From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from mga06.intel.com (mga06.intel.com [134.134.136.31]) by dpdk.org (Postfix) with ESMTP id 6221E1B480 for ; Fri, 15 Feb 2019 07:18:54 +0100 (CET) X-Amp-Result: SKIPPED(no attachment in message) X-Amp-File-Uploaded: False Received: from fmsmga005.fm.intel.com ([10.253.24.32]) by orsmga104.jf.intel.com with ESMTP/TLS/DHE-RSA-AES256-GCM-SHA384; 14 Feb 2019 22:18:53 -0800 X-ExtLoop1: 1 X-IronPort-AV: E=Sophos;i="5.58,371,1544515200"; d="scan'208";a="320601404" Received: from fmsmsx108.amr.corp.intel.com ([10.18.124.206]) by fmsmga005.fm.intel.com with ESMTP; 14 Feb 2019 22:18:53 -0800 Received: from shsmsx108.ccr.corp.intel.com (10.239.4.97) by FMSMSX108.amr.corp.intel.com (10.18.124.206) with Microsoft SMTP Server (TLS) id 14.3.408.0; Thu, 14 Feb 2019 22:18:51 -0800 Received: from shsmsx104.ccr.corp.intel.com ([169.254.5.102]) by SHSMSX108.ccr.corp.intel.com ([169.254.8.36]) with mapi id 14.03.0415.000; Fri, 15 Feb 2019 14:18:49 +0800 From: "Chen, Zhaoyan" To: "Zhao, XinfengX" , "dts@dpdk.org" CC: "Tu, Lijuan" , "Chen, Zhaoyan" Thread-Topic: [dts] [PATCH V1] tests: add the cryptodev l2fwd test Thread-Index: AQHUwzLgfK47doZ7u0KfA573j9qNGKXctt2AgAOvPDA= Date: Fri, 15 Feb 2019 06:18:48 +0000 Message-ID: <9DEEADBC57E43F4DA73B571777FECECA41C38B87@SHSMSX104.ccr.corp.intel.com> References: <1550017844-2904-1-git-send-email-xinfengx.zhao@intel.com> <44051B25D8C8784BB77FFB604D6A70CA12027B83@shsmsx102.ccr.corp.intel.com> In-Reply-To: <44051B25D8C8784BB77FFB604D6A70CA12027B83@shsmsx102.ccr.corp.intel.com> Accept-Language: zh-CN, en-US Content-Language: en-US X-MS-Has-Attach: X-MS-TNEF-Correlator: dlp-product: dlpe-windows dlp-version: 11.0.400.15 dlp-reaction: no-action x-originating-ip: [10.239.127.40] Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: quoted-printable MIME-Version: 1.0 Subject: Re: [dts] [PATCH V1] tests: add the cryptodev l2fwd test X-BeenThere: dts@dpdk.org X-Mailman-Version: 2.1.15 Precedence: list List-Id: test suite reviews and discussions List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 15 Feb 2019 06:18:56 -0000 Acked-by: Zhaoyan Chen Regards, Zhaoyan Chen > -----Original Message----- > From: dts [mailto:dts-bounces@dpdk.org] On Behalf Of Zhao, XinfengX > Sent: Wednesday, February 13, 2019 2:02 PM > To: dts@dpdk.org > Subject: Re: [dts] [PATCH V1] tests: add the cryptodev l2fwd test >=20 > Tested-by : Xinfeng Zhao >=20 > -----Original Message----- > From: Zhao, XinfengX > Sent: Wednesday, February 13, 2019 8:31 AM > To: dts@dpdk.org > Cc: Zhao, XinfengX > Subject: [dts][PATCH V1] tests: add the cryptodev l2fwd test >=20 > add tests/TestSuite_l2fwd_cryptodev_func.py >=20 > Signed-off-by: Xinfeng Zhao > --- > tests/TestSuite_l2fwd_crypto.py | 2020 ----------------------- > tests/TestSuite_l2fwd_cryptodev_func.py | 2682 > +++++++++++++++++++++++++++++++ > 2 files changed, 2682 insertions(+), 2020 deletions(-) > delete mode 100644 tests/TestSuite_l2fwd_crypto.py > create mode 100644 tests/TestSuite_l2fwd_cryptodev_func.py >=20 > diff --git a/tests/TestSuite_l2fwd_crypto.py b/tests/TestSuite_l2fwd_cryp= to.py > deleted file mode 100644 > index ea35a29..0000000 > --- a/tests/TestSuite_l2fwd_crypto.py > +++ /dev/null > @@ -1,2020 +0,0 @@ > -# BSD LICENSE > -# > -# Copyright(c) 2016-2017 Intel Corporation. All rights reserved. > -# All rights reserved. > -# > -# Redistribution and use in source and binary forms, with or without > -# modification, are permitted provided that the following conditions > -# are met: > -# > -# * Redistributions of source code must retain the above copyright > -# notice, this list of conditions and the following disclaimer. > -# * Redistributions in binary form must reproduce the above copyright > -# notice, this list of conditions and the following disclaimer in > -# the documentation and/or other materials provided with the > -# distribution. > -# * Neither the name of Intel Corporation nor the names of its > -# contributors may be used to endorse or promote products derived > -# from this software without specific prior written permission. > -# > -# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND > CONTRIBUTORS > -# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT > -# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS > FOR > -# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE > COPYRIGHT > -# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, > INCIDENTAL, > -# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT > -# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, > -# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON > ANY > -# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT > -# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE > USE > -# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. > - > -import hmac > -import hashlib > -import binascii > -import time > -import os > -import sys > -import utils > -import commands > -from test_case import TestCase > -from packet import Packet, save_packets > - > -from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, m= odes > -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): > - > - def set_up_all(self): > - > - self.core_config =3D "1S/2C/1T" > - self.number_of_ports =3D 1 > - self.dut_ports =3D self.dut.get_ports(self.nic) > - self.verify(len(self.dut_ports) >=3D self.number_of_ports, > - "Not enough ports for " + self.nic) > - self.ports_socket =3D self.dut.get_numa_id(self.dut_ports[0]) > - > - self.logger.info("core config =3D " + self.core_config) > - self.logger.info("number of ports =3D " + str(self.number_of_por= ts)) > - self.logger.info("dut ports =3D " + str(self.dut_ports)) > - self.logger.info("ports_socket =3D " + str(self.ports_socket)) > - > - self.core_mask =3D utils.create_mask(self.dut.get_core_list( > - self.core_config, > - socket=3Dself.ports_socket)) > - self.port_mask =3D utils.create_mask([self.dut_ports[0]]) > - > - self.tx_port =3D self.tester.get_local_port(self.dut_ports[0]) > - self.rx_port =3D self.tester.get_local_port(self.dut_ports[0]) > - > - self.tx_interface =3D self.tester.get_interface(self.tx_port) > - self.rx_interface =3D self.tester.get_interface(self.rx_port) > - > - self.logger.info("core mask =3D " + self.core_mask) > - self.logger.info("port mask =3D " + self.port_mask) > - self.logger.info("tx interface =3D " + self.tx_interface) > - self.logger.info("rx interface =3D " + self.rx_interface) > - > - # Rebuild the dpdk with cryptodev pmds > - self.dut.send_expect("export > AESNI_MULTI_BUFFER_LIB_PATH=3D/root/ipsec_043/code/", "#") > - self.dut.send_expect("export > LIBSSO_SNOW3G_PATH=3D/root/libsso_snow3g/snow3g/", "#") > - self.dut.send_expect("export LIBSSO_ZUC_PATH=3D/root/libsso_zuc.= 1.0.1.1- > 8/zuc", "#") > - self.dut.send_expect("export > LIBSSO_KASUMI_PATH=3D/root/LibSSO_0_3_1/isg_cid-wireless_libs/ciphers/kas= umi/", > "#") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_QAT=3Dn$/CONFIG_RTE_LIBRTE_PMD_QAT=3Dy/' > config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_AESNI_GCM=3Dn$/CONFIG_RTE_LIBRTE_PMD_AESNI_G > CM=3Dy/' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_NULL_CRYPTO=3Dn$/CONFIG_RTE_LIBRTE_PMD_NULL_ > CRYPTO=3Dy/' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_SNOW3G=3Dn$/CONFIG_RTE_LIBRTE_PMD_SNOW3G=3Dy > /' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_KASUMI=3Dn$/CONFIG_RTE_LIBRTE_PMD_KASUMI=3Dy/' > config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_OPENSSL=3Dn$/CONFIG_RTE_LIBRTE_PMD_OPENSSL=3Dy > /' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=3Dn$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB > =3Dy/' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_ZUC=3Dn$/CONFIG_RTE_LIBRTE_PMD_ZUC=3Dy/' > config/common_base", "# ") > - self.dut.skip_setup =3D False > - self.dut.build_install_dpdk(self.dut.target) > - > - # l2fwd-crypto compile > - out =3D 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 =3D 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) > - for line in out.replace("\r", "\n").replace("\n\n", "\n").split(= "\n"): > - cmd =3D "echo 0000:{} > > /sys/bus/pci/devices/0000\:{}/driver/unbind".format(line, line.replace(":= ", "\:")) > - self.dut.send_expect(cmd, "# ", 10) > - cmd =3D "echo 0000:{} > /sys/bus/pci/drivers/igb_uio/bind".f= ormat(line) > - self.dut.send_expect(cmd, "# ", 10) > - > - def set_up(self): > - pass > - > - def test_qat_AES_CBC_auto(self): > - result =3D True > - self.logger.info("Test qat_c_AES_CBC_00") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_c_AES_CBC_00"): > - result =3D False > - > - def test_qat_AES_CTR_auto(self): > - result =3D 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 =3D False > - > - def test_qat_AES_GCM_auto(self): > - result =3D 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 =3D False > - > - def test_qat_h_MD_SHA_auto(self): > - result =3D 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 =3D False > - > - def test_qat_h_AES_XCBC_MAC_auto(self): > - result =3D 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 =3D False > - > - def test_qat_3DES_CBC_auto(self): > - result =3D 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 =3D False > - > - def test_qat_3DES_CTR_auto(self): > - result =3D 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 =3D False > - > - def test_qat_AES_GCM_AES_GCM(self): > - > - result =3D True > - > - self.logger.info("Test qat_ch_AES_GCM_AES_GCM_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_ch_AES_GCM_AES_GCM_01"): > - result =3D False > - > - def test_qat_AES_DOCSISBPI_auto(self): > - result =3D True > - self.logger.info("Test qat_ch_AES_DOCSISBPI") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_ch_AES_DOCSISBPI"): > - result =3D False > - > - def test_qat_c_DES_DOCSISBPI_auto(self): > - result =3D True > - self.logger.info("Test qat_c_DES_DOCSISBPI") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_c_DES_DOCSISBPI"): > - result =3D False > - > - def test_qat_SNOW3G_auto(self): > - > - result =3D True > - > - self.logger.info("Test qat_c_UEA2_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_c_UEA2_01"): > - result =3D False > - > - self.logger.info("Test qat_h_UIA2_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_h_UIA2_01"): > - result =3D False > - > - self.verify(result, True) > - > - def test_qat_KASUMI_auto(self): > - > - result =3D 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 =3D False > - > - self.logger.info("Test qat_kasumi_h_F9_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_kasumi_h_F9_01"): > - result =3D False > - > - self.verify(result, True) > - > - def test_qat_ZUC_auto(self): > - > - result =3D True > - self.logger.info("Test qat_c_EEA3_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_c_EEA3_01"): > - result =3D False > - > - self.logger.info("Test qat_h_EIA3_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_h_EIA3_01"): > - result =3D False > - > - def test_qat_c_NULL_auto(self): > - > - result =3D True > - > - self.logger.info("Test qat_c_NULL_auto") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "null_c_NULL_auto"): > - result =3D False > - > - self.verify(result, True) > - > - def test_qat_h_NULL_auto(self): > - > - result =3D True > - > - self.logger.info("Test qat_h_NULL_auto") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "qat_h_NULL_auto"): > - result =3D False > - > - self.verify(result, True) > - > - def test_aesni_mb_AES_CBC_auto(self): > - result =3D 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 =3D False > - > - def test_aesni_mb_AES_CTR_auto(self): > - result =3D 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 =3D False > - > - def test_aesni_mb_AES_DOCSISBPI_auto(self): > - result =3D 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 =3D False > - > - def test_aesni_AES_GCM_AES_GCM(self): > - > - result =3D True > - > - self.logger.info("Test aesni_gcm_ch_AES_GCM_AES_GCM_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "aesni_gcm_ch_AES_GCM_AES_GCM_01"): > - result =3D False > - > - self.verify(result, True) > - > - def test_kasumi_KASUMI_auto(self): > - > - result =3D True > - self.logger.info("Test kasumi_c_F8_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "kasumi_c_F8_01"): > - result =3D False > - > - self.logger.info("Test kasumi_h_F9_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "kasumi_h_F9_01"): > - result =3D False > - > - self.verify(result, True) > - > - def test_null_NULL_CIPHER(self): > - > - result =3D True > - self.logger.info("Test null_c_NULL_auto") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "null_c_NULL_auto"): > - result =3D False > - > - self.verify(result, True) > - > - def