list, core_mask, port_mask)
+ else:
+ auth_algo_list = self.__var2list(test_vector["auth_algo"])
+ for auth_algo in auth_algo_list:
+ test_vector = vector.copy()
+ test_vector["auth_algo"] = auth_algo
+ self.__iter_auth_op(test_vector, vector_list, core_mask, port_mask)
+
+ def __iter_auth_op(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "CIPHER_ONLY":
+ test_vector["auth_op"] = ""
+ self.__iter_auth_key(test_vector, vector_list, core_mask, port_mask)
+ else:
+ auth_op_list = self.__var2list(test_vector["auth_op"])
+ for auth_op in auth_op_list:
+ if self.__is_valid_op(test_vector["chain"], auth_op):
+ test_vector = vector.copy()
+ test_vector["auth_op"] = auth_op
+ self.__iter_auth_key(test_vector, vector_list, \
+ core_mask, port_mask)
+
+ def __iter_auth_key(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "CIPHER_ONLY":
+ test_vector["auth_key"] = ""
+ self.__iter_aad(test_vector, vector_list, core_mask, port_mask)
+ else:
+ auth_key_list = self.__var2list(test_vector["auth_key"])
+ for auth_key in auth_key_list:
+ test_vector = vector.copy()
+ if isinstance(auth_key, int):
+ if self.__is_valid_size("auth_key", \
+ test_vector["auth_algo"], \
+ auth_key):
+ test_vector["auth_key"] = self.__gen_key(auth_key)
+ self.__iter_aad(test_vector, vector_list, core_mask, port_mask)
+ else:
+ continue
+ else:
+ test_vector["auth_key"] = auth_key
+ self.__iter_aad(test_vector, vector_list, core_mask, port_mask)
+
+ def __iter_aad(self, vector, vector_list, core_mask="", port_mask=""):
+ test_vector = vector.copy()
+ if test_vector["chain"] == "CIPHER_ONLY":
+ test_vector["aad"] = ""
+ self.__iter_input(test_vector, vector_list, core_mask, port_mask)
+ else:
+ aad_list = self.__var2list(test_vector["aad"])
+ for aad in aad_list:
+ test_vector = vector.copy()
+ if isinstance(aad, int):
+ if self.__is_valid_size("aad", \
+ test_vector["auth_algo"], \
+ aad):
+ test_vector["aad"] = self.__gen_key(aad)
+ self.__iter_input(test_vector, vector_list, \
+ core_mask, port_mask)
+ else:
+ continue
+ else:
+ test_vector["aad"] = aad
+ self.__iter_input(test_vector, vector_list, \
+ core_mask, port_mask)
+
+ def __iter_input(self, vector, vector_list, core_mask="", port_mask=""):
+ input_list = self.__var2list(vector["input"])
+ for input_data in input_list:
+ test_vector = vector.copy()
+ test_vector["input"] = self.__gen_input(input_data) \
+ if isinstance(input_data, int) else input_data
+
+ self.__gen_output(test_vector, vector_list, core_mask, port_mask)
+
+ def __test_vector_to_vector_list(self, test_vector,core_mask="", port_mask=""):
+ vector_list = []
+
+ chain_list = self.__var2list(test_vector["chain"])
+
+ for chain in chain_list:
+ test_vector["chain"] = chain
+ self.__iter_cipher_algo(test_vector, vector_list, core_mask, port_mask)
+ return vector_list
+
+
test_vectors = {
- "qat_c_AES_CBC_01": {
+ "qat_c_AES_CBC_00": {
"vdev": "",
- "chain": "CIPHER_ONLY",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "AES_CBC",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "",
- "auth_op": "",
- "auth_key": "",
+ "cipher_algo": ["aes-cbc"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "96A702D1CC8DD6D625D971915FCE8C40B8C522042B7126D51BB204CECA048C13793B75FF84A4B524370A45534C2BC476",
- "output_hash": "",
+ "input":[16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
- "qat_c_AES_CTR_01": {
+
+ "qat_c_AES_CTR_00": {
"vdev": "",
- "chain": "CIPHER_ONLY",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "AES_CTR",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "",
- "auth_op": "",
- "auth_key": "",
+ "cipher_algo": ["aes-ctr"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "1B851AA4507FE154E0D28549D742FB4B1372FD85770963878BCBEC1E5AB51ECD0B3C85A2000DB4E9ACD3D95CDD38FD56",
- "output_hash": "",
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
- "qat_c_AES_GCM_01": {
+
+ "qat_c_AES_GCM_00": {
"vdev": "",
- "chain": "CIPHER_ONLY",
+ "chain": ["CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "AES_GCM",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "",
- "auth_op": "",
- "auth_key": "",
+ "cipher_algo": ["aes-gcm"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [12,16],
+ "auth_algo": ["aes-gcm","aes-gmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "1b851aa4507fe154e0d28549d742fb4b1372fd85770963878bcbec1e5ab51ecd0b3c85a2000db4e9acd3d95cdd38fd56",
- "output_hash": "",
+ "input":[16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
- "qat_h_MD5_HMAC_01": {
+
+ "qat_h_MD_SHA_00": {
"vdev": "",
- "chain": "HASH_ONLY",
+ "chain": ["HASH_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "",
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "MD5_HMAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111100000000000000000000000000000000",
- "output_cipher": "",
- "output_hash": None
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
- "qat_h_SHA1_HMAC_01": {
+
+ "qat_h_AES_XCBC_MAC_01": {
"vdev": "",
"chain": "HASH_ONLY",
"cdev_type": "ANY",
@@ -546,323 +1350,718 @@ test_vectors = {
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "SHA1_HMAC",
+ "auth_algo": ["AES_XCBC_MAC"],
"auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f",
+ "auth_key": [16],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111100000000000000000000000000000000",
- "output_cipher": "",
- "output_hash": "12E2EF8B7EBFE556C73307B04E1E46D12BA34884"
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
-
- "qat_h_SHA224_HMAC_01": {
+
+ "qat_c_3DES_CBC_00": {
"vdev": "",
- "chain": "HASH_ONLY",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "",
- "cipher_op": "",
- "cipher_key": "",
- "iv": "",
- "auth_algo": "SHA224_HMAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f",
+ "cipher_algo": ["3des-cbc"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24],
+ "iv": [8],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111100000000000000000000000000000000",
- "output_cipher": "",
- "output_hash": "45BBF9A798501F225E2C9671863B96BF2DD1C5DAC5DB554A7B9BDB6D"
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
- "qat_h_SHA256_HMAC_01": {
+
+ "qat_c_3DES_CTR_00": {
"vdev": "",
- "chain": "HASH_ONLY",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "",
- "cipher_op": "",
- "cipher_key": "",
- "iv": "",
- "auth_algo": "SHA256_HMAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f",
+ "cipher_algo": ["3des-ctr"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24],
+ "iv": [8],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "qat_c_AES_GCM_01": {
+ "vdev": "",
+ "chain": ["CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["aes-gcm"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [12,16],
+ "auth_algo": ["aes-gcm"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16, 24, 32],
+ "auth_key_random_size": "",
+ "aad": [8,12],
+ "aad_random_size": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+ "qat_ch_AES_GCM_AES_GCM_01": {
+ "vdev": "",
+ "chain": ["CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["aes-gcm"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [12,16],
+ "auth_algo": ["aes-gcm"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16, 24, 32],
+ "auth_key_random_size": "",
+ "aad": [8,12],
+ "aad_random_size": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+ "qat_ch_AES_DOCSISBPI": {
+ "vdev": "",
+ "chain": ["CIPHER_ONLY"],
+ "cdev_type": "ANY",
+ "cipher_algo": "aes-docsisbpi",
+ "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_key": [16],
+ "iv": [16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[15,16,17,129,256,258,515,772,1019,1547,2011,2048],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "qat_c_DES_DOCSISBPI": {
+ "vdev": "",
+ "chain": ["CIPHER_ONLY"],
+ "cdev_type": "ANY",
+ "cipher_algo": "des-docsisbpi",
+ "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_key": [8],
+ "iv": [8],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
"aad": "",
"aad_random_size": "",
- "input": "11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111100000000000000000000000000000000",
- "output_cipher": "",
- "output_hash": "AC9E0BA3A0716F4F4A2734B407BE28D6F276CE0472B827D6EE47B7E518C2BC0D"
+ "input":[5,8,11,16,64,127,258,506,512,521,1020,1022,1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+ "qat_c_UEA2_01": {
+ "vdev": "",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["snow3g-uea2"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [16],
+ "auth_algo": ["snow3g-uia2"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
+ "auth_key_random_size": "",
+ "aad": [16],
+ "aad_random_size": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
- "qat_h_SHA384_HMAC_01": {
+ "qat_h_UIA2_01": {
"vdev": "",
- "chain": "HASH_ONLY",
+ "chain": ["HASH_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "",
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "SHA384_HMAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f",
+ "auth_algo": ["snow3g-uia2"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
+ "aad": [16],
+ "aad_random_size": "",