test_null_NULL_HASH(self): > - > - result =3D True > - > - self.logger.info("Test null_h_NULL_auto") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "null_h_NULL_auto"): > - result =3D False > - > - self.verify(result, True) > - > - def test_null_c_NULL_auto(self): > - > - result =3D True > - > - self.logger.info("Test null_c_NULL_auto") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "null_c_NULL_auto"): > - result =3D False > - > - self.verify(result, True) > - > - def test_null_h_NULL_auto(self): > - > - result =3D True > - > - self.logger.info("Test null_h_NULL_auto") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "null_h_NULL_auto"): > - result =3D False > - > - self.verify(result, True) > - > - def test_snow3g_SNOW3G(self): > - > - result =3D True > - > - self.logger.info("Test snow3g_c_UEA2_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "snow3g_c_UEA2_01"): > - result =3D False > - > - self.logger.info("Test snow3g_h_UIA2_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "snow3g_h_UIA2_01"): > - result =3D False > - > - self.verify(result, True) > - > - def test_zun_ZUC_auto(self): > - > - result =3D True > - self.logger.info("Test zuc_c_EEA3_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "zuc_c_EEA3_01"): > - result =3D False > - > - self.logger.info("Test zuc_h_EIA3_01") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "zuc_h_EIA3_01"): > - result =3D False > - > - # openssl pmd cases > - def test_openssl_3DES_CBC_auto(self): > - result =3D 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 =3D False > - > - def test_openssl_3DES_CTR_auto(self): > - result =3D 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 =3D False > - > - def test_openssl_AES_CBC_auto(self): > - result =3D 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 =3D False > - > - def test_openssl_AES_CTR_auto(self): > - result =3D 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 =3D False > - > - def test_openssl_AES_GCM_auto(self): > - result =3D 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 =3D False > - > - def test_openssl_h_MD_SHA_auto(self): > - result =3D 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 =3D False > - > - def test_openssl_c_DES_DOCSISBPI_auto(self): > - result =3D True > - self.logger.info("Test openssl_c_DES_DOCSISBPI") > - if not self.__execute_l2fwd_crypto_test( > - test_vectors, "openssl_c_DES_DOCSISBPI"): > - result =3D False > - > - def __calculate_totall_cases_numb(self): > - alg_map =3D {} > - pmd_map =3D {} > - map_combine =3D {} > - count =3D 0 > - alg =3D "" > - pmd =3D "" > - alg_list =3D ["AES_CBC", "AES_CTR", "AES_GCM", "3DES_CBC", > - "3DES_CTR", "SNOW3G", "KASUMI", "ZUC", "NULL", "MD_S= HA"] > - pmd_list =3D ["qat", "aesni_mb", "aesni_gcm", "snow3g", > - "kasumi", "zuc", "openssl", "null"] > - valid_map =3D { > - "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_C= BC", > - "3DES_CTR", "MD_SHA"], > - "null": ["NULL"] > - } > - > - for index, value in test_vectors.iteritems(): > - test_vector_list =3D self.__test_vector_to_vector_list(value= , > - core_mask=3D"-1", port_mask=3Dself.port_mask) > - count =3D count + len(test_vector_list) > - for i in alg_list: > - if (index.upper()).find(i) !=3D -1: > - alg =3D i > - if i in alg_map: > - alg_map[i] +=3D len(test_vector_list) > - else: > - alg_map[i] =3D len(test_vector_list) > - for j in pmd_list: > - if (index).find(j) !=3D -1: > - pmd =3D j if j !=3D "" else "qat" > - if i in pmd_map: > - pmd_map[j] +=3D len(test_vector_list) > - else: > - pmd_map[j] =3D len(test_vector_list) > - if alg in valid_map[pmd]: > - temp_str =3D pmd + "_" + alg > - if temp_str in map_combine: > - map_combine[temp_str] +=3D len(test_vector_list) > - else: > - map_combine[temp_str] =3D len(test_vector_list) > - for k, v in alg_map.iteritems(): > - self.logger.info("Total {name} cases:\t\t\t{number}".format(= name=3Dk, > number=3Dv)) > - for k, v in pmd_map.iteritems(): > - self.logger.info("Total {name} cases:\t\t\t{number}".format(= name=3Dk, > number=3Dv)) > - for k, v in map_combine.iteritems(): > - self.logger.info("Total {name} cases:\t\t\t{number}".format(= name=3Dk, > number=3Dv)) > - 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: > - self.logger.warn("SKIP : " + test_vector_name) > - return True > - > - test_vector =3D test_vectors[test_vector_name] > - > - test_vector_list =3D self.__test_vector_to_vector_list(test_vect= or, > - core_mask=3Dself.core_mask, > - port_mask=3Dself.port_mask) > - > - result =3D True > - self.logger.info("Total Generated {0} Tests".format(len(test_vec= tor_list))) > - for test_vector in test_vector_list: > - self.logger.debug(test_vector) > - cmd_str =3D self.__test_vector_to_cmd(test_vector, > - core_mask=3Dself.core_ma= sk, > - port_mask=3Dself.port_ma= sk) > - self.dut.send_expect(cmd_str, "=3D=3D", 30) > - time.sleep(5) > - > - payload =3D self.__format_hex_to_list(test_vector["input"]) > - > - inst =3D self.tester.tcpdump_sniff_packets(self.rx_interface= , timeout=3D5) > - > - PACKET_COUNT =3D 65 > - pkt =3D 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=3Dself.tx_interface, count=3DPACKET_COU= NT) > - pkt.pktgen.pkt.show() > - > - pkt_rec =3D self.tester.load_tcpdump_sniff_packets(inst) > - > - for pkt_r in pkt_rec: > - packet_hex =3D pkt_r.strip_element_layer4("load") > - cipher_text =3D binascii.b2a_hex(packet_hex) > - if str.lower(cipher_text) =3D=3D str.lower(test_vector["= output_cipher"]): > - self.logger.info(cipher_text) > - self.logger.info("Cipher Matched.") > - else: > - if test_vector["output_cipher"] !=3D "": > - result =3D False > - self.logger.info("Cipher NOT Matched.") > - self.logger.info("Cipher text in packet =3D " + = cipher_text) > - self.logger.info("Ref Cipher text =3D " + = test_vector["output_cipher"]) > - else: > - self.logger.info("Skip Cipher, Since no cipher t= ext set") > - > - hash_length =3D len(test_vector["output_hash"])/2 > - if hash_length !=3D 0: > - hash_text =3D > binascii.b2a_hex(pkt_r.pktgen.pkt["Padding"].getfieldval("load")) > - if str.lower(hash_text) =3D=3D str.lower(test_vector= ["output_hash"]): > - self.logger.info("Hash Matched") > - else: > - result =3D False > - self.logger.info("Hash NOT Matched") > - self.logger.info("Hash text in packet =3D " + ha= sh_text) > - self.logger.info("Ref Hash text =3D " + te= st_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)) > - > - # Close l2fwd-crypto process > - self.dut.send_excpet("^C", "#", 30) > - > - if result: > - self.logger.info("PASSED") > - else: > - self.logger.info("FAILED") > - > - return result > - > - def tear_down(self): > - self.dut.kill_all() > - > - def tear_down_all(self): > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_QAT=3Dy$/CONFIG_RTE_LIBRTE_PMD_QAT=3Dn/' > config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_AESNI_GCM=3Dy$/CONFIG_RTE_LIBRTE_PMD_AESNI_G > CM=3Dn/' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_NULL_CRYPTO=3Dy$/CONFIG_RTE_LIBRTE_PMD_NULL_ > CRYPTO=3Dn/' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_SNOW3G=3Dy$/CONFIG_RTE_LIBRTE_PMD_SNOW3G=3Dn > /' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_KASUMI=3Dy$/CONFIG_RTE_LIBRTE_PMD_KASUMI=3Dn/' > config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_OPENSSL=3Dy$/CONFIG_RTE_LIBRTE_PMD_OPENSSL=3Dn > /' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_AESNI_MB=3Dy$/CONFIG_RTE_LIBRTE_PMD_AESNI_MB > =3Dn/' config/common_base", "# ") > - self.dut.send_expect("sed -i > 's/CONFIG_RTE_LIBRTE_PMD_ZUC=3Dy$/CONFIG_RTE_LIBRTE_PMD_ZUC=3Dn/' > config/common_base", "# ") > - > - def __test_vector_to_cmd(self, test_vector, core_mask=3D"", port_mas= k=3D""): > - L2FWD_CRYPTO_APP =3D "./examples/l2fwd-crypto/build/app/l2fwd-cr= ypto" > - EAL_CORE_MASK =3D " -cf" if core_mask =3D=3D "" else " -c" + cor= e_mask > - EAL_MM_CHANNEL =3D " -n4" > - EAL_SOCKET_MEM =3D " --socket-mem=3D512,512 " > - EAL_SEP =3D " --" > - PORT_MASK =3D "" if port_mask =3D=3D "" else " -p" + port_mask > - QUEUE_NUM =3D "" > - > - vdev =3D "" > - if self.__check_field_in_vector(test_vector, "vdev"): > - vdev =3D " --vdev " + test_vector["vdev"] > - > - chain =3D "" > - if self.__check_field_in_vector(test_vector, "chain"): > - chain =3D " --chain " + test_vector["chain"] > - > - cdev_type =3D "" > - if self.__check_field_in_vector(test_vector, "cdev_type"): > - cdev_type =3D " --cdev_type " + test_vector["cdev_type"] > - > - cipher_algo =3D "" > - if self.__check_field_in_vector(test_vector, "cipher_algo"): > - cipher_algo =3D " --cipher_algo " + test_vector["cipher_algo= "] > - > - cipher_op =3D "" > - if self.__check_field_in_vector(test_vector, "cipher_op"): > - cipher_op =3D " --cipher_op " + test_vector["cipher_op"] > - > - cipher_key =3D "" > - if self.__check_field_in_vector(test_vector, "cipher_key"): > - cipher_key =3D " --cipher_key " + > self.__format_hex_to_param(test_vector["cipher_key"]) > - > - iv =3D "" > - if self.__check_field_in_vector(test_vector, "iv"): > - iv =3D " --iv " + self.__format_hex_to_param(test_vector["iv= "]) > - > - auth_algo =3D "" > - if self.__check_field_in_vector(test_vector, "auth_algo"): > - auth_algo =3D " --auth_algo " + test_vector["auth_algo"] > - > - auth_op =3D "" > - if self.__check_field_in_vector(test_vector, "auth_op"): > - auth_op =3D " --auth_op " + test_vector["auth_op"] > - > - auth_key =3D "" > - if self.__check_field_in_vector(test_vector, "auth_key"): > - auth_key =3D " --auth_key " + > self.__format_hex_to_param(test_vector["auth_key"]) > - > - auth_key_random_size =3D "" > - if self.__check_field_in_vector(test_vector, "auth_key_random_si= ze"): > - auth_key_random_size =3D " --auth_key_random_size " + > test_vector["auth_key_random_size"] > - > - aad =3D "" > - if self.__check_field_in_vector(test_vector, "aad"): > - aad =3D " --aad " + self.__format_hex_to_param(test_vector["= aad"]) > - > - aad_random_size =3D "" > - if self.__check_field_in_vector(test_vector, "aad_random_size"): > - aad_random_size =3D " --aad_random_size " + test_vector["aad= _random_size"] > - > - cmd_str =3D "".join([L2FWD_CRYPTO_APP, EAL_CORE_MASK, EAL_MM_CHA= NNEL, > - EAL_SOCKET_MEM, vdev, vdev, EAL_SEP, PORT_MA= SK, > - QUEUE_NUM, chain, cdev_type, cipher_algo, > - cipher_op, cipher_key, iv, auth_algo, auth_o= p, > - auth_key, auth_key_random_size, aad, > - aad_random_size]) > - > - return cmd_str > - > - def __check_field_in_vector(self, test_vector, field_name): > - if field_name in test_vector and test_vector[field_name]: > - return True > - return False > - > - def __format_hex_to_param(self, hex_str, sep=3D":", prefix=3D""): > - if not hex_str: > - return "" > - if len(hex_str) =3D=3D 1: > - return prefix + "0" + hex_str > - > - result =3D prefix + hex_str[0:2] > - for i in range(2, len(hex_str), 2): > - if len(hex_str) < i + 2: > - result =3D result + sep + "0" + hex_str[i:] > - else: > - result =3D result + sep + hex_str[i:i+2] > - > - return result > - > - def __format_hex_to_list(self, hex_str): > - if not hex_str: > - return [] > - if len(hex_str) =3D=3D 1: > - return [hex_str] > - > - result =3D [] > - 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=3DNone): > - pattern =3D "11" > - input_str =3D "" > - for i in range(length): > - input_str +=3D pattern > - return input_str > - > - def __gen_key(self, length, pattern=3DNone, mask=3D"000000"): > - base_key =3D "000102030405060708090a0b0c0d0e0f" > - key =3D "" > - n =3D length // 16 > - for i in range(n): > - key =3D key + base_key > - base_key =3D base_key[2:] + base_key[0:2] > - m =3D length % 16 > - key =3D key + base_key[0:2*m] > - return key > - > - def __cryptography_cipher(self, vector): > - key =3D binascii.a2b_hex(vector["cipher_key"]) > - iv =3D binascii.a2b_hex(vector["iv"]) > - cipher_algo_str =3D vector["cipher_algo"] > - if vector["cipher_algo"] =3D=3D "aes-cbc": > - cipher_algo =3D algorithms.AES(key) > - cipher_mode =3D modes.CBC(iv) > - elif vector["cipher_algo"] =3D=3D "aes-ctr": > - cipher_algo =3D algorithms.AES(key) > - cipher_mode =3D modes.CTR(iv) > - elif vector["cipher_algo"] =3D=3D "3des-cbc": > - cipher_algo =3D algorithms.TripleDES(key) > - cipher_mode =3D modes.CBC(iv) > - elif vector["cipher_algo"] =3D=3D "aes-gcm": > - cipher_algo =3D algorithms.AES(key) > - cipher_mode =3D modes.GCM(iv) > - else: > - cipher_algo =3D algorithms.AES(key) > - cipher_mode =3D modes.CBC(iv) > - > - cipher =3D Cipher(cipher_algo, cipher_mode, backend=3Ddefault_ba= ckend()) > - encryptor =3D cipher.encryptor() > - cipher_str =3D encryptor.update(binascii.a2b_hex(vector["input"]= )) + > encryptor.finalize() > - > - return binascii.b2a_hex(cipher_str) > - > - def __CryptoMoble_cipher(self, vector): > - cipher_str =3D "" > - out_str =3D "" > - cipher_algo =3D vector['cipher_algo'] > - > - mBitlen =3D 8 * (len(vector['input']) / 2) > - bin_input =3D bytearray.fromhex(vector["input"]) > - str_input =3D str(bin_input) > - bin_key =3D binascii.a2b_hex(vector["cipher_key"]) > - if ((cipher_algo.upper()).find("KASUMI") !