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+ "qat_kasumi_c_F8_01": {
+ "vdev": "",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["kasumi-f8"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [8],
+ "auth_algo": ["kasumi-f9"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [8],
"aad_random_size": "",
- "input": "11111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111100000000000000000000000000000000",
- "output_cipher": "",
- "output_hash": "2CE1BD8F18A93A63AF04C21EDE42EE4D8468C6DFD17474B64D2C36E6CAA9F9D177B424F91DAB8D2D4CAF2AAF63FFAE09"
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
- "qat_h_SHA512_HMAC_01": {
+ "qat_kasumi_h_F9_01": {
"vdev": "",
- "chain": "HASH_ONLY",
+ "chain": ["HASH_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "",
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "SHA512_HMAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f",
+ "auth_algo": ["kasumi-f9"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [8],
+ "aad_random_size": "",
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+ "qat_c_EEA3_01": {
+ "vdev": "",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["zuc-eea3"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [16],
+ "auth_algo": ["zuc-eia3"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
+ "auth_key_random_size": "",
+ "aad": [16],
"aad_random_size": "",
- "input": "1111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111110000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000",
- "output_cipher": "",
- "output_hash": "C8917E7490FC2CFF0CFDD0509C1C0D711CD27FFDFAAEA375E123F25F7532D4FA7D02D95CD52FAC8A27E21B3F5F734241897A37BB8953C52FFADB3B605A864569"
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
- "qat_h_AES_XCBC_MAC_01": {
+ "qat_h_EIA3_01": {
"vdev": "",
- "chain": "HASH_ONLY",
+ "chain": ["HASH_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "",
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "AES_XCBC_MAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f",
+ "auth_algo": ["zuc-eia3"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [16],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "",
- "output_hash": "A7AD120ED744A9EC0618C0D9"
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
-
- "qat_ch_AES_CBC_SHA1_HMAC_01": {
+
+ "qat_c_NULL_auto": {
"vdev": "",
- "chain": "CIPHER_HASH",
+ "chain": ["CIPHER_ONLY","CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "AES_CBC",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "SHA1_HMAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f",
+ "cipher_algo": ["null"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [0],
+ "iv": "",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "96A702D1CC8DD6D625D971915FCE8C40B8C522042B7126D51BB204CECA048C13793B75FF84A4B524370A45534C2BC476",
- "output_hash": "2D6EFD5929812460E2DE34A1BD768F209C985143BA7333E8D59EFED291517EF7"
+ "digest": "",
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
-
- "qat_c_UEA2_01": {
+
+ "qat_h_NULL_auto": {
"vdev": "",
- "chain": "CIPHER_ONLY",
+ "chain": ["CIPHER_ONLY","CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "SNOW3G_UEA2",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
+ "cipher_algo": ["null","aes-cbc","aes-ctr","3des-ctr","snow3g-uea2","kasumi-f8"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [8, 16, 24, 32, 40, 48, 56, 64],
+ "iv": "",
+ "auth_algo": ["null"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [0],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "digest": "",
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+ "aesni_mb_c_AES_CBC_00": {
+ "vdev": "crypto_aesni_mb,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["aes-cbc"],
+ "cipher_op": ["ENCRYPT"],
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "aesni_mb_c_AES_CTR_00": {
+ "vdev": "crypto_aesni_mb,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["aes-ctr"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "aesni_mb_c_AES_DOCSISBPI": {
+ "vdev": "crypto_aesni_mb,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY"],
+ "cdev_type": "ANY",
+ "cipher_algo": "aes-docsisbpi",
+ "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_key": [16],
+ "iv": [16],
"auth_algo": "",
"auth_op": "",
"auth_key": "",
"auth_key_random_size": "",
"aad": "",
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "fa0d2ff5dbf973e7082b128396fbc2c1ff5721099a1eb82918e66c1fa1b8fd52ce1763963f73859595d89b0b8d3907a8",
- "output_hash": ""
+ "input":[15,16,17,129,256,258,515,772,1019,1547,2011,2048],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "null_c_NULL_01": {
+ "vdev": "crypto_null_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY","CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["null"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": ["0"],
+ "iv": "",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "digest": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
- "qat_h_UIA2_01": {
- "vdev": "",
+ "null_h_NULL": {
+ "vdev": "crypto_null_pmd,socket_id=1,max_nb_sessions=128",
"chain": "HASH_ONLY",
"cdev_type": "ANY",
"cipher_algo": "",
"cipher_op": "",
- "cipher_key": "",
+ "cipher_key": [0],
"iv": "",
- "auth_algo": "SNOW3G_UIA2",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f",
+ "auth_algo": ["null"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [0],
"auth_key_random_size": "",
- "aad": "000102030405060708090a0b0c0d0e0f",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "",
- "output_hash": "741D4316"
+ "digest": "",
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
-
- "snow3g_c_UEA2_01": {
- "vdev": "cryptodev_snow3g_pmd,socket_id=1,max_nb_sessions=128",
- "chain": "CIPHER_ONLY",
+
+ "null_c_NULL_auto": {
+ "vdev": "crypto_null_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY","CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "SNOW3G_UEA2",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "",
- "auth_op": "",
- "auth_key": "",
+ "cipher_algo": ["null"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [0],
+ "iv": [0],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [0,8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "fa0d2ff5dbf973e7082b128396fbc2c1ff5721099a1eb82918e66c1fa1b8fd52ce1763963f73859595d89b0b8d3907a8",
- "output_hash": ""
+ "digest": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+ "null_h_NULL_auto": {
+ "vdev": "crypto_null_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY","CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["null"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [0,8, 16, 24, 32, 40, 48, 56, 64],
+ "iv": [0],
+ "auth_algo": ["null"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [0],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "digest": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+
+ "aesni_gcm_ch_AES_GCM_AES_GCM_01": {
+ "vdev": "crypto_aesni_gcm_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["aes-gcm"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [12,16],
+ "auth_algo": ["aes-gcm"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16, 24, 32],
+ "auth_key_random_size": "",
+ "aad": [8,12],
+ "aad_random_size": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+
+
+ "kasumi_c_F8_01": {
+ "vdev": "crypto_kasumi_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["kasumi-f8"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [8],
+ "auth_algo": ["kasumi-f9"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
+ "auth_key_random_size": "",
+ "aad": [8],
+ "aad_random_size": "",
+ "input": [16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
- "snow3g_h_UIA2_01": {
- "vdev": "cryptodev_snow3g_pmd,socket_id=1,max_nb_sessions=128",
- "chain": "HASH_ONLY",
+ "kasumi_h_F9_01": {
+ "vdev": "crypto_kasumi_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["HASH_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "",
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "SNOW3G_UIA2",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f",
+ "auth_algo": ["kasumi-f9"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
- "aad": "000102030405060708090a0b0c0d0e0f",
+ "aad": [8],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "",
- "output_hash": "741D4316"
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
-
- "kasumi_c_F8_01": {
- "vdev": "cryptodev_kasumi_pmd,socket_id=1,max_nb_sessions=128",
- "chain": "CIPHER_ONLY",
+
+ "snow3g_c_UEA2_01": {
+ "vdev": "crypto_snow3g_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "KASUMI_F8",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "0001020304050607",
- "auth_algo": "",
- "auth_op": "",
- "auth_key": "",
+ "cipher_algo": ["sno3g-uea2"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [16],
+ "auth_algo": ["snow3g-uia2"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [16],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "ede654ff0caab546b654cd7a3b0a4199e957579214f45bd7e25fcbbda41e38fc885fbbd6195cf8e22905480191b2f861",
- "output_hash": ""
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
- "kasumi_h_F9_01": {
- "vdev": "cryptodev_kasumi_pmd,socket_id=1,max_nb_sessions=128",
- "chain": "HASH_ONLY",
+ "snow3g_h_UIA2_01": {
+ "vdev": "crypto_snow3g_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["HASH_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "",
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "KASUMI_F9",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f",
+ "auth_algo": ["snow3g-uia2"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
+ "auth_key_random_size": "",
+ "aad": [16],
+ "aad_random_size": "",
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
+ },
+
+ "zuc_c_EEA3_01": {
+ "vdev": "crypto_zuc_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["zuc-eea3"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [16],
+ "auth_algo": ["zuc-eia3"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
- # aad length min=8 max=8
- "aad": "0001020304050607",
+ "aad": [16],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "",
- "output_hash": "D1C2BE1E"
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
- "null_c_NULL_01": {
- "vdev": "cryptodev_null_pmd,socket_id=1,max_nb_sessions=128",
- "chain": "CIPHER_ONLY",
+ "zuc_h_EIA3_01": {
+ "vdev": "crypto_zuc_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["HASH_ONLY"],
"cdev_type": "ANY",
- "cipher_algo": "NULL",
- "cipher_op": "ENCRYPT",
+ "cipher_algo": "",
+ "cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": "",
- "auth_op": "",
- "auth_key": "",
+ "auth_algo": ["zuc-eia3"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [16],
"auth_key_random_size": "",
- "aad": "",
+ "aad": [16],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_hash": ""
+ "input": [16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher": "*",
+ "output_hash": "*"
},
-
- "qat_ch_AES_GCM_AES_GCM_01": {
- "vdev": "",
- "chain": "CIPHER_HASH",
+
+ "openssl_c_3DES_CBC_00": {
+ "vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "AES_GCM",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "AES_GCM",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f",
+ "cipher_algo": ["3des-cbc"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24],
+ "iv": [8],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- # aad length min=8 max=12
- "aad": "0001020304050607",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "1372fd85770963878bcbec1e5ab51ecd0b3c85a2000db4e9acd3d95cdd38fd565c1abac3884e8e167332357956a4c21f",
- "output_hash": "00A2EBC33A8A1C8C"
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
- "aesni_ch_AES_GCM_AES_GCM_01": {
- "vdev": "cryptodev_aesni_gcm_pmd,socket_id=1,max_nb_sessions=128",
- "chain": "CIPHER_HASH",
+
+ "openssl_c_3DES_CTR_00": {
+ "vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "AES_GCM",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "AES_GCM",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f",
+ "cipher_algo": ["3des-ctr"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24],
+ "iv": [8],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
- # aad length min=8 max=12
- "aad": "0001020304050607",
+ "aad": [0],
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "1372fd85770963878bcbec1e5ab51ecd0b3c85a2000db4e9acd3d95cdd38fd565c1abac3884e8e167332357956a4c21f",
- "output_hash": "00A2EBC33A8A1C8C"
+ "input":[16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
- "aesni_ch_AES_CBC_SHA1_HMAC_01": {
- "vdev": "cryptodev_aesni_mb_pmd,socket_id=1,max_nb_sessions=128",
- "chain": "CIPHER_HASH",
+
+ "openssl_c_AES_CBC_00": {
+ "vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": "AES_CBC",
- "cipher_op": "ENCRYPT",
- "cipher_key": "000102030405060708090a0b0c0d0e0f",
- "iv": "000102030405060708090a0b0c0d0e0f",
- "auth_algo": "SHA1_HMAC",
- "auth_op": "GENERATE",
- "auth_key": "000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f000102030405060708090a0b0c0d0e0f",
+ "cipher_algo": ["aes-cbc"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "openssl_c_AES_CTR_00": {
+ "vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["aes-ctr"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16, 24, 32],
+ "iv": [16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "openssl_c_AES_GCM_00": {
+ "vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_HASH"],
+ "cdev_type": "ANY",
+ "cipher_algo": ["aes-gcm"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
+ "cipher_key": [16],
+ "iv": [12,16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[16,48,64, 128, 129,256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "openssl_h_MD_SHA_00": {
+ "vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["HASH_ONLY"],
+ "cdev_type": "ANY",
+ "cipher_algo": "",
+ "cipher_op": "",
+ "cipher_key": "",
+ "iv": "",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
+ "sha2-384-hmac", "sha2-512-hmac"],
+ "auth_op": ["GENERATE"],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key_random_size": "",
+ "aad": [0],
+ "aad_random_size": "",
+ "input":[16,48,64, 128,129, 256, 512, 1024],
+ "output_cipher":"*",
+ "output_hash": "*"
+ },
+
+ "openssl_c_DES_DOCSISBPI": {
+ "vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
+ "chain": ["CIPHER_ONLY"],
+ "cdev_type": "ANY",
+ "cipher_algo": "des-docsisbpi",
+ "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_key": [8],
+ "iv": [8],
+ "auth_algo": "",
+ "auth_op": "",
+ "auth_key": "",
"auth_key_random_size": "",
"aad": "",
"aad_random_size": "",
- "input": "111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111",
- "output_cipher": "96A702D1CC8DD6D625D971915FCE8C40B8C522042B7126D51BB204CECA048C13793B75FF84A4B524370A45534C2BC476",
- "output_hash": "2D6EFD5929812460E2DE34A1BD768F209C985143BA7333E8D59EFED291517EF7"
+ "input":[5,8,11,16,64,127,258,506,512,521,1020,1022,1024],
+ "output_cipher":"*",
+ "output_hash": "*"
},
-
+
}
--
2.5.5
^ permalink raw reply [flat|nested] 4+ messages in thread
* [dts] [PATCH 2/2] Enhance l2fwd-crypto Test Suite
2017-03-16 1:44 [dts] [PATCH 0/2] Enhance l2fwd crypto Test Suite Chen, Zhaoyan
2017-03-16 1:44 ` [dts] [PATCH 1/2] " Chen, Zhaoyan
@ 2017-03-16 1:44 ` Chen, Zhaoyan
2017-03-23 5:45 ` [dts] [PATCH 0/2] Enhance l2fwd crypto " Liu, Yong
2 siblings, 0 replies; 4+ messages in thread
From: Chen, Zhaoyan @ 2017-03-16 1:44 UTC (permalink / raw)
To: dts; +Cc: Chen, Zhaoyan
- Fix pep8 issues
- Add DOCSIS support
- Add AES GCM support
- Refine the test vectors
---
tests/TestSuite_l2fwd_crypto.py | 715 +++++++++++++++++++---------------------
1 file changed, 334 insertions(+), 381 deletions(-)
diff --git a/tests/TestSuite_l2fwd_crypto.py b/tests/TestSuite_l2fwd_crypto.py
index a578ac0..d559909 100644
--- a/tests/TestSuite_l2fwd_crypto.py
+++ b/tests/TestSuite_l2fwd_crypto.py
@@ -92,16 +92,16 @@ class TestL2fwdCrypto(TestCase):
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_SNOW3G=n$/CONFIG_RTE_LIBRTE_PMD_SNOW3G=y/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_KASUMI=n$/CONFIG_RTE_LIBRTE_PMD_KASUMI=y/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_OPENSSL=n$/CONFIG_RTE_LIBRTE_PMD_OPENSSL=y/' config/common_base", "# ")
- self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=n$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=y/' config/common_base", "# ")
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=n$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=y/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_ZUC=n$/CONFIG_RTE_LIBRTE_PMD_ZUC=y/' config/common_base", "# ")
self.dut.skip_setup = False
self.dut.build_install_dpdk(self.dut.target)
-
+
# l2fwd-crypto compile
out = self.dut.build_dpdk_apps("./examples/l2fwd-crypto")
self.verify("Error" not in out, "Compilation error")
self.verify("No such" not in out, "Compilation error")
-
+
# Bind QAT VF devices
out = self.dut.send_expect("lspci -d:443|awk '{print $1}'", "# ", 10)
self.dut.send_expect('echo "8086 0443" > /sys/bus/pci/drivers/igb_uio/new_id', "# ", 10)
@@ -120,49 +120,49 @@ class TestL2fwdCrypto(TestCase):
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_c_AES_CBC_00"):
result = False
-
+
def test_qat_AES_CTR_auto(self):
result = True
self.logger.info("Test qat_c_AES_CTR_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_c_AES_CTR_00"):
result = False
-
+
def test_qat_AES_GCM_auto(self):
result = True
self.logger.info("Test qat_c_AES_GCM_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_c_AES_GCM_00"):
result = False
-
+
def test_qat_h_MD_SHA_auto(self):
result = True
self.logger.info("Test qat_h_MD_SHA_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_h_MD_SHA_00"):
result = False
-
+
def test_qat_h_AES_XCBC_MAC_auto(self):
result = True
self.logger.info("Test qat_h_AES_XCBC_MAC_01")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_h_AES_XCBC_MAC_01"):
result = False
-
+
def test_qat_3DES_CBC_auto(self):
result = True
self.logger.info("Test qat_c_3DES_CBC_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_c_3DES_CBC_00"):
result = False
-
+