=3D -1): > - vector["iv"] =3D vector["iv"][:10] + "000000" > - out_str =3D cm.UEA1(key=3Dbin_key, count=3D66051, bearer=3D0= , > - dir=3D1, data=3Dstr_input, bitlen=3DmBitlen) > - > - elif ((cipher_algo.upper()).find("SNOW3G") !=3D -1): > - vector["iv"] =3D "00000000000000000000000000000000" > - out_str =3D cm.UEA2(key=3Dbin_key, count=3D0, bearer=3D0, di= r=3D0, > - data=3Dstr_input, bitlen=3DmBitlen) > - elif ((cipher_algo.upper()).find("ZUC") !=3D -1): > - vector["iv"] =3D "00010203040000000001020304000000" > - out_str =3D cm.EEA3(key=3Dbin_key, count=3D0x10203, bearer= =3D0, dir=3D1, > - data=3Dstr_input, bitlen=3DmBitlen) > - > - cipher_str =3D out_str.encode("hex").upper() > - > - return cipher_str > - > - def __gen_null_cipher_out(self, vector): > - cipher_str =3D "" > - if (vector['chain'] =3D=3D "CIPHER_ONLY") or (vector['chain'] = =3D=3D "CIPHER_HASH"): > - cipher_str =3D vector['input'] > - elif (vector['chain'] =3D=3D "HASH_CIPHER"): > - cipher_str =3D vector['output_hash'] > - return cipher_str > - > - def __gen_cipher_output(self, vector): > - if vector["chain"] =3D=3D "HASH_ONLY": > - vector["output_cipher"] =3D=3D "" > - return > - > - if vector["output_cipher"] !=3D "*": > - return > - > - cipher_str =3D "" > - > - if(((vector['cipher_algo']).upper()).find("KASUMI") !=3D -1) or = \ > - (((vector['cipher_algo']).upper()).find("SNOW3G") !=3D -= 1) or \ > - (((vector['cipher_algo']).upper()).find("ZUC") !=3D -1): > - cipher_str =3D self.__CryptoMoble_cipher(vector) > - elif (vector['cipher_algo'] =3D=3D "NULL"): > - cipher_str =3D self.__gen_null_cipher_out(vector) > - else: > - cipher_str =3D self.__cryptography_cipher(vector) > - vector["output_cipher"] =3D cipher_str.upper() > - > - def __gen_kasumi_hash(self, vector): > - auth_str =3D "" > - auth_algo =3D vector['auth_algo'] > - mBitlen =3D 8 * (len(vector['input']) / 2) > - bin_input =3D bytearray.fromhex(vector["input"]) > - str_input =3D str(bin_input) > - bin_key =3D binascii.a2b_hex(vector["auth_key"]) > - > - hash_out =3D cm.UIA1(key=3Dbin_key, count=3D0X10203, fresh=3D0X4= 050607, dir=3D0, > - data=3Dstr_input) > - auth_str =3D hash_out.encode("hex").upper() > - > - return auth_str > - > - def __gen_snow3g_hash(self, vector): > - auth_str =3D "" > - auth_algo =3D vector['auth_algo'] > - mBitlen =3D 8 * (len(vector['input']) / 2) > - bin_input =3D bytearray.fromhex(vector["input"]) > - str_input =3D str(bin_input) > - bin_key =3D binascii.a2b_hex(vector["auth_key"]) > - vector["aad"] =3D "00000000000000000000000000000000" > - > - hash_out =3D cm.UIA2(key=3Dbin_key, count=3D0, fresh=3D0, dir=3D= 0, > - data=3Dstr_input) > - > - auth_str =3D hash_out.encode("hex").upper() > - > - return auth_str > - > - def __gen_zuc_hash(self, vector): > - auth_str =3D "" > - auth_algo =3D vector['auth_algo'] > - mBitlen =3D 8 * (len(vector['input']) / 2) > - bin_input =3D bytearray.fromhex(vector["input"]) > - str_input =3D str(bin_input) > - bin_key =3D binascii.a2b_hex(vector["auth_key"]) > - > - vector["aad"] =3D "00000000000000000000000000000000" > - hash_out =3D cm.EIA3(key=3Dbin_key, count=3D0, bearer=3D0, dir= =3D0, data=3Dstr_input, > bitlen=3DmBitlen) > - auth_str =3D hash_out.encode("hex").upper() > - > - return auth_str > - > - def __gen_null_hash(self, vector): > - auth_str =3D "" > - if (vector['chain'] =3D=3D "HASH_ONLY") or (vector['chain'] =3D= =3D "HASH_CIPHER"): > - auth_str =3D vector['input'] > - elif (vector['chain'] =3D=3D "CIPHER_HASH"): > - auth_str =3D vector['output_cipher'] > - return auth_str > - > - def __gen_hash_output(self, vector): > - if vector["chain"] =3D=3D "CIPHER_ONLY": > - vector["output_hash"] =3D=3D "" > - return > - > - if vector["output_hash"] !=3D "*": > - return > - > - if vector["chain"] =3D=3D "HASH_ONLY": > - vector["output_cipher"] =3D "" > - > - hash_str =3D "" > - > - if vector["chain"] =3D=3D "CIPHER_HASH": > - input_str =3D vector["output_cipher"] > - else: > - input_str =3D vector["input"] > - > - auth_algo =3D vector["auth_algo"] > - if auth_algo =3D=3D "MD5_HMAC": > - hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > - binascii.a2b_hex(input_str), hashlib.md5).hexdigest(= ) > - elif auth_algo =3D=3D "SHA1_HMAC": > - hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > - binascii.a2b_hex(input_str), hashlib.sha1).hexdigest= () > - elif auth_algo =3D=3D "SH224_HMAC": > - hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > - binascii.a2b_hex(input_str), hashlib.sha224).hexdige= st() > - elif auth_algo =3D=3D "SH256_HMAC": > - hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > - binascii.a2b_hex(input_str), hashlib.sha256).hexdige= st() > - elif auth_algo =3D=3D "SHA384_HMAC": > - hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > - binascii.a2b_hex(input_str), hashlib.sha384).hexdige= st() > - elif auth_algo =3D=3D "SHA512_HMAC": > - hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > - binascii.a2b_hex(input_str), hashlib.sha512).hexdige= st() > - elif auth_algo =3D=3D "AES_XCBC_MAC": > - pass > - elif auth_algo =3D=3D "AES_GCM": > - pass > - elif auth_algo =3D=3D "AES_GMAC": > - pass > - elif auth_algo =3D=3D "SNOW3G_UIA2": > - hash_str =3D self.__gen_snow3g_hash(vector) > - elif auth_algo =3D=3D "ZUC_EIA3": > - hash_str =3D self.__gen_zuc_hash(vector) > - elif auth_algo =3D=3D "KASUMI_F9": > - hash_str =3D self.__gen_kasumi_hash(vector) > - elif auth_algo =3D=3D "NULL": > - hash_str =3D self.__gen_null_hash(vector) > - elif auth_algo =3D=3D "MD5": > - hash_str =3D hashlib.md5(binascii.a2b_hex(vector["auth_key"= ])).hexdigest() > - elif auth_algo =3D=3D "SHA1": > - hash_str =3D hashlib.sha1(binascii.a2b_hex(vector["auth_key"= ])).hexdigest() > - elif auth_algo =3D=3D "SHA224": > - hash_str =3D hashlib.sha224(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > - elif auth_algo =3D=3D "SHA256": > - hash_str =3D hashlib.sha256(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > - elif auth_algo =3D=3D "SHA384": > - hash_str =3D hashlib.sha384(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > - elif auth_algo =3D=3D "SHA512": > - hash_str =3D hashlib.sha512(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > - else: > - pass > - vector["output_hash"] =3D hash_str.upper() > - self.__actually_aesni_mb_digest(vector) > - > - def __gen_output(self, vector, cmds, core_mask=3D"", port_mask=3D"")= : > - if core_mask !=3D "-1": > - self.__gen_cipher_output(vector) > - self.__gen_hash_output(vector) > - cmds.append(vector) > - > - def __var2list(self, var): > - var_list =3D var if isinstance(var, list) else [var] > - return var_list > - > - def __is_valid_op(self, chain, op): > - chain_op_map =3D { > - "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 =3D { > - "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, 6= 4, 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 =3D 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 =3D True > - return result > - > - def __actually_aesni_mb_digest(self, vector): > - if ((vector["vdev"]).find("crypto_aesni_mb") =3D=3D -1): > - return > - > - auth_algo_dgst_map =3D { > - "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 =3D auth_algo_dgst_map[vector["auth_algo"]] > - vector["output_hash"] =3D vector["output_hash"] if digest >= =3D > (len(vector["output_hash"]) / 2) \ > - else (vector["output_hash"])[0:2*digest] > - > - def __iter_cipher_algo(self, vector, vector_list, core_mask=3D"", po= rt_mask=3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "HASH_ONLY": > - test_vector["cipher_algo"] =3D "" > - self.__iter_cipher_op(test_vector, vector_list, core_mask, p= ort_mask) > - else: > - cipher_algo_list =3D self.__var2list(test_vector["cipher_alg= o"]) > - for cipher_algo in cipher_algo_list: > - test_vector =3D vector.copy() > - test_vector["cipher_algo"] =3D cipher_algo > - self.__iter_cipher_op(test_vector, vector_list, core_mas= k, port_mask) > - > - def __iter_cipher_op(self, vector, vector_list, core_mask=3D"", port= _mask=3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "HASH_ONLY": > - test_vector["cipher_op"] =3D "" > - self.__iter_cipher_key(test_vector, vector_list, core_mask, = port_mask) > - else: > - cipher_op_list =3D 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 =3D vector.copy() > - test_vector["cipher_op"] =3D cipher_op > - self.__iter_cipher_key(test_vector, vector_list, > - core_mask, port_mask) > - > - def __iter_cipher_key(self, vector, vector_list, core_mask=3D"", por= t_mask=3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "HASH_ONLY": > - test_vector["cipher_key"] =3D "" > - self.__iter_iv(test_vector, vector_list, core_mask, port_mas= k) > - else: > - cipher_key_list =3D self.__var2list(test_vector["cipher_key"= ]) > - for cipher_key in cipher_key_list: > - test_vector =3D vector.copy() > - if isinstance(cipher_key, int): > - if self.__is_valid_size("cipher_key", > - test_vector["cipher_algo"], > - cipher_key): > - test_vector["cipher_key"] =3D self.__gen_key(cip= her_key) > - self.__iter_iv(test_vector, vector_list, core_ma= sk, port_mask) > - else: > - continue > - else: > - test_vector["cipher_key"] =3D cipher_key > - self.__iter_iv(test_vector, vector_list, core_mask, = port_mask) > - > - def __iter_iv(self, vector, vector_list, core_mask=3D"", port_mask= =3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "HASH_ONLY": > - test_vector["iv"] =3D "" > - self.__iter_auth_algo(test_vector, vector_list, core_mask, p= ort_mask) > - else: > - iv_list =3D self.__var2list(test_vector["iv"]) > - for iv in iv_list: > - test_vector =3D vector.copy() > - if isinstance(iv, int): > - if self.__is_valid_size("iv", > - test_vector["cipher_algo"], > - iv): > - test_vector["iv"] =3D self.__gen_key(iv) > - self.__iter_auth_algo(test_vector, vector_list, > - core_mask, port_mask) > - else: > - continue > - else: > - test_vector["iv"] =3D iv > - self.__iter_auth_algo(test_vector, vector_list, > - core_mask, port_mask) > - > - def __iter_auth_algo(self, vector, vector_list, core_mask=3D"", port= _mask=3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "CIPHER_ONLY": > - test_vector["auth_algo"] =3D "" > - self.__iter_auth_op(test_vector, vector_list, core_mask, por= t_mask) > - else: > - auth_algo_list =3D self.__var2list(test_vector["auth_algo"]) > - for auth_algo in auth_algo_list: > - test_vector =3D vector.copy() > - test_vector["auth_algo"] =3D auth_algo > - self.__iter_auth_op(test_vector, vector_list, core_mask,= port_mask) > - > - def __iter_auth_op(self, vector, vector_list, core_mask=3D"", port_m= ask=3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "CIPHER_ONLY": > - test_vector["auth_op"] =3D "" > - self.__iter_auth_key(test_vector, vector_list, core_mask, po= rt_mask) > - else: > - auth_op_list =3D 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 =3D vector.copy() > - test_vector["auth_op"] =3D auth_op > - self.__iter_auth_key(test_vector, vector_list, > - core_mask, port_mask) > - > - def __iter_auth_key(self, vector, vector_list, core_mask=3D"", port_= mask=3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "CIPHER_ONLY": > - test_vector["auth_key"] =3D "" > - self.__iter_aad(test_vector, vector_list, core_mask, port_ma= sk) > - else: > - auth_key_list =3D self.__var2list(test_vector["auth_key"]) > - for auth_key in auth_key_list: > - test_vector =3D vector.copy() > - if isinstance(auth_key, int): > - if self.__is_valid_size("auth_key", > - test_vector["auth_algo"], > - auth_key): > - test_vector["auth_key"] =3D self.__gen_key(auth_= key) > - self.__iter_aad(test_vector, vector_list, core_m= ask, port_mask) > - else: > - continue > - else: > - test_vector["auth_key"] =3D auth_key > - self.__iter_aad(test_vector, vector_list, core_mask,= port_mask) > - > - def __iter_aad(self, vector, vector_list, core_mask=3D"", port_mask= =3D""): > - test_vector =3D vector.copy() > - if test_vector["chain"] =3D=3D "CIPHER_ONLY": > - test_vector["aad"] =3D "" > - self.__iter_input(test_vector, vector_list, core_mask, port_= mask) > - else: > - aad_list =3D self.__var2list(test_vector["aad"]) > - for aad in aad_list: > - test_vector =3D vector.copy() > - if isinstance(aad, int): > - if self.__is_valid_size("aad", > - test_vector["auth_algo"], > - aad): > - test_vector["aad"] =3D self.__gen_key(aad) > - self.__iter_input(test_vector, vector_list, > - core_mask, port_mask) > - else: > - continue > - else: > - test_vector["aad"] =3D aad > - self.