def test_qat_3DES_CTR_auto(self):
result = True
self.logger.info("Test qat_c_3DES_CTR_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_c_3DES_CTR_00"):
result = False
-
+
def test_qat_AES_GCM_AES_GCM(self):
result = True
@@ -171,21 +171,21 @@ class TestL2fwdCrypto(TestCase):
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_ch_AES_GCM_AES_GCM_01"):
result = False
-
+
def test_qat_AES_DOCSISBPI_auto(self):
result = True
self.logger.info("Test qat_ch_AES_DOCSISBPI")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_ch_AES_DOCSISBPI"):
result = False
-
+
def test_qat_c_DES_DOCSISBPI_auto(self):
result = True
self.logger.info("Test qat_c_DES_DOCSISBPI")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_c_DES_DOCSISBPI"):
result = False
-
+
def test_qat_SNOW3G_auto(self):
result = True
@@ -199,9 +199,9 @@ class TestL2fwdCrypto(TestCase):
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_h_UIA2_01"):
result = False
-
+
self.verify(result, True)
-
+
def test_qat_KASUMI_auto(self):
result = True
@@ -216,7 +216,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_qat_ZUC_auto(self):
result = True
@@ -229,7 +229,7 @@ class TestL2fwdCrypto(TestCase):
if not self.__execute_l2fwd_crypto_test(
test_vectors, "qat_h_EIA3_01"):
result = False
-
+
def test_qat_c_NULL_auto(self):
result = True
@@ -240,7 +240,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_qat_h_NULL_auto(self):
result = True
@@ -251,28 +251,28 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_aesni_mb_AES_CBC_auto(self):
result = True
self.logger.info("Test aesni_mb_c_AES_CBC_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "aesni_mb_c_AES_CBC_00"):
result = False
-
+
def test_aesni_mb_AES_CTR_auto(self):
result = True
self.logger.info("Test aesni_mb_c_AES_CTR_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "aesni_mb_c_AES_CTR_00"):
result = False
-
+
def test_aesni_mb_AES_DOCSISBPI_auto(self):
result = True
self.logger.info("Test aesni_mb_c_AES_DOCSISBPI")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "aesni_mb_c_AES_DOCSISBPI"):
result = False
-
+
def test_aesni_AES_GCM_AES_GCM(self):
result = True
@@ -283,7 +283,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_kasumi_KASUMI_auto(self):
result = True
@@ -298,7 +298,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_null_NULL_CIPHER(self):
result = True
@@ -308,7 +308,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_null_NULL_HASH(self):
result = True
@@ -319,7 +319,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_null_c_NULL_auto(self):
result = True
@@ -330,7 +330,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_null_h_NULL_auto(self):
result = True
@@ -342,7 +342,6 @@ class TestL2fwdCrypto(TestCase):
self.verify(result, True)
-
def test_snow3g_SNOW3G(self):
result = True
@@ -358,7 +357,7 @@ class TestL2fwdCrypto(TestCase):
result = False
self.verify(result, True)
-
+
def test_zun_ZUC_auto(self):
result = True
@@ -371,87 +370,84 @@ class TestL2fwdCrypto(TestCase):
if not self.__execute_l2fwd_crypto_test(
test_vectors, "zuc_h_EIA3_01"):
result = False
-
- # openssl pmd cases
+
+ # openssl pmd cases
def test_openssl_3DES_CBC_auto(self):
result = True
self.logger.info("Test openssl_c_3DES_CBC_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "openssl_c_3DES_CBC_00"):
result = False
-
+
def test_openssl_3DES_CTR_auto(self):
result = True
self.logger.info("Test openssl_c_3DES_CTR_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "openssl_c_3DES_CTR_00"):
- result = False
-
+ result = False
+
def test_openssl_AES_CBC_auto(self):
result = True
self.logger.info("Test openssl_c_AES_CBC_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "openssl_c_AES_CBC_00"):
result = False
-
+
def test_openssl_AES_CTR_auto(self):
result = True
self.logger.info("Test openssl_c_AES_CTR_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "openssl_c_AES_CTR_00"):
result = False
-
+
def test_openssl_AES_GCM_auto(self):
result = True
self.logger.info("Test openssl_c_AES_GCM_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "openssl_c_AES_GCM_00"):
result = False
-
+
def test_openssl_h_MD_SHA_auto(self):
result = True
self.logger.info("Test openssl_h_MD_SHA_00")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "openssl_h_MD_SHA_00"):
result = False
-
+
def test_openssl_c_DES_DOCSISBPI_auto(self):
result = True
self.logger.info("Test openssl_c_DES_DOCSISBPI")
if not self.__execute_l2fwd_crypto_test(
test_vectors, "openssl_c_DES_DOCSISBPI"):
result = False
-
- def test_calculatr_case_number(self):
-
- self.__calculate_totall_cases_numb()
-
+
def __calculate_totall_cases_numb(self):
alg_map = {}
pmd_map = {}
- map_combine = {}
+ map_combine = {}
count = 0
alg = ""
pmd = ""
- alg_list = ["AES_CBC","AES_CTR","AES_GCM","3DES_CBC", \
- "3DES_CTR","SNOW3G","KASUMI","ZUC","NULL","MD_SHA"]
- pmd_list = ["qat","aesni_mb","aesni_gcm","snow3g",\
- "kasumi","zuc","openssl","null"]
+ alg_list = ["AES_CBC", "AES_CTR", "AES_GCM", "3DES_CBC",
+ "3DES_CTR", "SNOW3G", "KASUMI", "ZUC", "NULL", "MD_SHA"]
+ pmd_list = ["qat", "aesni_mb", "aesni_gcm", "snow3g",
+ "kasumi", "zuc", "openssl", "null"]
valid_map = {
- "qat": ["AES_CBC", "AES_CTR","AES_GCM","3DES_CBC", \
- "3DES_CTR","SNOW3G","KASUMI","NULL","MD_SHA"],
- "aesni_mb":["AES_CBC", "AES_CTR"],
- "aesni_gcm":["AES_GCM"],
- "snow3g":["SNOW3G"],
- "kasumi":["KASUMI"],
- "zuc":["ZUC"],
- "openssl":["AES_CBC", "AES_CTR","AES_GCM","3DES_CBC","3DES_CTR","MD_SHA"],
- "null":["NULL"]
+ "qat": ["AES_CBC", "AES_CTR", "AES_GCM", "3DES_CBC",
+ "3DES_CTR", "SNOW3G", "KASUMI", "NULL", "MD_SHA"],
+ "aesni_mb": ["AES_CBC", "AES_CTR"],
+ "aesni_gcm": ["AES_GCM"],
+ "snow3g": ["SNOW3G"],
+ "kasumi": ["KASUMI"],
+ "zuc": ["ZUC"],
+ "openssl": ["AES_CBC", "AES_CTR", "AES_GCM", "3DES_CBC",
+ "3DES_CTR", "MD_SHA"],
+ "null": ["NULL"]
}
-
- for index,value in test_vectors.iteritems():
+
+ for index, value in test_vectors.iteritems():
test_vector_list = self.__test_vector_to_vector_list(value,
- core_mask="-1",port_mask=self.port_mask)
+ core_mask="-1", port_mask=self.port_mask)
count = count + len(test_vector_list)
for i in alg_list:
if (index.upper()).find(i) != -1:
@@ -462,7 +458,7 @@ class TestL2fwdCrypto(TestCase):
alg_map[i] = len(test_vector_list)
for j in pmd_list:
if (index).find(j) != -1:
- pmd = j if j !="" else "qat"
+ pmd = j if j != "" else "qat"
if i in pmd_map:
pmd_map[j] += len(test_vector_list)
else:
@@ -473,15 +469,14 @@ class TestL2fwdCrypto(TestCase):
map_combine[temp_str] += len(test_vector_list)
else:
map_combine[temp_str] = len(test_vector_list)
- for k,v in alg_map.iteritems():
- self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k,number=v))
- for k,v in pmd_map.iteritems():
- self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k,number=v))
- for k,v in map_combine.iteritems():
- self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k,number=v))
+ for k, v in alg_map.iteritems():
+ self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k, number=v))
+ for k, v in pmd_map.iteritems():
+ self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k, number=v))
+ for k, v in map_combine.iteritems():
+ self.logger.info("Total {name} cases:\t\t\t{number}".format(name=k, number=v))
self.logger.info("Total cases:\t\t\t {0}".format(count))
-
-
+
def __execute_l2fwd_crypto_test(self, test_vectors, test_vector_name):
if test_vector_name not in test_vectors:
@@ -491,8 +486,8 @@ class TestL2fwdCrypto(TestCase):
test_vector = test_vectors[test_vector_name]
test_vector_list = self.__test_vector_to_vector_list(test_vector,
- core_mask=self.core_mask,
- port_mask=self.port_mask)
+ core_mask=self.core_mask,
+ port_mask=self.port_mask)
result = True
self.logger.info("Total Generated {0} Tests".format(len(test_vector_list)))
@@ -503,7 +498,7 @@ class TestL2fwdCrypto(TestCase):
port_mask=self.port_mask)
self.dut.send_expect(cmd_str, "==", 30)
time.sleep(5)
-
+
payload = self.__format_hex_to_list(test_vector["input"])
inst = sniff_packets(self.rx_interface, timeout=5)
@@ -511,9 +506,9 @@ class TestL2fwdCrypto(TestCase):
PACKET_COUNT = 65
pkt = Packet()
pkt.assign_layers(["ether", "ipv4", "raw"])
- pkt.config_layer("ether", {"src":"52:00:00:00:00:00"})
- pkt.config_layer("ipv4", {"src":"192.168.1.1", "dst":"192.168.1.2"})
- pkt.config_layer("raw", {"payload":payload})
+ pkt.config_layer("ether", {"src": "52:00:00:00:00:00"})
+ pkt.config_layer("ipv4", {"src": "192.168.1.1", "dst": "192.168.1.2"})
+ pkt.config_layer("raw", {"payload": payload})
pkt.send_pkt(tx_port=self.tx_interface, count=PACKET_COUNT)
pkt.pktgen.pkt.show()
@@ -522,11 +517,9 @@ class TestL2fwdCrypto(TestCase):
for pkt_r in pkt_rec:
packet_hex = pkt_r.strip_element_layer4("load")
cipher_text = binascii.b2a_hex(packet_hex)
- self.logger.info("Cipher text in packet = " + cipher_text)
- self.logger.info("Ref Cipher text = " + test_vector["output_cipher"])
if str.lower(cipher_text) == str.lower(test_vector["output_cipher"]):
- self.logger.info(cipher_text)
- self.logger.info("Cipher Matched.")