__iter_input(test_vector, vector_list, > - core_mask, port_mask) > - > - def __iter_input(self, vector, vector_list, core_mask=3D"", port_mas= k=3D""): > - input_list =3D self.__var2list(vector["input"]) > - for input_data in input_list: > - test_vector =3D vector.copy() > - test_vector["input"] =3D 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=3D"", = port_mask=3D""): > - vector_list =3D [] > - > - chain_list =3D self.__var2list(test_vector["chain"]) > - > - for chain in chain_list: > - test_vector["chain"] =3D chain > - self.__iter_cipher_algo(test_vector, vector_list, core_mask,= port_mask) > - return vector_list > - > - > -test_vectors =3D { > - "qat_c_AES_CBC_00": { > - "vdev": "", > - "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > - "cdev_type": "ANY", > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "qat_c_AES_CTR_00": { > - "vdev": "", > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "qat_c_AES_GCM_00": { > - "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", "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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "qat_h_MD_SHA_00": { > - "vdev": "", > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "qat_h_AES_XCBC_MAC_01": { > - "vdev": "", > - "chain": "HASH_ONLY", > - "cdev_type": "ANY", > - "cipher_algo": "", > - "cipher_op": "", > - "cipher_key": "", > - "iv": "", > - "auth_algo": ["AES_XCBC_MAC"], > - "auth_op": "GENERATE", > - "auth_key": [16], > - "auth_key_random_size": "", > - "aad": [0], > - "aad_random_size": "", > - "input": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "qat_c_3DES_CBC_00": { > - "vdev": "", > - "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > - "cdev_type": "ANY", > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "qat_c_3DES_CTR_00": { > - "vdev": "", > - "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > - "cdev_type": "ANY", > - "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", "sha2-25= 6-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": [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": [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": [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", "sha2-25= 6-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": [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", "sha2-25= 6-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": [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"], > - 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"md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "openssl_c_AES_CBC_00": { > - "vdev": "crypto_openssl_pmd,socket_id=3D1,max_nb_sessions=3D128"= , > - "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > - "cdev_type": "ANY", > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "openssl_c_AES_CTR_00": { > - "vdev": "crypto_openssl_pmd,socket_id=3D1,max_nb_sessions=3D128"= , > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "openssl_c_AES_GCM_00": { > - "vdev": "crypto_openssl_pmd,socket_id=3D1,max_nb_sessions=3D128"= , > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "openssl_h_MD_SHA_00": { > - "vdev": "crypto_openssl_pmd,socket_id=3D1,max_nb_sessions=3D128"= , > - "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", "sha2-25= 6-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": [48, 64, 128, 129, 256, 512, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > - > - "openssl_c_DES_DOCSISBPI": { > - "vdev": "crypto_openssl_pmd,socket_id=3D1,max_nb_sessions=3D128"= , > - "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": [64, 127, 258, 506, 512, 521, 1020, 1022, 1024], > - "output_cipher": "*", > - "output_hash": "*" > - }, > -} > diff --git a/tests/TestSuite_l2fwd_cryptodev_func.py > b/tests/TestSuite_l2fwd_cryptodev_func.py > new file mode 100644 > index 0000000..546c010 > --- /dev/null > +++ b/tests/TestSuite_l2fwd_cryptodev_func.py > @@ -0,0 +1,2682 @@ > +# BSD LICENSE > +# > +# Copyright(c) 2016-2017 Intel Corporation. All rights reserved. > +# All rights reserved. > +# > +# Redistribution and use in source and binary forms, with or without > +# modification, are permitted provided that the following conditions > +# are met: > +# > +# * Redistributions of source code must retain the above copyright > +# notice, this list of conditions and the following disclaimer. > +# * Redistributions in binary form must reproduce the above copyright > +# notice, this list of conditions and the following disclaimer in > +# the documentation and/or other materials provided with the > +# distribution. > +# * Neither the name of Intel Corporation nor the names of its > +# contributors may be used to endorse or promote products derived > +# from this software without specific prior written permission. > +# > +# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND > CONTRIBUTORS > +# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT > +# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS > FOR > +# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE > COPYRIGHT > +# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, > INCIDENTAL, > +# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT > +# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, > +# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON > ANY > +# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT > +# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE > USE > +# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. > + > +import hmac > +import hashlib > +import binascii > +import time > +import utils > +from test_case import TestCase > +from packet import Packet > + > +from cryptography.hazmat.primitives.ciphers import Cipher, algorithms, m= odes > +from cryptography.hazmat.primitives.ciphers.aead import AESCCM, AESGCM > +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 > +import pyDes > + > +import cryptodev_common as cc > + > +class TestL2fwdCrypto(TestCase): > + > + def set_up_all(self): > + > + self.core_config =3D "1S/2C/1T" > + self.number_of_ports =3D 1 > + self.dut_ports =3D self.dut.get_ports(self.nic) > + self.verify(len(self.dut_ports) >=3D self.number_of_ports, > + "Not enough ports for " + self.nic) > + self.ports_socket =3D self.dut.get_numa_id(self.dut_ports[0]) > + > + self.logger.info("core config =3D " + self.core_config) > + self.logger.info("number of ports =3D " + str(self.number_of_por= ts)) > + self.logger.info("dut ports =3D " + str(self.dut_ports)) > + self.logger.info("ports_socket =3D " + str(self.ports_socket)) > + > + self.core_mask =3D utils.create_mask(self.dut.get_core_list( > + self.core_config, > + socket=3Dself.ports_socket)) > + self.port_mask =3D utils.create_mask([self.dut_ports[0]]) > + > + self.tx_port =3D self.tester.get_local_port(self.dut_ports[0]) > + self.rx_port =3D self.tester.get_local_port(self.dut_ports[0]) > + > + self.tx_interface =3D self.tester.get_interface(self.tx_port) > + self.rx_interface =3D self.tester.get_interface(self.rx_port) > + > + self.logger.info("core mask =3D " + self.core_mask) > + self.logger.info("port mask =3D " + self.port_mask) > + self.logger.info("tx interface =3D " + self.tx_interface) > + self.logger.info("rx interface =3D " + self.rx_interface) > + > + self._app_path =3D "./examples/l2fwd-crypto/build/l2fwd-crypto" > + if not cc.is_build_skip(self): > + cc.build_dpdk_with_cryptodev(self) > + > + self.vf_driver =3D self.get_suite_cfg()['vf_driver'] > + cc.bind_qat_device(self, self.vf_driver) > + > + > + def set_up(self): > + pass > + > + def test_qat_AES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_AES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_AES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_AES_CTR_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_AES_CTR_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_AES_CTR_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_AES_GCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_AES_GCM_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_AES_GCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_AES_CCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_AES_CCM_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_AES_CCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_h_MD_SHA_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D 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 =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_h_AES_XCBC_MAC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D 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 =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_3DES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_3DES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_3DES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_3DES_CTR_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_3DES_CTR_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_3DES_CTR_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_AES_DOCSISBPI_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_AES_DOCSISBPI_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_AES_DOCSISBPI_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_DES_DOCSISBPI_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_DES_DOCSISBPI_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_DES_DOCSISBPI_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_SNOW3G_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_c_UEA2_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_c_UEA2_01"): > + result =3D False > + > + self.logger.info("Test qat_h_UIA2_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_h_UIA2_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_KASUMI_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D 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 =3D False > + > + self.logger.info("Test qat_kasumi_h_F9_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_kasumi_h_F9_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_ZUC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_c_EEA3_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_c_EEA3_01"): > + result =3D False > + > + self.logger.info("Test qat_h_EIA3_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_h_EIA3_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_qat_NULL_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test qat_NULL_auto") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "qat_NULL_auto"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_AES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_AES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_AES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_AES_CTR_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_AES_CTR_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_AES_CTR_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_AES_DOCSISBPI_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_AES_DOCSISBPI_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_AES_DOCSISBPI_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_AES_CCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_AES_CCM_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_AES_CCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_gcm_AES_GCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_gcm_aead_AES_GCM_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_gcm_aead_AES_GCM_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_h_MD_SHA_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_h_MD_SHA_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_h_MD_SHA_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_3DES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_3DES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_3DES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_kasumi_KASUMI_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test kasumi_c_F8_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "kasumi_c_F8_01"): > + result =3D False > + > + self.logger.info("Test kasumi_h_F9_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "kasumi_h_F9_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_null_NULL_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test null_NULL_auto") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "null_NULL_auto"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_snow3g_SNOW3G_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test snow3g_c_UEA2_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "snow3g_c_UEA2_01"): > + result =3D False > + > + self.logger.info("Test snow3g_h_UIA2_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "snow3g_h_UIA2_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_zuc_ZUC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test