+ self.logger.info(cipher_text)
+ self.logger.info("Cipher Matched.")
else:
if test_vector["output_cipher"] != "":
result = False
@@ -539,8 +532,6 @@ class TestL2fwdCrypto(TestCase):
hash_length = len(test_vector["output_hash"])/2
if hash_length != 0:
hash_text = binascii.b2a_hex(pkt_r.pktgen.pkt["Padding"].getfieldval("load"))
- self.logger.info("Hash text in packet = " + hash_text)
- self.logger.info("Ref Hash text = " + test_vector["output_hash"])
if str.lower(hash_text) == str.lower(test_vector["output_hash"]):
self.logger.info("Hash Matched")
else:
@@ -552,6 +543,10 @@ class TestL2fwdCrypto(TestCase):
self.logger.info("Skip Hash, Since no hash text set")
self.logger.info("Packet Size : %d " % (len(test_vector["input"]) / 2))
+
+ # Close l2fwd-crypto process
+ self.dut.send_excpet("^C", "#", 30)
+
if result:
self.logger.info("PASSED")
else:
@@ -569,24 +564,9 @@ class TestL2fwdCrypto(TestCase):
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_SNOW3G=y$/CONFIG_RTE_LIBRTE_PMD_SNOW3G=n/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_KASUMI=y$/CONFIG_RTE_LIBRTE_PMD_KASUMI=n/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_OPENSSL=y$/CONFIG_RTE_LIBRTE_PMD_OPENSSL=n/' config/common_base", "# ")
- self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=y$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=n/' config/common_base", "# ")
+ self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=y$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=n/' config/common_base", "# ")
self.dut.send_expect("sed -i 's/CONFIG_RTE_LIBRTE_PMD_ZUC=y$/CONFIG_RTE_LIBRTE_PMD_ZUC=n/' config/common_base", "# ")
-
- def __get_tcpdump_cmd(self,interface):
- cmd = ""
-
- status, output = commands.getstatusoutput("tcpdump --version")
- head = output.find('tcpdump version')
- strlen = len("tcpdump version ")
- tail = output.find("\nlibpcap version")
- version = output[head + strlen : tail]
- v = int(version.replace('.',''))
- if v < 462 :
- cmd = "".join("tcpdump -P in -w %s.pcap -i %s &"%(interface,interface))
- else:
- cmd = "".join("tcpdump -Q in -w %s.pcap -i %s &"%(interface,interface))
- return cmd
-
+
def __test_vector_to_cmd(self, test_vector, core_mask="", port_mask=""):
L2FWD_CRYPTO_APP = "./examples/l2fwd-crypto/build/app/l2fwd-crypto"
EAL_CORE_MASK = " -cf" if core_mask == "" else " -c" + core_mask
@@ -648,9 +628,12 @@ class TestL2fwdCrypto(TestCase):
if self.__check_field_in_vector(test_vector, "aad_random_size"):
aad_random_size = " --aad_random_size " + test_vector["aad_random_size"]
- cmd_str = "".join([L2FWD_CRYPTO_APP, EAL_CORE_MASK, EAL_MM_CHANNEL,EAL_SOCKET_MEM, vdev, vdev, EAL_SEP,
- PORT_MASK, QUEUE_NUM, chain, cdev_type, cipher_algo, cipher_op, cipher_key,
- iv, auth_algo, auth_op, auth_key, auth_key_random_size, aad, aad_random_size])
+ cmd_str = "".join([L2FWD_CRYPTO_APP, EAL_CORE_MASK, EAL_MM_CHANNEL,
+ EAL_SOCKET_MEM, vdev, vdev, EAL_SEP, PORT_MASK,
+ QUEUE_NUM, chain, cdev_type, cipher_algo,
+ cipher_op, cipher_key, iv, auth_algo, auth_op,
+ auth_key, auth_key_random_size, aad,
+ aad_random_size])
return cmd_str
@@ -706,21 +689,21 @@ class TestL2fwdCrypto(TestCase):
m = length % 16
key = key + base_key[0:2*m]
return key
-
+
def __cryptography_cipher(self, vector):
key = binascii.a2b_hex(vector["cipher_key"])
iv = binascii.a2b_hex(vector["iv"])
cipher_algo_str = vector["cipher_algo"]
- if vector["cipher_algo"] == "AES_CBC":
+ if vector["cipher_algo"] == "aes-cbc":
cipher_algo = algorithms.AES(key)
cipher_mode = modes.CBC(iv)
- elif vector["cipher_algo"] == "AES_CTR":
+ elif vector["cipher_algo"] == "aes-ctr":
cipher_algo = algorithms.AES(key)
cipher_mode = modes.CTR(iv)
- elif vector["cipher_algo"] == "3DES_CBC":
+ elif vector["cipher_algo"] == "3des-cbc":
cipher_algo = algorithms.TripleDES(key)
cipher_mode = modes.CBC(iv)
- elif vector["cipher_algo"] == "AES_GCM":
+ elif vector["cipher_algo"] == "aes-gcm":
cipher_algo = algorithms.AES(key)
cipher_mode = modes.GCM(iv)
else:
@@ -729,61 +712,55 @@ class TestL2fwdCrypto(TestCase):
cipher = Cipher(cipher_algo, cipher_mode, backend=default_backend())
encryptor = cipher.encryptor()
- cipher_text = encryptor.update(binascii.a2b_hex(vector["input"])) + encryptor.finalize()
+ cipher_str = encryptor.update(binascii.a2b_hex(vector["input"])) + encryptor.finalize()
- return binascii.b2a_hex(cipher_text)
+ return binascii.b2a_hex(cipher_str)
- def __CryptoMoble_cipher(self,vector):
- # default is kasumi , kasumi alg we need to guarantee IV is :0001020304000000
- #so count is 66051 , dir =1 , bearer = 0
- cipher_str = ""
- out_str = ""
+ def __CryptoMoble_cipher(self, vector):
+ cipher_str = ""
+ out_str = ""
cipher_algo = vector['cipher_algo']
- mBitlen = 8 * (len(vector['input']) / 2)
+ mBitlen = 8 * (len(vector['input']) / 2)
bin_input = bytearray.fromhex(vector["input"])
str_input = str(bin_input)
bin_key = binascii.a2b_hex(vector["cipher_key"])
- if ((cipher_algo.upper()).find("KASUMI") != -1):
- vector["iv"] = vector["iv"][:10] + "000000"
- out_str = cm.UEA1(key=bin_key,count=66051, bearer=0, \
- dir=1,data=str_input,bitlen=mBitlen)
-
- elif ((cipher_algo.upper()).find("SNOW3G") != -1):
+ if ((cipher_algo.upper()).find("KASUMI") != -1):
+ vector["iv"] = vector["iv"][:10] + "000000"
+ out_str = cm.UEA1(key=bin_key, count=66051, bearer=0,
+ dir=1, data=str_input, bitlen=mBitlen)
+ elif ((cipher_algo.upper()).find("SNOW3G") != -1):
vector["iv"] = "00000000000000000000000000000000"
- out_str = cm.UEA2(key=bin_key,count=0,bearer=0,dir=0, \
- data=str_input,bitlen=mBitlen)
-
+ out_str = cm.UEA2(key=bin_key, count=0, bearer=0, dir=0,
+ data=str_input, bitlen=mBitlen)
elif ((cipher_algo.upper()).find("ZUC") != -1):
- vector["iv"] = "00010203040000000001020304000000"
- out_str = cm.EEA3(key=bin_key,count=0x10203,bearer=0,dir=1, \
- data=str_input,bitlen=mBitlen)
-
+ vector["iv"] = "00010203040000000001020304000000"
+ out_str = cm.EEA3(key=bin_key, count=0x10203, bearer=0, dir=1,
+ data=str_input, bitlen=mBitlen)
+
cipher_str = out_str.encode("hex").upper()
-
+
return cipher_str
-
- def __gen_null_cipher_out(self,vector):
+
+ def __gen_null_cipher_out(self, vector):
cipher_str = ""
if (vector['chain'] == "CIPHER_ONLY") or (vector['chain'] == "CIPHER_HASH"):
- cipher_str = vector['input']
+ cipher_str = vector['input']
elif (vector['chain'] == "HASH_CIPHER"):
- cipher_str = vector['output_hash']
- return cipher_str
-
+ cipher_str = vector['output_hash']
+ return cipher_str
+
def __gen_cipher_output(self, vector):
- #import pdb
- #pdb.set_trace()
if vector["chain"] == "HASH_ONLY":
vector["output_cipher"] == ""
return
if vector["output_cipher"] != "*":
return
-
+
cipher_str = ""
- ####
+
if(((vector['cipher_algo']).upper()).find("KASUMI") != -1) or \
(((vector['cipher_algo']).upper()).find("SNOW3G") != -1) or \
(((vector['cipher_algo']).upper()).find("ZUC") != -1):
@@ -793,103 +770,95 @@ class TestL2fwdCrypto(TestCase):
else:
cipher_str = self.__cryptography_cipher(vector)
vector["output_cipher"] = cipher_str.upper()
-
- def __gen_kasumi_hash(self,vector):
- auth_str = ""
- auth_algo = vector['auth_algo']
- mBitlen = 8 * (len(vector['input']) / 2)
+
+ def __gen_kasumi_hash(self, vector):
+ auth_str = ""
+ auth_algo = vector['auth_algo']
+ mBitlen = 8 * (len(vector['input']) / 2)
bin_input = bytearray.fromhex(vector["input"])
str_input = str(bin_input)
bin_key = binascii.a2b_hex(vector["auth_key"])
-
- #vector["add"] = vector["add"][:6] + "000000"
- #ADD IS 0001020304050607
- hash_out = cm.UIA1(key=bin_key,count=0X10203, fresh=0X4050607,dir=0, \
- data=str_input)
- auth_str = hash_out.encode("hex").upper()
-
+
+ hash_out = cm.UIA1(key=bin_key, count=0X10203, fresh=0X4050607, dir=0,
+ data=str_input)
+ auth_str = hash_out.encode("hex").upper()
+
return auth_str
-
- def __gen_snow3g_hash(self,vector):
- auth_str = ""
+
+ def __gen_snow3g_hash(self, vector):
+ auth_str = ""
auth_algo = vector['auth_algo']
- mBitlen = 8 * (len(vector['input']) / 2)
+ mBitlen = 8 * (len(vector['input']) / 2)
bin_input = bytearray.fromhex(vector["input"])
str_input = str(bin_input)
bin_key = binascii.a2b_hex(vector["auth_key"])
- #ADD IS 00010203040506070001020304050607
vector["aad"] = "00000000000000000000000000000000"
- #vector["aad"][:16] + vector["aad"][:16]
-
- hash_out = cm.UIA2(key=bin_key,count=0, fresh=0,dir=0, \
- data=str_input)
-
- #hash_out = cm.UIA2(key=bin_key,count=0x7060504, fresh=0x3020100,dir=0, \
- # data=str_input)
- auth_str = hash_out.encode("hex").upper()
-
+
+ hash_out = cm.UIA2(key=bin_key, count=0, fresh=0, dir=0,
+ data=str_input)
+
+ auth_str = hash_out.encode("hex").upper()
+
return auth_str
-
- def __gen_zuc_hash(self,vector):
- auth_str = ""
+
+ def __gen_zuc_hash(self, vector):
+ auth_str = ""
auth_algo = vector['auth_algo']
- mBitlen = 8 * (len(vector['input']) / 2)
+ mBitlen = 8 * (len(vector['input']) / 2)
bin_input = bytearray.fromhex(vector["input"])
str_input = str(bin_input)
bin_key = binascii.a2b_hex(vector["auth_key"])
-
- #add is 00010203080000000001020308000000
- #vector["aad"] = vector["aad"][:8] + "08000000" + vector["aad"][:8] + "08000000"
+
vector["aad"] = "00000000000000000000000000000000"
- hash_out = cm.EIA3(key=bin_key,count=0, bearer=0,dir=0,data=str_input,bitlen=mBitlen)
- auth_str = hash_out.encode("hex").upper()
-
+ hash_out = cm.EIA3(key=bin_key, count=0, bearer=0, dir=0, data=str_input, bitlen=mBitlen)
+ auth_str = hash_out.encode("hex").upper()
+
return auth_str
-
- def __gen_null_hash(self,vector):
- auth_str = ""
+
+ def __gen_null_hash(self, vector):
+ auth_str = ""
if (vector['chain'] == "HASH_ONLY") or (vector['chain'] == "HASH_CIPHER"):
- auth_str = vector['input']
+ auth_str = vector['input']
elif (vector['chain'] == "CIPHER_HASH"):
- auth_str = vector['output_cipher']
- return auth_str
-
+ auth_str = vector['output_cipher']
+ return auth_str
+
def __gen_hash_output(self, vector):
if vector["chain"] == "CIPHER_ONLY":
vector["output_hash"] == ""
return
-
+
if vector["output_hash"] != "*":
return
if vector["chain"] == "HASH_ONLY":
vector["output_cipher"] = ""
-
+
hash_str = ""
if vector["chain"] == "CIPHER_HASH":
input_str = vector["output_cipher"]
else:
input_str = vector["input"]
-
+
auth_algo = vector["auth_algo"]
if auth_algo == "MD5_HMAC":
- hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),
binascii.a2b_hex(input_str), hashlib.md5).hexdigest()
elif auth_algo == "SHA1_HMAC":
- hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),
binascii.a2b_hex(input_str), hashlib.sha1).hexdigest()
elif auth_algo == "SH224_HMAC":
- hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),
binascii.a2b_hex(input_str), hashlib.sha224).hexdigest()
elif auth_algo == "SH256_HMAC":
- hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),
binascii.a2b_hex(input_str), hashlib.sha256).hexdigest()
elif auth_algo == "SHA384_HMAC":
- hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),
binascii.a2b_hex(input_str), hashlib.sha384).hexdigest()
elif auth_algo == "SHA512_HMAC":
- hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),\
+ hash_str = hmac.new(binascii.a2b_hex(vector["auth_key"]),
binascii.a2b_hex(input_str), hashlib.sha512).hexdigest()
elif auth_algo == "AES_XCBC_MAC":
pass
@@ -906,20 +875,20 @@ class TestL2fwdCrypto(TestCase):
elif auth_algo == "NULL":
hash_str = self.__gen_null_hash(vector)
elif auth_algo == "MD5":
- hash_str = hashlib.md5(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ hash_str = hashlib.md5(binascii.a2b_hex(vector["auth_key"])).hexdigest()
elif auth_algo == "SHA1":
- hash_str = hashlib.sha1(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ hash_str = hashlib.sha1(binascii.a2b_hex(vector["auth_key"])).hexdigest()
elif auth_algo == "SHA224":
- hash_str = hashlib.sha224(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ hash_str = hashlib.sha224(binascii.a2b_hex(vector["auth_key"])).hexdigest()
elif auth_algo == "SHA256":
- hash_str = hashlib.sha256(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ hash_str = hashlib.sha256(binascii.a2b_hex(vector["auth_key"])).hexdigest()
elif auth_algo == "SHA384":
- hash_str = hashlib.sha384(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ hash_str = hashlib.sha384(binascii.a2b_hex(vector["auth_key"])).hexdigest()
elif auth_algo == "SHA512":
- hash_str = hashlib.sha512(binascii.a2b_hex(vector["auth_key"])).hexdigest()
+ hash_str = hashlib.sha512(binascii.a2b_hex(vector["auth_key"])).hexdigest()
else:
pass
- vector["output_hash"] = hash_str.upper()
+ vector["output_hash"] = hash_str.upper()
self.__actually_aesni_mb_digest(vector)
def __gen_output(self, vector, cmds, core_mask="", port_mask=""):
@@ -945,15 +914,6 @@ class TestL2fwdCrypto(TestCase):
def __is_valid_size(self, key_type, algo, size):
algo_size_map = {
- "AES_CBC": {
- "cipher_key": [16, 24, 32],
- "iv": [16],
- },
- "SHA1_HMAC": {
- "auth_key": [64],
- "aad": [0]
- },
-
"aes-cbc": {
"cipher_key": [16, 24, 32],
"iv": [16],
@@ -973,14 +933,14 @@ class TestL2fwdCrypto(TestCase):
"aes-gcm": {
"cipher_key": [16, 24, 32],
"auth_key": [16, 24, 32],
- "aad": [0,1,2,3,4,5,6,8,9,12,16,24,32,64,128,155,256,1024,65535],
- "iv": [12,16]
+ "aad": [0, 1, 2, 3, 4, 5, 6, 8, 9, 12, 16, 24, 32, 64, 128, 155, 256, 1024, 65535],
+ "iv": [12, 16]
},
- "aes-docsisbpi":{
+ "aes-docsisbpi": {
"cipher_key": [16],
"iv": [16],
},
- "des-docsisbpi":{
+ "des-docsisbpi": {
"cipher_key": [8],
"iv": [8],
},
@@ -1001,7 +961,7 @@ class TestL2fwdCrypto(TestCase):
"auth_key": [0],
"aad": [0],
"iv": [0]
- },
+ },
"md-hmac": {
"auth_key": [64],
"aad": [0],
@@ -1077,12 +1037,11 @@ class TestL2fwdCrypto(TestCase):
if size in algo_size_map[algo][key_type]:
result = True
return result
-
- def __actually_aesni_mb_digest(self,vector):
+ def __actually_aesni_mb_digest(self, vector):
if ((vector["vdev"]).find("crypto_aesni_mb") == -1):
return
-
+
auth_algo_dgst_map = {
"md4-hmac": 12,
"sha1-hmac": 12,
@@ -1096,8 +1055,7 @@ class TestL2fwdCrypto(TestCase):
digest = auth_algo_dgst_map[vector["auth_algo"]]
vector["output_hash"] = vector["output_hash"] if digest >= (len(vector["output_hash"]) / 2) \
else (vector["output_hash"])[0:2*digest]
-
-
+
def __iter_cipher_algo(self, vector, vector_list, core_mask="", port_mask=""):
test_vector = vector.copy()
if test_vector["chain"] == "HASH_ONLY":
@@ -1121,7 +1079,7 @@ class TestL2fwdCrypto(TestCase):
if self.__is_valid_op(test_vector["chain"], cipher_op):
test_vector = vector.copy()
test_vector["cipher_op"] = cipher_op
- self.__iter_cipher_key(test_vector, vector_list, \
+ self.__iter_cipher_key(test_vector, vector_list,
core_mask, port_mask)
def __iter_cipher_key(self, vector, vector_list, core_mask="", port_mask=""):
@@ -1134,8 +1092,8 @@ class TestL2fwdCrypto(TestCase):
for cipher_key in cipher_key_list:
test_vector = vector.copy()
if isinstance(cipher_key, int):
- if self.__is_valid_size("cipher_key", \
- test_vector["cipher_algo"], \
+ if self.__is_valid_size("cipher_key",
+ test_vector["cipher_algo"],
cipher_key):
test_vector["cipher_key"] = self.__gen_key(cipher_key)
self.__iter_iv(test_vector, vector_list, core_mask, port_mask)
@@ -1155,17 +1113,17 @@ class TestL2fwdCrypto(TestCase):
for iv in iv_list:
test_vector = vector.copy()
if isinstance(iv, int):
- if self.__is_valid_size("iv", \
- test_vector["cipher_algo"], \
+ if self.__is_valid_size("iv",
+ test_vector["cipher_algo"],
iv):
test_vector["iv"] = self.__gen_key(iv)
- self.__iter_auth_algo(test_vector, vector_list, \
+ self.__iter_auth_algo(test_vector, vector_list,
core_mask, port_mask)
else:
continue
else:
test_vector["iv"] = iv
- self.__iter_auth_algo(test_vector, vector_list, \
+ self.__iter_auth_algo(test_vector, vector_list,
core_mask, port_mask)
def __iter_auth_algo(self, vector, vector_list, core_mask="", port_mask=""):
@@ -1190,8 +1148,8 @@ class TestL2fwdCrypto(TestCase):
for auth_op in auth_op_list:
if self.__is_valid_op(test_vector["chain"], auth_op):
test_vector = vector.copy()
- test_vector["auth_op"] = auth_op
- self.__iter_auth_key(test_vector, vector_list, \
+ test_vector["auth_op"] = auth_op
+ self.__iter_auth_key(test_vector, vector_list,
core_mask, port_mask)
def __iter_auth_key(self, vector, vector_list, core_mask="", port_mask=""):
@@ -1204,15 +1162,15 @@ class TestL2fwdCrypto(TestCase):
for auth_key in auth_key_list:
test_vector = vector.copy()
if isinstance(auth_key, int):
- if self.__is_valid_size("auth_key", \
- test_vector["auth_algo"], \
+ if self.__is_valid_size("auth_key",
+ test_vector["auth_algo"],
auth_key):
test_vector["auth_key"] = self.__gen_key(auth_key)
self.__iter_aad(test_vector, vector_list, core_mask, port_mask)
else:
continue
else:
- test_vector["auth_key"] = auth_key