zuc_c_EEA3_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "zuc_c_EEA3_01"): > + result =3D False > + > + self.logger.info("Test zuc_h_EIA3_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "zuc_h_EIA3_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + # openssl pmd cases > + def test_openssl_3DES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_3DES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_3DES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_3DES_CTR_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_3DES_CTR_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_3DES_CTR_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_AES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_AES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_AES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_AES_CTR_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_AES_CTR_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_AES_CTR_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_AES_GCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_AES_GCM_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_AES_GCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_AES_CCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_AES_CCM_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_AES_CCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_h_MD_SHA_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D 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 =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_DES_DOCSISBPI_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_DES_DOCSISBPI_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_DES_DOCSISBPI_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_DES_DOCSISBPI_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_DES_DOCSISBPI_01") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_DES_DOCSISBPI_01"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_aesni_mb_DES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test aesni_mb_DES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "aesni_mb_DES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_openssl_DES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test openssl_DES_CBC_00") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "openssl_DES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_rr_AES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_rr_AES_CBC") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_rr_AES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_rr_AES_GCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_rr_AES_GCM") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_rr_AES_GCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_psb_AES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_psb_AES_CBC") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_psb_AES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_psb_AES_GCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_psb_AES_GCM") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_psb_AES_GCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_fo_AES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_fo_AES_CBC") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_fo_AES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_fo_AES_GCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_fo_AES_GCM") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_fo_AES_GCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_mm_AES_CBC_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_mm_AES_CBC") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_mm_AES_CBC_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def test_scheduler_mm_AES_GCM_auto(self): > + if cc.is_test_skip(self): > + return > + > + result =3D True > + self.logger.info("Test scheduler_mm_AES_GCM") > + if not self.__execute_l2fwd_crypto_test( > + test_vectors, "scheduler_mm_AES_GCM_00"): > + result =3D False > + > + self.verify(result, "Test failed") > + > + def __calculate_total_cases_numb(self): > + alg_map =3D {} > + pmd_map =3D {} > + map_combine =3D {} > + count =3D 0 > + alg =3D "" > + pmd =3D "" > + alg_list =3D ["AES_CBC", "AES_CTR", "AES_GCM", "3DES_CBC", > + "3DES_CTR", "SNOW3G", "KASUMI", "ZUC", "NULL", "MD_S= HA"] > + pmd_list =3D ["qat", "aesni_mb", "aesni_gcm", "snow3g", > + "kasumi", "zuc", "openssl", "null"] > + valid_map =3D { > + "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_C= BC", > + "3DES_CTR", "MD_SHA"], > + "null": ["NULL"] > + } > + > + for index, value in test_vectors.iteritems(): > + test_vector_list =3D self.__test_vector_to_vector_list(value= , > + core_mask=3D"-1", port_mask=3Dself.port_mask) > + count =3D count + len(test_vector_list) > + for i in alg_list: > + if (index.upper()).find(i) !=3D -1: > + alg =3D i > + if i in alg_map: > + alg_map[i] +=3D len(test_vector_list) > + else: > + alg_map[i] =3D len(test_vector_list) > + for j in pmd_list: > + if (index).find(j) !=3D -1: > + pmd =3D j if j !=3D "" else "qat" > + if i in pmd_map: > + pmd_map[j] +=3D len(test_vector_list) > + else: > + pmd_map[j] =3D len(test_vector_list) > + if alg in valid_map[pmd]: > + temp_str =3D pmd + "_" + alg > + if temp_str in map_combine: > + map_combine[temp_str] +=3D len(test_vector_list) > + else: > + map_combine[temp_str] =3D len(test_vector_list) > + for k, v in alg_map.iteritems(): > + self.logger.info("Total {name} cases:\t\t\t{number}".format(= name=3Dk, > number=3Dv)) > + for k, v in pmd_map.iteritems(): > + self.logger.info("Total {name} cases:\t\t\t{number}".format(= name=3Dk, > number=3Dv)) > + for k, v in map_combine.iteritems(): > + self.logger.info("Total {name} cases:\t\t\t{number}".format(= name=3Dk, > number=3Dv)) > + 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: > + self.logger.warning("SKIP : " + test_vector_name) > + return True > + > + test_vector =3D test_vectors[test_vector_name] > + > + test_vector_list =3D self.__test_vector_to_vector_list(test_vect= or, > + core_mask=3Dself.core_mask, > + port_mask=3Dself.port_mask) > + > + result =3D True > + self.logger.info("Total Generated {0} Tests".format(len(test_vec= tor_list))) > + for test_vector in test_vector_list: > + self.logger.debug(test_vector) > + cmd_str =3D self.__test_vector_to_cmd(test_vector, > + core_mask=3Dself.core_ma= sk, > + port_mask=3Dself.port_ma= sk) > + self.dut.send_expect(cmd_str, "=3D=3D", 40) > + time.sleep(5) > + > + payload =3D self.__format_hex_to_list(test_vector["input"]) > + > + inst =3D self.tester.tcpdump_sniff_packets(self.rx_interface= , > + timeout=3D5, > + filters=3D[{'layer'= : 'ether', > + 'config': {'dst': '= 52:00:00:00:00:01'}}]) > + > + PACKET_COUNT =3D 65 > + pkt =3D Packet() > + pkt.assign_layers(["ether", "ipv4", "raw"]) > + pkt.config_layer("ether", {"src": "52:00:00:00:00:00", > "dst":"52:00:00:00:00:01"}) > + 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=3Dself.tx_interface, count=3DPACKET_COU= NT) > + > + pkt_rec =3D self.tester.load_tcpdump_sniff_packets(inst) > + > + for pkt_r in pkt_rec: > + packet_hex =3D pkt_r.pktgen.pkt["Raw"].getfieldval("load= ") > + if packet_hex =3D=3D None: > + result =3D False > + self.logger.info("no payload !") > + continue > + cipher_text =3D binascii.b2a_hex(packet_hex) > + if str.lower(cipher_text) =3D=3D str.lower(test_vector["= output_cipher"]): > + self.logger.debug(cipher_text) > + self.logger.info("Cipher Matched.") > + else: > + if test_vector["output_cipher"] !=3D "": > + result =3D False > + self.logger.info("Cipher NOT Matched.") > + self.logger.info("Cipher text in packet =3D " + = cipher_text) > + self.logger.info("Ref Cipher text =3D " + = test_vector["output_cipher"]) > + else: > + self.logger.info("Skip Cipher, Since no cipher t= ext set") > + > + hash_length =3D len(test_vector["output_hash"])/2 > + if hash_length !=3D 0: > + if test_vector["auth_algo"] =3D=3D "null": > + hash_text =3D > binascii.b2a_hex(pkt_r.pktgen.pkt["Raw"].getfieldval("load")) > + else: > + hash_text =3D > binascii.b2a_hex(pkt_r.pktgen.pkt["Padding"].getfieldval("load")) > + if str.lower(hash_text) =3D=3D str.lower(test_vector= ["output_hash"]): > + self.logger.info("Hash Matched") > + else: > + result =3D False > + self.logger.info("Hash NOT Matched") > + self.logger.info("Hash text in packet =3D " + ha= sh_text) > + self.logger.info("Ref Hash text =3D " + te= st_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)) > + > + # Close l2fwd-crypto process > + self.dut.kill_all() > + > + if result: > + self.logger.info("PASSED") > + else: > + self.logger.info("FAILED") > + > + return result > + > + def tear_down(self): > + self.dut.kill_all() > + > + def tear_down_all(self): > + cc.clear_dpdk_config(self) > + > + def __test_vector_to_cmd(self, test_vector, core_mask=3D"", port_mas= k=3D""): > + > + eal_opt_str =3D cc.get_eal_opt_str(self) > + > + EAL_SEP =3D " --" > + PORT_MASK =3D "" if port_mask =3D=3D "" else " -p " + port_mask > + QUEUE_NUM =3D "" > + > + vdev =3D "" > + if self.__check_field_in_vector(test_vector, "vdev"): > + vdev =3D " --vdev " + test_vector["vdev"] > + > + chain =3D "" > + if self.__check_field_in_vector(test_vector, "chain"): > + chain =3D " --chain " + test_vector["chain"] > + > + cdev_type =3D "" > + if self.__check_field_in_vector(test_vector, "cdev_type"): > + cdev_type =3D " --cdev_type " + test_vector["cdev_type"] > + > + aad_random_size =3D "" > + cipher_algo =3D "" > + cipher_key =3D "" > + cipher_op =3D "" > + auth_algo =3D "" > + auth_key =3D "" > + auth_op =3D "" > + auth_key_random_size =3D "" > + aad =3D "" > + iv =3D "" > + digest_size =3D "" > + if test_vector["chain"].upper() =3D=3D "AEAD": > + if self.__check_field_in_vector(test_vector, "cipher_algo"): > + cipher_algo =3D " --aead_algo " + test_vector["cipher_al= go"] > + > + if self.__check_field_in_vector(test_vector, "cipher_op"): > + cipher_op =3D " --aead_op " + test_vector["cipher_op"] > + > + if self.__check_field_in_vector(test_vector, "cipher_key"): > + cipher_key =3D " --aead_key " + > self.__format_hex_to_param(test_vector["cipher_key"]) > + > + if self.__check_field_in_vector(test_vector, "iv"): > + iv =3D " --aead_iv " + self.__format_hex_to_param(test_v= ector["iv"]) > + if self.__check_field_in_vector(test_vector, "aad"): > + aad =3D " --aad " + self.__format_hex_to_param(test_vect= or["aad"]) > + > + if self.__check_field_in_vector(test_vector, "digest_size"): > + digest_size =3D " --digest " + str(test_vector["digest_s= ize"]) > + > + else: > + if self.__check_field_in_vector(test_vector, "cipher_algo"): > + cipher_algo =3D " --cipher_algo " + test_vector["cipher_= algo"] > + > + if self.__check_field_in_vector(test_vector, "cipher_op"): > + cipher_op =3D " --cipher_op " + test_vector["cipher_op"] > + > + if self.__check_field_in_vector(test_vector, "cipher_key"): > + cipher_key =3D " --cipher_key " + > self.__format_hex_to_param(test_vector["cipher_key"]) > + > + if self.__check_field_in_vector(test_vector, "iv"): > + iv =3D " --cipher_iv " + self.__format_hex_to_param(test= _vector["iv"]) > + > + if self.__check_field_in_vector(test_vector, "auth_algo"): > + auth_algo =3D " --auth_algo " + test_vector["auth_algo"] > + > + if self.__check_field_in_vector(test_vector, "auth_op"): > + auth_op =3D " --auth_op " + test_vector["auth_op"] > + > + if self.__check_field_in_vector(test_vector, "auth_key"): > + auth_key =3D " --auth_key " + > self.__format_hex_to_param(test_vector["auth_key"]) > + > + if self.__check_field_in_vector(test_vector, "auth_key_rando= m_size"): > + auth_key_random_size =3D " --auth_key_random_size " + > test_vector["auth_key_random_size"] > + > + if self.__check_field_in_vector(test_vector, "aad"): > + aad =3D " --auth_iv " + self.__format_hex_to_param(test_= vector["aad"]) > + > + if self.__check_field_in_vector(test_vector, "aad_random_siz= e"): > + aad_random_size =3D " --aad_random_size " + test_vector[= "aad_random_size"] > + > + if self.