+ test_vector["auth_key"] = auth_key
self.__iter_aad(test_vector, vector_list, core_mask, port_mask)
def __iter_aad(self, vector, vector_list, core_mask="", port_mask=""):
@@ -1225,17 +1183,17 @@ class TestL2fwdCrypto(TestCase):
for aad in aad_list:
test_vector = vector.copy()
if isinstance(aad, int):
- if self.__is_valid_size("aad", \
- test_vector["auth_algo"], \
+ if self.__is_valid_size("aad",
+ test_vector["auth_algo"],
aad):
test_vector["aad"] = self.__gen_key(aad)
- self.__iter_input(test_vector, vector_list, \
+ self.__iter_input(test_vector, vector_list,
core_mask, port_mask)
else:
continue
else:
test_vector["aad"] = aad
- self.__iter_input(test_vector, vector_list, \
+ self.__iter_input(test_vector, vector_list,
core_mask, port_mask)
def __iter_input(self, vector, vector_list, core_mask="", port_mask=""):
@@ -1244,14 +1202,14 @@ class TestL2fwdCrypto(TestCase):
test_vector = vector.copy()
test_vector["input"] = self.__gen_input(input_data) \
if isinstance(input_data, int) else input_data
-
+
self.__gen_output(test_vector, vector_list, core_mask, port_mask)
- def __test_vector_to_vector_list(self, test_vector,core_mask="", port_mask=""):
+ def __test_vector_to_vector_list(self, test_vector, core_mask="", port_mask=""):
vector_list = []
-
+
chain_list = self.__var2list(test_vector["chain"])
-
+
for chain in chain_list:
test_vector["chain"] = chain
self.__iter_cipher_algo(test_vector, vector_list, core_mask, port_mask)
@@ -1259,7 +1217,6 @@ class TestL2fwdCrypto(TestCase):
test_vectors = {
-
"qat_c_AES_CBC_00": {
"vdev": "",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1268,7 +1225,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24, 32],
"iv": [16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1276,12 +1233,12 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128, 129,256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
- "qat_c_AES_CTR_00": {
+
+ "qat_c_AES_CTR_00": {
"vdev": "",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
@@ -1289,7 +1246,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24, 32],
"iv": [16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1297,11 +1254,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_c_AES_GCM_00": {
"vdev": "",
"chain": ["CIPHER_HASH"],
@@ -1309,18 +1266,18 @@ test_vectors = {
"cipher_algo": ["aes-gcm"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16],
- "iv": [12,16],
- "auth_algo": ["aes-gcm","aes-gmac"],
+ "iv": [12, 16],
+ "auth_algo": ["aes-gcm", "aes-gmac"],
"auth_op": ["GENERATE"],
"auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128, 129,256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_h_MD_SHA_00": {
"vdev": "",
"chain": ["HASH_ONLY"],
@@ -1329,7 +1286,7 @@ test_vectors = {
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1337,12 +1294,12 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
- "qat_h_AES_XCBC_MAC_01": {
+
+ "qat_h_AES_XCBC_MAC_01": {
"vdev": "",
"chain": "HASH_ONLY",
"cdev_type": "ANY",
@@ -1356,11 +1313,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_c_3DES_CBC_00": {
"vdev": "",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1369,7 +1326,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24],
"iv": [8],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1377,11 +1334,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_c_3DES_CTR_00": {
"vdev": "",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1390,7 +1347,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24],
"iv": [8],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1398,30 +1355,30 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
- "qat_c_AES_GCM_01": {
+
+ "qat_c_AES_GCM_01": {
"vdev": "",
"chain": ["CIPHER_HASH"],
"cdev_type": "ANY",
"cipher_algo": ["aes-gcm"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16],
- "iv": [12,16],
+ "iv": [12, 16],
"auth_algo": ["aes-gcm"],
"auth_op": ["GENERATE"],
"auth_key": [16, 24, 32],
"auth_key_random_size": "",
- "aad": [8,12],
+ "aad": [8, 12],
"aad_random_size": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_ch_AES_GCM_AES_GCM_01": {
"vdev": "",
"chain": ["CIPHER_HASH"],
@@ -1429,27 +1386,27 @@ test_vectors = {
"cipher_algo": ["aes-gcm"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16],
- "iv": [12,16],
+ "iv": [12, 16],
"auth_algo": ["aes-gcm"],
"auth_op": ["GENERATE"],
"auth_key": [16, 24, 32],
"auth_key_random_size": "",
- "aad": [8,12],
+ "aad": [8, 12],
"aad_random_size": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_ch_AES_DOCSISBPI": {
"vdev": "",
"chain": ["CIPHER_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "aes-docsisbpi",
- "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16],
"iv": [16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1457,20 +1414,20 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[15,16,17,129,256,258,515,772,1019,1547,2011,2048],
- "output_cipher":"*",
+ "input": [129, 256, 258, 515, 772, 1019, 1547, 2011, 2048],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_c_DES_DOCSISBPI": {
"vdev": "",
"chain": ["CIPHER_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "des-docsisbpi",
- "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [8],
"iv": [8],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1478,10 +1435,10 @@ test_vectors = {
"auth_key_random_size": "",
"aad": "",
"aad_random_size": "",
- "input":[5,8,11,16,64,127,258,506,512,521,1020,1022,1024],
- "output_cipher":"*",
+ "input": [64, 127, 258, 506, 512, 521, 1020, 1022, 1024],
+ "output_cipher": "*",
"output_hash": "*"
- },
+ },
"qat_c_UEA2_01": {
"vdev": "",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1496,7 +1453,7 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
@@ -1515,11 +1472,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_kasumi_c_F8_01": {
"vdev": "",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1534,7 +1491,7 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [8],
"aad_random_size": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
@@ -1553,11 +1510,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [8],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
- },
-
+ },
+
"qat_c_EEA3_01": {
"vdev": "",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1572,7 +1529,7 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
@@ -1591,20 +1548,20 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_c_NULL_auto": {
"vdev": "",
- "chain": ["CIPHER_ONLY","CIPHER_HASH"],
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
"cipher_algo": ["null"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [0],
"iv": "",
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1613,16 +1570,16 @@ test_vectors = {
"aad": [0],
"aad_random_size": "",
"digest": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"qat_h_NULL_auto": {
"vdev": "",
- "chain": ["CIPHER_ONLY","CIPHER_HASH"],
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
- "cipher_algo": ["null","aes-cbc","aes-ctr","3des-ctr","snow3g-uea2","kasumi-f8"],
+ "cipher_algo": ["null", "aes-cbc", "aes-ctr", "3des-ctr", "snow3g-uea2", "kasumi-f8"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [8, 16, 24, 32, 40, 48, 56, 64],
"iv": "",
@@ -1633,11 +1590,11 @@ test_vectors = {
"aad": [0],
"aad_random_size": "",
"digest": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [16, 48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
- },
-
+ },
+
"aesni_mb_c_AES_CBC_00": {
"vdev": "crypto_aesni_mb,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_HASH"],
@@ -1646,20 +1603,20 @@ test_vectors = {
"cipher_op": ["ENCRYPT"],
"cipher_key": [16, 24, 32],
"iv": [16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
- "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key": [8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
- "aesni_mb_c_AES_CTR_00": {
+
+ "aesni_mb_c_AES_CTR_00": {
"vdev": "crypto_aesni_mb,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_HASH"],
"cdev_type": "ANY",
@@ -1667,7 +1624,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24, 32],
"iv": [16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1675,17 +1632,17 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128, 129,256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"aesni_mb_c_AES_DOCSISBPI": {
"vdev": "crypto_aesni_mb,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "aes-docsisbpi",