__check_field_in_vector(test_vector, "digest_size"): > + digest_size =3D " --digest " + str(test_vector["digest_s= ize"]) > + > + cmd_str =3D " ".join([self._app_path, eal_opt_str, vdev, vdev, E= AL_SEP, > PORT_MASK, > + QUEUE_NUM, chain, cdev_type, cipher_algo, > + cipher_op, cipher_key, iv, auth_algo, auth_o= p, > + auth_key, auth_key_random_size, aad, > + aad_random_size, digest_size, "--no-mac-upda= ting"]) > + > + return cmd_str > + > + def __check_field_in_vector(self, test_vector, field_name): > + if field_name in test_vector and test_vector[field_name]: > + return True > + return False > + > + def __format_hex_to_param(self, hex_str, sep=3D":", prefix=3D""): > + if not hex_str: > + return "" > + if len(hex_str) =3D=3D 1: > + return prefix + "0" + hex_str > + > + result =3D prefix + hex_str[0:2] > + for i in range(2, len(hex_str), 2): > + if len(hex_str) < i + 2: > + result =3D result + sep + "0" + hex_str[i:] > + else: > + result =3D result + sep + hex_str[i:i+2] > + > + return result > + > + def __format_hex_to_list(self, hex_str): > + if not hex_str: > + return [] > + if len(hex_str) =3D=3D 1: > + return [hex_str] > + > + result =3D [] > + 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=3DNone): > + pattern =3D "11" > + input_str =3D "" > + for i in range(length): > + input_str +=3D pattern > + return input_str > + > + def __gen_key(self, length, pattern=3DNone, mask=3D"000000"): > + base_key =3D "000102030405060708090a0b0c0d0e0f" > + key =3D "" > + n =3D length // 16 > + for i in range(n): > + key =3D key + base_key > + base_key =3D base_key[2:] + base_key[0:2] > + m =3D length % 16 > + key =3D key + base_key[0:2*m] > + return key > + > + def __cipher_algorithm_for_cryptography_block_size_check(self, algo)= : > + block_size =3D 8 > + algo_block_map =3D { > + "aes-cbc": 16, > + "aes-ctr": 16, > + "aes-gcm": 16, > + "3des-cbc": 8, > + "3des-ctr": 8, > + "des-cbc": 8 > + } > + if algo in algo_block_map: > + block_size =3D algo_block_map[algo] > + > + return block_size > + > + def __cryptography_cipher(self, vector): > + key =3D binascii.a2b_hex(vector["cipher_key"]) > + iv =3D binascii.a2b_hex(vector["iv"]) > + cipher_str =3D "" > + if vector["chain"].upper() !=3D "AEAD": > + if vector["cipher_algo"] =3D=3D "aes-cbc": > + cipher_algo =3D algorithms.AES(key) > + cipher_mode =3D modes.CBC(iv) > + elif vector["cipher_algo"] =3D=3D "aes-ctr": > + cipher_algo =3D algorithms.AES(key) > + cipher_mode =3D modes.CTR(iv) > + elif vector["cipher_algo"] =3D=3D "3des-cbc": > + cipher_algo =3D algorithms.TripleDES(key) > + cipher_mode =3D modes.CBC(iv) > + elif vector["cipher_algo"] =3D=3D "3des-ctr": > + cipher_algo =3D algorithms.TripleDES(key) > + cipher_mode =3D modes.CTR(iv) > + > + elif vector["cipher_algo"] =3D=3D "des-cbc": > + cipher =3D pyDes.des(key, pyDes.CBC, iv) > + if vector["cipher_op"] =3D=3D "DECRYPT": > + cipher_str =3D cipher.decrypt(binascii.a2b_hex(vecto= r["input"])) > + else: > + cipher_str =3D cipher.encrypt(binascii.a2b_hex(vecto= r["input"])) > + else: > + cipher_algo =3D algorithms.AES(key) > + cipher_mode =3D modes.CBC(iv) > + > + # this is workaround, need to refact to calculate method by = diff lib > + if cipher_str =3D=3D "": > + cipher =3D Cipher(cipher_algo, cipher_mode, backend=3Dde= fault_backend()) > + if vector["cipher_op"] =3D=3D "DECRYPT": > + encryptor =3D cipher.decryptor() > + else: > + encryptor =3D cipher.encryptor() > + cipher_str =3D encryptor.update(binascii.a2b_hex(vector[= "input"])) + > encryptor.finalize() > + else: > + if vector["cipher_algo"] =3D=3D "aes-gcm": > + aesgcm =3D AESGCM(key) > + cipher_str =3D aesgcm.encrypt(iv, > + binascii.a2b_hex(vector["inp= ut"]), > + binascii.a2b_hex(vector["aad= "])) > + cipher_str =3D cipher_str[0:-16] > + elif vector["cipher_algo"] =3D=3D "aes-ccm": > + aesccm =3D AESCCM(key) > + cipher_str =3D aesccm.encrypt(iv, > + binascii.a2b_hex(vector["inp= ut"]), > + binascii.a2b_hex(vector["aad= "])) > + cipher_str =3D cipher_str[0:-16] > + > + return binascii.b2a_hex(cipher_str) > + > + def __CryptoMoble_cipher(self, vector): > + cipher_str =3D "" > + out_str =3D "" > + cipher_algo =3D vector['cipher_algo'] > + > + mBitlen =3D 8 * (len(vector['input']) / 2) > + bin_input =3D bytearray.fromhex(vector["input"]) > + str_input =3D str(bin_input) > + bin_key =3D binascii.a2b_hex(vector["cipher_key"]) > + > + if ((cipher_algo.upper()).find("KASUMI") !=3D -1): > + vector["iv"] =3D vector["iv"][:10] + "000000" > + out_str =3D cm.UEA1(key=3Dbin_key, count=3D66051, bearer=3D0= , > + dir=3D1, data=3Dstr_input, bitlen=3DmBitlen) > + > + elif ((cipher_algo.upper()).find("SNOW3G") !=3D -1): > + vector["iv"] =3D "00000000000000000000000000000000" > + out_str =3D cm.UEA2(key=3Dbin_key, count=3D0, bearer=3D0, di= r=3D0, > + data=3Dstr_input, bitlen=3DmBitlen) > + elif ((cipher_algo.upper()).find("ZUC") !=3D -1): > + vector["iv"] =3D "00010203040000000001020304000000" > + out_str =3D cm.EEA3(key=3Dbin_key, count=3D0x10203, bearer= =3D0, dir=3D1, > + data=3Dstr_input, bitlen=3DmBitlen) > + > + cipher_str =3D out_str.encode("hex").upper() > + > + return cipher_str > + > + def __gen_null_cipher_out(self, vector): > + cipher_str =3D "" > + if (vector['chain'] =3D=3D "CIPHER_ONLY") or (vector['chain'] = =3D=3D "CIPHER_HASH"): > + cipher_str =3D vector['input'] > + elif (vector['chain'] =3D=3D "HASH_CIPHER"): > + cipher_str =3D vector['output_hash'] > + return cipher_str > + > + def __gen_cipher_output(self, vector): > + if vector["chain"] =3D=3D "HASH_ONLY": > + vector["output_cipher"] =3D "" > + return > + > + if vector["output_cipher"] !=3D "*": > + return > + > + cipher_str =3D "" > + > + if(((vector['cipher_algo']).upper()).find("KASUMI") !=3D -1) or = \ > + (((vector['cipher_algo']).upper()).find("SNOW3G") !=3D -= 1) or \ > + (((vector['cipher_algo']).upper()).find("ZUC") !=3D -1): > + cipher_str =3D self.__CryptoMoble_cipher(vector) > + elif (vector['cipher_algo'] =3D=3D "NULL"): > + cipher_str =3D self.__gen_null_cipher_out(vector) > + elif ((vector['cipher_algo']).upper()).find("DOCSISBPI") !=3D -1= : > + cipher_str =3D len(vector["input"]) * "a" > + elif (vector['cipher_algo']).upper() =3D=3D "NULL": > + cipher_str =3D vector["input"] if vector["chain"].upper().fi= nd("HASH_") =3D=3D -1 > else vector["output_hash"] > + else: > + cipher_str =3D self.__cryptography_cipher(vector) > + vector["output_cipher"] =3D cipher_str.lower() > + > + def __gen_kasumi_hash(self, vector): > + auth_str =3D "" > + auth_algo =3D vector['auth_algo'] > + mBitlen =3D 8 * (len(vector['input']) / 2) > + bin_input =3D bytearray.fromhex(vector["input"]) > + str_input =3D str(bin_input) > + bin_key =3D binascii.a2b_hex(vector["auth_key"]) > + > + hash_out =3D cm.UIA1(key=3Dbin_key, count=3D0X10203, fresh=3D0X4= 050607, dir=3D0, > + data=3Dstr_input) > + auth_str =3D hash_out.encode("hex").lower() > + > + vector["input"] =3D '0001020304050607' + vector["input"] + '40' > + return auth_str > + > + def __gen_snow3g_hash(self, vector): > + auth_str =3D "" > + auth_algo =3D vector['auth_algo'] > + mBitlen =3D 8 * (len(vector['input']) / 2) > + bin_input =3D bytearray.fromhex(vector["input"]) > + str_input =3D str(bin_input) > + bin_key =3D binascii.a2b_hex(vector["auth_key"]) > + vector["aad"] =3D "00000000000000000000000000000000" > + > + hash_out =3D cm.UIA2(key=3Dbin_key, count=3D0, fresh=3D0, dir=3D= 0, > + data=3Dstr_input) > + > + auth_str =3D hash_out.encode("hex").lower() > + > + return auth_str > + > + def __gen_zuc_hash(self, vector): > + auth_str =3D "" > + auth_algo =3D vector['auth_algo'] > + mBitlen =3D 8 * (len(vector['input']) / 2) > + bin_input =3D bytearray.fromhex(vector["input"]) > + str_input =3D str(bin_input) > + bin_key =3D binascii.a2b_hex(vector["auth_key"]) > + > + vector["aad"] =3D "00000000000000000000000000000000" > + > + hash_out =3D cm.EIA3(key=3Dbin_key, count=3D0, bearer=3D0, dir= =3D0, data=3Dstr_input, > bitlen=3DmBitlen) > + auth_str =3D hash_out.encode("hex").lower() > + > + return auth_str > + > + def __gen_null_hash(self, vector): > + auth_str =3D "" > + if (vector['chain'] =3D=3D "HASH_ONLY") or (vector['chain'] =3D= =3D "HASH_CIPHER"): > + auth_str =3D vector['input'] > + elif (vector['chain'] =3D=3D "CIPHER_HASH"): > + auth_str =3D vector['output_cipher'] > + return auth_str > + > + def __gen_hash_output(self, vector): > + if vector["chain"] =3D=3D "CIPHER_ONLY": > + vector["output_hash"] =3D=3D "" > + return > + > + if vector["output_hash"] !=3D "*": > + return > + > + if vector["chain"] =3D=3D "HASH_ONLY": > + vector["output_cipher"] =3D "" > + > + hash_str =3D "" > + > + if vector["chain"] =3D=3D "CIPHER_HASH": > + input_str =3D vector["output_cipher"] > + else: > + input_str =3D vector["input"] > + > + auth_algo =3D vector["auth_algo"] > + if auth_algo =3D=3D "md5-hmac": > + hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > + binascii.a2b_hex(input_str), hashlib.md5).hexdigest(= ) > + elif auth_algo =3D=3D "sha1-hmac": > + hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > + binascii.a2b_hex(input_str), hashlib.sha1).hexdigest= () > + elif auth_algo =3D=3D "sha2-224-hmac": > + hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > + binascii.a2b_hex(input_str), hashlib.sha224).hexdige= st() > + elif auth_algo =3D=3D "sha2-256-hmac": > + hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > + binascii.a2b_hex(input_str), hashlib.sha256).hexdige= st() > + elif auth_algo =3D=3D "sha2-384-hmac": > + hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > + binascii.a2b_hex(input_str), hashlib.sha384).hexdige= st() > + elif auth_algo =3D=3D "sha2-512-hmac": > + hash_str =3D hmac.new(binascii.a2b_hex(vector["auth_key"]), > + binascii.a2b_hex(input_str), hashlib.sha512).hexdige= st() > + elif auth_algo =3D=3D "aes-xcbc-mac": > + pass > + elif auth_algo =3D=3D "aes-gcm": > + key =3D binascii.a2b_hex(vector["cipher_key"]) > + iv =3D binascii.a2b_hex(vector["iv"]) > + aesgcm =3D AESGCM(key) > + hash_str =3D aesgcm.encrypt(iv, > + binascii.a2b_hex(vector["input"]), > + binascii.a2b_hex(vector["aad"])) > + hash_str =3D hash_str[-16:] > + hash_str =3D binascii.b2a_hex(hash_str) > + elif auth_algo =3D=3D "aes-ccm": > + key =3D binascii.a2b_hex(vector["cipher_key"]) > + iv =3D binascii.a2b_hex(vector["iv"]) > + aesccm =3D AESCCM(key) > + hash_str =3D aesccm.encrypt(iv, > + binascii.a2b_hex(vector["input"]), > + binascii.a2b_hex(vector["aad"])) > + hash_str =3D hash_str[-16:] > + hash_str =3D binascii.b2a_hex(hash_str) > + elif auth_algo =3D=3D "aes-gmac": > + pass > + elif auth_algo =3D=3D "snow3g-uia2": > + hash_str =3D self.__gen_snow3g_hash(vector) > + elif auth_algo =3D=3D "zuc-eia3": > + hash_str =3D self.__gen_zuc_hash(vector) > + elif auth_algo =3D=3D "kasumi-f9": > + hash_str =3D self.__gen_kasumi_hash(vector) > + elif auth_algo =3D=3D "null": > + hash_str =3D self.__gen_null_hash(vector) > + elif auth_algo =3D=3D "md5": > + hash_str =3D hashlib.md5(binascii.a2b_hex(vector["auth_key"= ])).hexdigest() > + elif auth_algo =3D=3D "sha1": > + hash_str =3D hashlib.sha1(binascii.a2b_hex(vector["auth_key"= ])).hexdigest() > + elif auth_algo =3D=3D "sha2-224": > + hash_str =3D hashlib.sha224(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > + elif auth_algo =3D=3D "sha2-256": > + hash_str =3D hashlib.sha256(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > + elif auth_algo =3D=3D "sha2-384": > + hash_str =3D hashlib.sha384(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > + elif auth_algo =3D=3D "sha2-512": > + hash_str =3D hashlib.sha512(binascii.a2b_hex(vector["auth_ke= y"])).hexdigest() > + else: > + pass > + vector["output_hash"] =3D hash_str.lower() > + self.__actually_pmd_hash(vector) > + > + def __gen_output(self, vector, cmds, core_mask=3D"", port_mask=3D"")= : > + if core_mask !=3D "-1": > + self.__gen_cipher_output(vector) > + self.__gen_hash_output(vector) > + cmds.append(vector) > + > + def __var2list(self, var): > + var_list =3D var if isinstance(var, list) else [var] > + return var_list > + > + def __is_valid_op(self, chain, op): > + chain_op_map =3D { > + "AEAD": ["ENCRYPT", "GENERATE"], > + "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 =3D { > + "aes-cbc": { > + "cipher_key": [16, 24, 32], > + "iv": [16], > + }, > + "aes-ctr": { > + "cipher_key": [16, 24, 32], > + "iv": [12, 16] > + }, > + "3des-cbc": { > + "cipher_key": [8, 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, 6= 4, 128, 155, 256, 1024, > 65535], > + "iv": [12, 16], > + "digest_size": [8,12,16] > + }, > + "aes-ccm": { > + "cipher_key": [16, 24, 32], > + "auth_key": [16, 24, 32], > + "aad": [0, 1, 2, 3, 4, 5, 6, 8, 9, 12, 16, 24, 32, 6= 4, 128, 155, 256, 1024, > 65535], > + "iv": [7, 8, 9, 10, 11, 12, 13], > + "digest_size": [4, 6, 8, 10, 12, 14, 16] > + }, > + "aes-docsisbpi": { > + "cipher_key": [16], > + "iv": [16], > + }, > + "des-docsisbpi": { > + "cipher_key": [8], > + "iv": [8], > + }, > + "des-cbc": { > + "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] > + }, > + "md5-hmac": { > + "auth_key": [64], > + "aad": [0], > + "digest_size": [12, 16] > + }, > + "sha1-hmac": { > + "auth_key": [64], > + "aad": [0], > + "digest_size": [12, 20] > + }, > + "sha2-224-hmac": { > + "auth_key": [64], > + "aad": [0], > + "digest_size": [14, 28] > + }, > + "sha2-256-hmac": { > + "auth_key": [64], > + "aad": [0], > + "digest_size": [16, 32] > + }, > + "sha2-384-hmac": { > + "auth_key": [128], > + "aad": [0], > + "digest_size": [24, 48] > + }, > + "sha2-512-hmac": { > + "auth_key": [128], > + "aad": [0], > + "digest_size": [32, 64] > + }, > + "aes-xcbc-mac": { > + "auth_key": [16], > + "aad": [0], > + "digest_size": [12, 16] > + }, > + "aes-gmac": { > + "auth_key": [16, 24, 32], > + "aad": [1, 12, 16, 64, 128, 256, 65535], > + "digest_size": [8, 12, 16] > + }, > + "snow3g-uia2": { > + "auth_key": [16], > + "aad": [16], > + "digest_size": [4] > + }, > + "kasumi-f9": { > + "auth_key": [16], > + "aad": [8], > + "digest_size": [4] > + }, > + "zuc-eia3": { > + "auth_key": [16], > + "aad": [16], > + "digest_size": [4] > + }, > + "md5": { > + "auth_key": [0], > + "aad": [0], > + "digest_size": [16] > + }, > + "sha1": { > + "auth_key": [0], > + "aad": [0], > + "digest_size": [20] > + }, > + "sha2-224": { > + "auth_key": [0], > + "aad": [0], > + "digest_size": [28] > + }, > + "sha2-256": { > + "auth_key": [0], > + "aad": [0], > + "digest_size": [32] > + }, > + "sha2-384": { > + "auth_key": [0], > + "aad": [0], > + "digest_size": [48] > + }, > + "sha2-512": { > + "auth_key": [0], > + "aad": [0], > + "digest_size": [64] > + }, > + } > + result =3D 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 =3D True > + return result > + > + def __actually_pmd_hash(self, vector): > + auth_algo_dgst_map =3D [ > + "md5-hmac", > + "sha1-hmac", > + "sha2-224-hmac", > + "sha2-256-hmac", > + "sha2-384-hmac", > + "sha2-512-hmac", > + "aes-xcbc-mac" > + ] > + if vector["auth_algo"] in auth_algo_dgst_map: > + digest =3D vector["digest_size"] > + if digest >=3D (len(vector["output_hash"]) / 2): > + vector["output_hash"] =3D vector["output_hash"] > + else: > + vector["output_hash"] =3D (vector["output_hash"])[0:2*di= gest] > + > + def __iter_cipher_algo(self, vector, vector_list, core_mask=3D"", po= rt_mask=3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "HASH_ONLY": > + test_vector["cipher_algo"] =3D "" > + self.__iter_cipher_op(test_vector, vector_list, core_mask, p= ort_mask) > + else: > + cipher_algo_list =3D self.__var2list(test_vector["cipher_alg= o"]) > + for cipher_algo in cipher_algo_list: > + test_vector =3D vector.copy() > + test_vector["cipher_algo"] =3D cipher_algo > + self.__iter_cipher_op(test_vector, vector_list, core_mas= k, port_mask) > + > + def __iter_cipher_op(self, vector, vector_list, core_mask=3D"", port= _mask=3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "HASH_ONLY": > + test_vector["cipher_op"] =3D "" > + self.__iter_cipher_key(test_vector, vector_list, core_mask, = port_mask) > + else: > + cipher_op_list =3D 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 =3D vector.copy() > + test_vector["cipher_op"] =3D cipher_op > + self.__iter_cipher_key(test_vector, vector_list, > + core_mask, port_mask) > + > + def __iter_cipher_key(self, vector, vector_list, core_mask=3D"", por= t_mask=3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "HASH_ONLY": > + test_vector["cipher_key"] =3D "" > + self.__iter_iv(test_vector, vector_list, core_mask, port_mas= k) > + else: > + cipher_key_list =3D self.__var2list(test_vector["cipher_key"= ]) > + for cipher_key in cipher_key_list: > + test_vector =3D vector.copy() > + if isinstance(cipher_key, int): > + if self.__is_valid_size("cipher_key", > + test_vector["cipher_algo"], > + cipher_key): > + test_vector["cipher_key"] =3D self.__gen_key(cip= her_key) > + self.__iter_iv(test_vector, vector_list, core_ma= sk, port_mask) > + else: > + continue > + else: > + test_vector["cipher_key"] =3D cipher_key > + self.__iter_iv(test_vector, vector_list, core_mask, = port_mask) > + > + def __iter_iv(self, vector, vector_list, core_mask=3D"", port_mask= =3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "HASH_ONLY": > + test_vector["iv"] =3D "" > + self.__iter_auth_algo(test_vector, vector_list, core_mask, p= ort_mask) > + else: > + iv_list =3D self.__var2list(test_vector["iv"]) > + for iv in iv_list: > + test_vector =3D vector.copy() > + if isinstance(iv, int): > + if self.__is_valid_size("iv", > + test_vector["cipher_algo"], > + iv): > + test_vector["iv"] =3D self.__gen_key(iv) > + self.__iter_auth_algo(test_vector, vector_list, > + core_mask, port_mask) > + else: > + continue > + else: > + test_vector["iv"] =3D iv > + self.__iter_auth_algo(test_vector, vector_list, > + core_mask, port_mask) > + > + def __iter_auth_algo(self, vector, vector_list, core_mask=3D"", port= _mask=3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "CIPHER_ONLY": > + test_vector["auth_algo"] =3D "" > + self.__iter_auth_op(test_vector, vector_list, core_mask, por= t_mask) > + else: > + auth_algo_list =3D self.__var2list(test_vector["auth_algo"]) > + for auth_algo in auth_algo_list: > + test_vector =3D vector.copy() > + test_vector["auth_algo"] =3D auth_algo > + self.__iter_auth_op(test_vector, vector_list, core_mask,= port_mask) > + > + def __iter_auth_op(self, vector, vector_list, core_mask=3D"", port_m= ask=3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "CIPHER_ONLY": > + test_vector["auth_op"] =3D "" > + self.__iter_auth_key(test_vector, vector_list, core_mask, po= rt_mask) > + else: > + auth_op_list =3D 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 =3D vector.copy() > + test_vector["auth_op"] =3D auth_op > + self.__iter_auth_key(test_vector, vector_list, > + core_mask, port_mask) > + > + def __iter_auth_key(self, vector, vector_list, core_mask=3D"", port_= mask=3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "CIPHER_ONLY": > + test_vector["auth_key"] =3D "" > + self.__iter_aad(test_vector, vector_list, core_mask, port_ma= sk) > + else: > + auth_key_list =3D self.__var2list(test_vector["auth_key"]) > + for auth_key in auth_key_list: > + test_vector =3D vector.copy() > + if isinstance(auth_key, int): > + if self.__is_valid_size("auth_key", > + test_vector["auth_algo"], > + auth_key): > + test_vector["auth_key"] =3D self.__gen_key(auth_= key) > + self.__iter_aad(test_vector, vector_list, core_m= ask, port_mask) > + else: > + continue > + else: > + test_vector["auth_key"] =3D auth_key > + self.__iter_aad(test_vector, vector_list, core_mask,= port_mask) > + > + def __iter_aad(self, vector, vector_list, core_mask=3D"", port_mask= =3D""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "CIPHER_ONLY": > + test_vector["aad"] =3D "" > + self.__digest_size(test_vector, vector_list, core_mask, port= _mask) > + else: > + aad_list =3D self.__var2list(test_vector["aad"]) > + for aad in aad_list: > + test_vector =3D vector.copy() > + if isinstance(aad, int): > + if self.__is_valid_size("aad", > + test_vector["auth_algo"], > + aad): > + test_vector["aad"] =3D self.__gen_key(aad) > + self.__digest_size(test_vector, vector_list, > + core_mask, port_mask) > + else: > + continue > + else: > + test_vector["aad"] =3D aad > + self.__digest_size(test_vector, vector_list, > + core_mask, port_mask) > + > + def __digest_size(self, vector, vector_list, core_mask =3D "", port_= mask =3D ""): > + test_vector =3D vector.copy() > + if test_vector["chain"] =3D=3D "CIPHER_ONLY": > + test_vector["digest_size"] =3D "" > + self.__iter_input(test_vector, vector_list, core_mask, port_= mask) > + else: > + digest_list =3D self.__var2list(test_vector["digest_size"]) > + for digest in digest_list: > + test_vector =3D vector.copy() > + if isinstance(digest, int): > + if self.__is_valid_size("digest_size", > + test_vector["auth_algo"], > + digest): > + test_vector["digest_size"] =3D digest > + self.__iter_input(test_vector, vector_list, > + core_mask, port_mask) > + else: > + continue > + else: > + test_vector["digest_size"] =3D digest > + self.__iter_input(test_vector, vector_list, > + core_mask, port_mask) > + > + def __iter_input(self, vector, vector_list, core_mask=3D"", port_mas= k=3D""): > + input_list =3D self.__var2list(vector["input"]) > + for input_data in input_list: > + test_vector =3D vector.copy() > + if isinstance(input_data, int): > + test_vector["input"] =3D self.__gen_input(input_data) > + else: > + test_vector["input"] =3D input_data > + > + self.__gen_output(test_vector, vector_list, core_mask, port_= mask) > + > + def __test_vector_to_vector_list(self, test_vector, core_mask=3D"", = port_mask=3D""): > + vector_list =3D [] > + > + chain_list =3D self.__var2list(test_vector["chain"]) > + > + for chain in chain_list: > + test_vector["chain"] =3D chain > + self.__iter_cipher_algo(test_vector, vector_list, core_mask,= port_mask) > + return vector_list > + > + > +test_vectors =3D { > + "qat_AES_CBC_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-cbc"], > + "cipher_op": ["ENCRYPT", "DECRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_AES_CTR_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-ctr"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_AES_GCM_00": { > + "vdev": "", > + "chain": ["AEAD"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-gcm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-gcm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_AES_CCM_00": { > + "vdev": "", > + "chain": ["AEAD"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-ccm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16], > + "iv": [7, 8, 9, 10, 11, 12, 13], > + "auth_algo": ["aes-ccm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [8], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_h_MD_SHA_00": { > + "vdev": "", > + "chain": ["HASH_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-2= 56-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 16, 20, 28, 48, 64], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_h_AES_XCBC_MAC_01": { > + "vdev": "", > + "chain": "HASH_ONLY", > + "cdev_type": "HW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["aes-xcbc-mac"], > + "auth_op": "GENERATE", > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_DES_CBC_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["des-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [8], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_3DES_CBC_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["3des-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [8, 16, 24], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_3DES_CTR_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["3des-ctr"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [24], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": > "470c43ce135176ff34300c11b8a5dc463be774851c405eb67a3c54e\ > +30707b6ac47b1dca58d5a2dab1dee452f7712f1803709d100608f8df9786156e46 > 56ff60cb6a2f722\ > +e6a96932fa0dbba8c4941e61b8ca2b5903bc724d5f68856b9e6f66d7b4e42cc49b4 > 4bb85b7ce2f1c5\ > +21e1a2719a47097922e0b627bbee2918ac5c5caf84d9e62d772fc676d3bce0bb17 > b95cb5e1477da05\ > +1aebbdbbf2a7037237a3537c738aadbfff3d3f2b3be5ddbcc7213e265705224961a > df48f8df3ba8a8\ > +fc2ab337f7031a0f20636c82074a6bebcf91f06e04d45fa1dcc8454b6be54e53e3f9c > 99f0f830b16a\ > +7a452e75e15894bf869fc585090c8c4bfbdb9f2a6246f4308300", > + "output_hash": "*" > + }, > + > + "qat_c_UEA2_01": { > + "vdev": "", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": ["snow3g-uea2"], > + "cipher_op": ["ENCRYPT"], > + "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": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_h_UIA2_01": { > + "vdev": "", > + "chain": ["HASH_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["snow3g-uia2"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [4], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_kasumi_c_F8_01": { > + "vdev": "", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": ["kasumi-f8"], > + "cipher_op": ["ENCRYPT"], > + "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": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_kasumi_h_F9_01": { > + "vdev": "", > + "chain": ["HASH_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["kasumi-f9"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": "", > + "aad_random_size": "", > + "input": [256], > + "digest_size": [4], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_c_EEA3_01": { > + "vdev": "", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": ["zuc-eea3"], > + "cipher_op": ["ENCRYPT"], > + "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": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_h_EIA3_01": { > + "vdev": "", > + "chain": ["HASH_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["zuc-eia3"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [4], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_NULL_auto": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "HASH_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["null"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [0], > + "iv": "", > + "auth_algo": ["null"], > + "auth_op": "", > + "auth_key": [0], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "digest": "", > + "input": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "aesni_mb_AES_CBC_00": { > + "vdev": "crypto_aesni_mb", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 