- "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16],
"iv": [16],
"auth_algo": "",
@@ -1694,20 +1651,20 @@ test_vectors = {
"auth_key_random_size": "",
"aad": "",
"aad_random_size": "",
- "input":[15,16,17,129,256,258,515,772,1019,1547,2011,2048],
- "output_cipher":"*",
+ "input": [129, 256, 258, 515, 772, 1019, 1547, 2011, 2048],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"null_c_NULL_01": {
"vdev": "crypto_null_pmd,socket_id=1,max_nb_sessions=128",
- "chain": ["CIPHER_ONLY","CIPHER_HASH"],
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
"cipher_algo": ["null"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": ["0"],
"iv": "",
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1716,7 +1673,7 @@ test_vectors = {
"aad": [0],
"aad_random_size": "",
"digest": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
@@ -1736,40 +1693,40 @@ test_vectors = {
"aad": [0],
"aad_random_size": "",
"digest": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"null_c_NULL_auto": {
"vdev": "crypto_null_pmd,socket_id=1,max_nb_sessions=128",
- "chain": ["CIPHER_ONLY","CIPHER_HASH"],
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
"cipher_algo": ["null"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [0],
"iv": [0],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
- "auth_key": [0,8, 16, 24, 32, 40, 48, 56, 64, 128],
+ "auth_key": [0, 8, 16, 24, 32, 40, 48, 56, 64, 128],
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
"digest": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
- },
-
+ },
+
"null_h_NULL_auto": {
"vdev": "crypto_null_pmd,socket_id=1,max_nb_sessions=128",
- "chain": ["CIPHER_ONLY","CIPHER_HASH"],
+ "chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
"cipher_algo": ["null"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
- "cipher_key": [0,8, 16, 24, 32, 40, 48, 56, 64],
+ "cipher_key": [0, 8, 16, 24, 32, 40, 48, 56, 64],
"iv": [0],
"auth_algo": ["null"],
"auth_op": ["GENERATE"],
@@ -1778,12 +1735,11 @@ test_vectors = {
"aad": [0],
"aad_random_size": "",
"digest": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
- },
-
-
+ },
+
"aesni_gcm_ch_AES_GCM_AES_GCM_01": {
"vdev": "crypto_aesni_gcm_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_HASH"],
@@ -1791,20 +1747,18 @@ test_vectors = {
"cipher_algo": ["aes-gcm"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16],
- "iv": [12,16],
+ "iv": [12, 16],
"auth_algo": ["aes-gcm"],
"auth_op": ["GENERATE"],
"auth_key": [16, 24, 32],
"auth_key_random_size": "",
- "aad": [8,12],
+ "aad": [8, 12],
"aad_random_size": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
-
-
+
"kasumi_c_F8_01": {
"vdev": "crypto_kasumi_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1819,7 +1773,7 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [8],
"aad_random_size": "",
- "input": [16,48,64, 128, 129,256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
@@ -1838,11 +1792,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [8],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"snow3g_c_UEA2_01": {
"vdev": "crypto_snow3g_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1857,7 +1811,7 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
@@ -1876,11 +1830,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
- },
-
+ },
+
"zuc_c_EEA3_01": {
"vdev": "crypto_zuc_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1895,7 +1849,7 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
@@ -1914,11 +1868,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [16],
"aad_random_size": "",
- "input": [16,48,64, 128,129, 256, 512, 1024],
+ "input": [48, 64, 128, 129, 256, 512, 1024],
"output_cipher": "*",
"output_hash": "*"
},
-
+
"openssl_c_3DES_CBC_00": {
"vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1927,7 +1881,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24],
"iv": [8],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1935,11 +1889,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"openssl_c_3DES_CTR_00": {
"vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1948,7 +1902,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24],
"iv": [8],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1956,11 +1910,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128, 129,256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"openssl_c_AES_CBC_00": {
"vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
@@ -1969,7 +1923,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24, 32],
"iv": [16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1977,12 +1931,12 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
- "openssl_c_AES_CTR_00": {
+
+ "openssl_c_AES_CTR_00": {
"vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY", "CIPHER_HASH"],
"cdev_type": "ANY",
@@ -1990,7 +1944,7 @@ test_vectors = {
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16, 24, 32],
"iv": [16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -1998,11 +1952,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"openssl_c_AES_GCM_00": {
"vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_HASH"],
@@ -2010,8 +1964,8 @@ test_vectors = {
"cipher_algo": ["aes-gcm"],
"cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [16],
- "iv": [12,16],
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "iv": [12, 16],
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -2019,11 +1973,11 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128, 129,256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"openssl_h_MD_SHA_00": {
"vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["HASH_ONLY"],
@@ -2032,7 +1986,7 @@ test_vectors = {
"cipher_op": "",
"cipher_key": "",
"iv": "",
- "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256","sha2-384", "sha2-512",
+ "auth_algo": ["md5", "sha1", "sha2-224", "sha2-256", "sha2-384", "sha2-512",
"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-256-hmac",
"sha2-384-hmac", "sha2-512-hmac"],
"auth_op": ["GENERATE"],
@@ -2040,17 +1994,17 @@ test_vectors = {
"auth_key_random_size": "",
"aad": [0],
"aad_random_size": "",
- "input":[16,48,64, 128,129, 256, 512, 1024],
- "output_cipher":"*",
+ "input": [48, 64, 128, 129, 256, 512, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
+
"openssl_c_DES_DOCSISBPI": {
"vdev": "crypto_openssl_pmd,socket_id=1,max_nb_sessions=128",
"chain": ["CIPHER_ONLY"],
"cdev_type": "ANY",
"cipher_algo": "des-docsisbpi",
- "cipher_op": ["ENCRYPT","DECRYPT"],
+ "cipher_op": ["ENCRYPT", "DECRYPT"],
"cipher_key": [8],
"iv": [8],
"auth_algo": "",
@@ -2059,9 +2013,8 @@ test_vectors = {
"auth_key_random_size": "",
"aad": "",
"aad_random_size": "",
- "input":[5,8,11,16,64,127,258,506,512,521,1020,1022,1024],
- "output_cipher":"*",
+ "input": [64, 127, 258, 506, 512, 521, 1020, 1022, 1024],
+ "output_cipher": "*",
"output_hash": "*"
},
-
}
--
2.5.5
^ permalink raw reply [flat|nested] 4+ messages in thread
* Re: [dts] [PATCH 0/2] Enhance l2fwd crypto Test Suite
2017-03-16 1:44 [dts] [PATCH 0/2] Enhance l2fwd crypto Test Suite Chen, Zhaoyan
2017-03-16 1:44 ` [dts] [PATCH 1/2] " Chen, Zhaoyan
2017-03-16 1:44 ` [dts] [PATCH 2/2] Enhance l2fwd-crypto " Chen, Zhaoyan
@ 2017-03-23 5:45 ` Liu, Yong
2 siblings, 0 replies; 4+ messages in thread
From: Liu, Yong @ 2017-03-23 5:45 UTC (permalink / raw)
To: Chen, Zhaoyan, dts; +Cc: Chen
Thanks, applied with different subject.
On 03/16/2017 09:44 AM, Chen, Zhaoyan wrote:
> Packaged the updates for l2fwd crypto Test Suite
> Main features are
> - Fully automated generated reference cipher data via 3rd-party crypto lib
> - Enhance the test coverage by key size/iv/add/input/crytpo suite combination
> - Code clean up for DTS update
>
>
> root (2):
> Enhance l2fwd crypto Test Suite
> Enhance l2fwd-crypto Test Suite
>
> tests/TestSuite_l2fwd_crypto.py | 1908 +++++++++++++++++++++++++++++++--------
> 1 file changed, 1530 insertions(+), 378 deletions(-)
>
^ permalink raw reply [flat|nested] 4+ messages in thread
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2017-03-16 1:44 [dts] [PATCH 0/2] Enhance l2fwd crypto Test Suite Chen, Zhaoyan
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2017-03-16 1:44 ` [dts] [PATCH 2/2] Enhance l2fwd-crypto " Chen, Zhaoyan
2017-03-23 5:45 ` [dts] [PATCH 0/2] Enhance l2fwd crypto " Liu, Yong
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