14, 16, 24, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "aesni_mb_AES_CTR_00": { > + "vdev": "crypto_aesni_mb", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-ctr"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 14, 16, 24, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "aesni_mb_hash_00": { > + "vdev": "crypto_aesni_mb", > + "chain": ["HASH_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-25= 6-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 14, 16, 24, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "aesni_mb_AES_CCM_00": { > + "vdev": "crypto_aesni_mb", > + "chain": ["AEAD"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-ccm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16], > + "iv": [7, 8, 9, 10 ,11, 12, 13], > + "auth_algo": ["aes-ccm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [8], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "aesni_mb_3DES_CBC_00": { > + "vdev": "crypto_aesni_mb", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["3des-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [8, 16, 24], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [0, 64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 14, 16, 24, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + "aesni_mb_h_MD_SHA_00": { > + "vdev": "crypto_aesni_mb_pmd", > + "chain": ["HASH_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-25= 6-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [0, 64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 16, 20, 28, 48, 64], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "null_NULL_auto": { > + "vdev": "crypto_null_pmd", > + "chain": ["CIPHER_ONLY", "HASH_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["null"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [0], > + "iv": [0], > + "auth_algo": ["null"], > + "auth_op": ["GENERATE"], > + "auth_key": [0], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "digest": "", > + "input": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "aesni_gcm_aead_AES_GCM_01": { > + "vdev": "crypto_aesni_gcm_pmd", > + "chain": ["AEAD"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-gcm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-gcm", "aes-gmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "aesni_gcm_aead_AES_CCM_01": { > + "vdev": "crypto_aesni_gcm_pmd", > + "chain": ["AEAD"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-ccm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16], > + "iv": [12], > + "auth_algo": ["aes-ccm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "kasumi_c_F8_01": { > + "vdev": "crypto_kasumi_pmd", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": ["kasumi-f8"], > + "cipher_op": ["ENCRYPT"], > + "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": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "kasumi_h_F9_01": { > + "vdev": "crypto_kasumi_pmd", > + "chain": ["HASH_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["kasumi-f9"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": "", > + "aad_random_size": "", > + "input": [256], > + "digest_size": [4], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "snow3g_c_UEA2_01": { > + "vdev": "crypto_snow3g_pmd", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": ["snow3g-uea2"], > + "cipher_op": ["ENCRYPT"], > + "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": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "snow3g_h_UIA2_01": { > + "vdev": "crypto_snow3g_pmd", > + "chain": ["HASH_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["snow3g-uia2"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [4], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "zuc_c_EEA3_01": { > + "vdev": "crypto_zuc_pmd", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": ["zuc-eea3"], > + "cipher_op": ["ENCRYPT"], > + "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": [256], > + "digest_size": "", > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "zuc_h_EIA3_01": { > + "vdev": "crypto_zuc_pmd", > + "chain": ["HASH_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["zuc-eia3"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [4], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "openssl_3DES_CBC_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["3des-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [8, 16, 24], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [0, 64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "openssl_3DES_CTR_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["3des-ctr"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [24], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [0, 64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": > "470c43ce135176ff34300c11b8a5dc463be774851c405eb67a3c54e\ > +30707b6ac47b1dca58d5a2dab1dee452f7712f1803709d100608f8df9786156e46 > 56ff60cb6a2f722\ > +e6a96932fa0dbba8c4941e61b8ca2b5903bc724d5f68856b9e6f66d7b4e42cc49b4 > 4bb85b7ce2f1c5\ > +21e1a2719a47097922e0b627bbee2918ac5c5caf84d9e62d772fc676d3bce0bb17 > b95cb5e1477da05\ > +1aebbdbbf2a7037237a3537c738aadbfff3d3f2b3be5ddbcc7213e265705224961a > df48f8df3ba8a8\ > +fc2ab337f7031a0f20636c82074a6bebcf91f06e04d45fa1dcc8454b6be54e53e3f9c > 99f0f830b16a\ > +7a452e75e15894bf869fc585090c8c4bfbdb9f2a6246f4308300", > + "output_hash": "*" > + }, > + > + "openssl_AES_CBC_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "openssl_AES_CTR_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-ctr"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 28, 32, 48], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "openssl_AES_GCM_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["AEAD"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-gcm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-gcm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "openssl_AES_CCM_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["AEAD"], > + "cdev_type": "SW", > + "cipher_algo": ["aes-ccm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-ccm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "openssl_h_MD_SHA_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["HASH_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "", > + "cipher_op": "", > + "cipher_key": "", > + "iv": "", > + "auth_algo": ["md5-hmac", "sha1-hmac", "sha2-224-hmac", "sha2-25= 6-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [0, 64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 16, 20, 28, 48, 64], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "qat_AES_DOCSISBPI_01": { > + "vdev": "", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": "aes-docsisbpi", > + "cipher_op": ["ENCRYPT"], > + "cipher_key": "e6600fd8852ef5abe6600fd8852ef5ab", > + "iv": "810e528e1c5fda1a810e528e1c5fda1a", > + "auth_algo": "", > + "auth_op": "", > + "auth_key": "", > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": "000102030405060708090a0b0c0d0e91d2d19f", > + "digest_size": "", > + "output_cipher": "9dd1674bba61101b56756474364f101d44d473", > + "output_hash": "*" > + }, > + > + "qat_DES_DOCSISBPI_01": { > + "vdev": "", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "HW", > + "cipher_algo": "des-docsisbpi", > + "cipher_op": ["ENCRYPT"], > + "cipher_key": "e6600fd8852ef5ab", > + "iv": "810e528e1c5fda1a", > + "auth_algo": "", > + "auth_op": "", > + "auth_key": "", > + "auth_key_random_size": "", > + "aad": "", > + "aad_random_size": "", > + "input": > "000102030405060708090a0b0c0d0e910001020304050607d2d19f", > + "digest_size": "", > + "output_cipher": > "0dda5acbd05e5567514746868a71e577bdb2125f9f72be230e9fb2", > + "output_hash": "*" > + }, > + > + "aesni_mb_AES_DOCSISBPI_01": { > + "vdev": "crypto_aesni_mb", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "aes-docsisbpi", > + "cipher_op": ["ENCRYPT"], > + "cipher_key": "e6600fd8852ef5abe6600fd8852ef5ab", > + "iv": "810e528e1c5fda1a810e528e1c5fda1a", > + "auth_algo": "", > + "auth_op": "", > + "auth_key": "", > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": "000102030405060708090a0b0c0d0e91d2d19f", > + "digest_size": "", > + "output_cipher": "9dd1674bba61101b56756474364f101d44d473", > + "output_hash": "*" > + }, > + > + "openssl_DES_DOCSISBPI_01": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "des-docsisbpi", > + "cipher_op": ["ENCRYPT"], > + "cipher_key": "e6600fd8852ef5ab", > + "iv": "810e528e1c5fda1a", > + "auth_algo": "", > + "auth_op": "", > + "auth_key": "", > + "auth_key_random_size": "", > + "aad": "", > + "aad_random_size": "", > + "input": > "000102030405060708090a0b0c0d0e910001020304050607d2d19f", > + "digest_size": "", > + "output_cipher": > "0dda5acbd05e5567514746868a71e577bdb2125f9f72be230e9fb2", > + "output_hash": "*" > + }, > + > + "aesni_mb_DES_DOCSISBPI_01": { > + "vdev": "crypto_aesni_mb", > + "chain": ["CIPHER_ONLY"], > + "cdev_type": "SW", > + "cipher_algo": "des-docsisbpi", > + "cipher_op": ["ENCRYPT"], > + "cipher_key": "e6600fd8852ef5ab", > + "iv": "810e528e1c5fda1a", > + "auth_algo": "", > + "auth_op": "", > + "auth_key": "", > + "auth_key_random_size": "", > + "aad": "", > + "aad_random_size": "", > + "input": > "000102030405060708090a0b0c0d0e910001020304050607d2d19f", > + "digest_size": "", > + "output_cipher": > "0dda5acbd05e5567514746868a71e577bdb2125f9f72be230e9fb2", > + "output_hash": "*" > + }, > + > + "aesni_mb_DES_CBC_00": { > + "vdev": "crypto_aesni_mb", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["des-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [8], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 14, 16, 24, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "openssl_DES_CBC_00": { > + "vdev": "crypto_openssl_pmd", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "SW", > + "cipher_algo": ["des-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [8], > + "iv": [8], > + "auth_algo": ["sha1-hmac", "sha2-224-hmac", "sha2-256-hmac", > + "sha2-384-hmac", "sha2-512-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64, 128], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [12, 14, 16, 24, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_rr_AES_CBC_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-cbc"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-256-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_rr_AES_GCM_00": { > + "vdev": "", > + "chain": ["AEAD"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-gcm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-gcm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_psb_AES_CBC_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-cbc"], > + "cipher_op": ["ENCRYPT", "DECRYPT"], > + "cipher_key": [16], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-256-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_psb_AES_GCM_00": { > + "vdev": "", > + "chain": ["AEAD"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-gcm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-gcm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_fo_AES_CBC_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-cbc"], > + "cipher_op": ["ENCRYPT", "DECRYPT"], > + "cipher_key": [16], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-256-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_fo_AES_GCM_00": { > + "vdev": "", > + "chain": ["AEAD"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-gcm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-gcm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_mm_AES_CBC_00": { > + "vdev": "", > + "chain": ["CIPHER_ONLY", "CIPHER_HASH"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-cbc"], > + "cipher_op": ["ENCRYPT", "DECRYPT"], > + "cipher_key": [16], > + "iv": [16], > + "auth_algo": ["sha1-hmac", "sha2-256-hmac"], > + "auth_op": ["GENERATE"], > + "auth_key": [64], > + "auth_key_random_size": "", > + "aad": [0], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [20, 32], > + "output_cipher": "*", > + "output_hash": "*" > + }, > + > + "scheduler_mm_AES_GCM_00": { > + "vdev": "", > + "chain": ["AEAD"], > + "cdev_type": "HW", > + "cipher_algo": ["aes-gcm"], > + "cipher_op": ["ENCRYPT"], > + "cipher_key": [16, 24, 32], > + "iv": [12], > + "auth_algo": ["aes-gcm"], > + "auth_op": ["GENERATE"], > + "auth_key": [16], > + "auth_key_random_size": "", > + "aad": [16], > + "aad_random_size": "", > + "input": [256], > + "digest_size": [16], > + "output_cipher": "*", > + "output_hash": "*" > + }, > +} > -- > 2.7.4