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77c3d504b2
BUG: https://bugzilla.samba.org/show_bug.cgi?id=11451 Signed-off-by: Stefan Metzmacher <metze@samba.org> Reviewed-by: Jeremy Allison <jra@samba.org>
377 lines
9.4 KiB
C
377 lines
9.4 KiB
C
/*
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AES-CCM-128 tests
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Copyright (C) Stefan Metzmacher 2015
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "replace.h"
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#include "../lib/util/samba_util.h"
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#include "../lib/crypto/crypto.h"
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#include "../lib/crypto/aes_test.h"
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#ifndef AES_CCM_128_ONLY_TESTVECTORS
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struct torture_context;
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bool torture_local_crypto_aes_ccm_128(struct torture_context *torture);
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/*
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This uses our own test values as we rely on a 11 byte nonce
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and the values from rfc rfc3610 use 13 byte nonce.
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*/
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bool torture_local_crypto_aes_ccm_128(struct torture_context *tctx)
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{
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bool ret = true;
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uint32_t i;
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struct aes_mode_testvector testarray[] = {
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#endif /* AES_CCM_128_ONLY_TESTVECTORS */
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#define AES_CCM_128_TESTVECTOR(_k, _n, _a, _p, _c, _t) \
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AES_MODE_TESTVECTOR(aes_ccm_128, _k, _n, _a, _p, _c, _t)
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AES_CCM_128_TESTVECTOR(
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/* K */
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"8BF9FBC2B8149484FF11AB1F3A544FF6",
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/* N */
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"010000000000000077F7A8",
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/* A */
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"010000000000000077F7A80000000000"
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"A8000000000001004100002C00980000",
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/* P */
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"FE534D4240000100000000000B00811F"
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"00000000000000000600000000000000"
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"00000000010000004100002C00980000"
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"00000000000000000000000000000000"
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"3900000094010600FFFFFFFFFFFFFFFF"
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"FFFFFFFFFFFFFFFF7800000030000000"
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"000000007800000000000000FFFF0000"
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"0100000000000000"
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"03005C003100370032002E0033003100"
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"2E0039002E003100380033005C006E00"
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"650074006C006F0067006F006E000000",
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/* C */
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"25985364BF9AF90EB0B9C8FB55B7C446"
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"780F310F1EC4677726BFBF34E38E6408"
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"057EE228814F11CBAAB794A79F7A1F78"
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"2DE73B7477985360A02D35A7A347ABF7"
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"9F18DD8687767423BB08F18642B6EFEE"
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"8B1543D83091AF5952F58BB4BD89FF6B"
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"0206E7170481C7BC61F06653D0CF10F7"
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"C78380389382C276"
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"7B8BF34D687A5C3D4F783F926F7755C0"
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"2D44C30848C69CFDD8E54395F1881611"
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"E5502285870A7179068923105190C837",
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/* T */
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"3C11F652F8EA5600C8607D2E0FEAFD42"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"f9fdca4ac64fe7f014de0f43039c7571",
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/* N */
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"5a8aa485c316e947125478",
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/* A */
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"3796cf51b8726652a4204733b8fbb047"
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"cf00fb91a9837e22ec22b1a268f88e2c",
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/* P */
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"a265480ca88d5f536db0dc6abc40faf0"
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"d05be7a9669777682345647586786983",
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/* C */
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"65F8D8422006FB77FB7CCEFDFFF93729"
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"B3EFCB06A0FAF3A2ABAB485723373F53",
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/* T */
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"2C62BD82AD231887A7B326E1E045BC91"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"197afb02ffbd8f699dacae87094d5243",
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/* N */
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"5a8aa485c316e947125478",
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/* A */
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"",
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/* P */
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"3796cf51b8726652a4204733b8fbb047"
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"cf00fb91a9837e22",
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/* C */
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"CA53910394115C5DAB5D7250F04D6A27"
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"2BCFA4329528F3AC",
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/* T */
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"38E3A318F9BA88D4DD2FAF3521820001"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"90929a4b0ac65b350ad1591611fe4829",
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/* N */
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"5a8aa485c316e9403aff85",
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/* A */
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"",
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/* P */
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"a16a2e741f1cd9717285b6d882c1fc53"
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"655e9773761ad697",
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/* C */
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"ACA5E98D2784D131AE76E3C8BF9C3988"
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"35C0206C71893F26",
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/* T */
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"AE67C0EA38C5383BFDC7967F4E9D1678"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"f9fdca4ac64fe7f014de0f43039c7571",
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/* N */
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"5a8aa485c316e947125478",
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/* A */
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"3796cf51b8726652a4204733b8fbb047"
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"cf00fb91a9837e22ec22b1a268f88e2c",
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/* P */
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"a265480ca88d5f536db0dc6abc40faf0"
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"d05be7a966977768",
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/* C */
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"65F8D8422006FB77FB7CCEFDFFF93729"
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"B3EFCB06A0FAF3A2",
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/* T */
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"03C6E244586AFAB9B60D9F6DBDF7EB1A"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"26511fb51fcfa75cb4b44da75a6e5a0e",
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/* N */
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"5a8aa485c316e9403aff85",
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/* A */
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"a16a2e741f1cd9717285b6d882c1fc53"
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"655e9773761ad697a7ee6410184c7982",
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/* P */
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"8739b4bea1a099fe547499cbc6d1b13d"
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"849b8084c9b6acc5",
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/* C */
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"D31F9FC23674D5272125375E0A2F5365"
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"41B1FAF1DD68C819",
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/* T */
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"4F315233A76C4DD99972561C5158AB3B"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"f9fdca4ac64fe7f014de0f43039c7571",
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/* N */
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"5a8aa485c316e947125478",
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/* A */
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"3796cf51b8726652a4204733b8fbb047"
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"cf00fb91a9837e22ec22b1a268",
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/* P */
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"a265480ca88d5f536db0dc6abc40faf0"
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"d05be7a9669777682376345745",
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/* C */
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"65F8D8422006FB77FB7CCEFDFFF93729"
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"B3EFCB06A0FAF3A2AB981875E0",
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/* T */
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"EA93AAEDA607226E9E79D2EE5C4B62F8"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"26511fb51fcfa75cb4b44da75a6e5a0e",
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/* N */
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"5a8aa485c316e9403aff85",
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/* A */
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"a16a2e741f1cd9717285b6d882c1fc53"
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"65",
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/* P */
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"8739b4bea1a099fe547499cbc6d1b13d"
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"84",
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/* C */
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"D31F9FC23674D5272125375E0A2F5365"
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"41",
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/* T */
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"036F58DA2372B29BD0E01C58A0E7F9EE"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"00000000000000000000000000000000",
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/* N */
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"0000000000000000000000",
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/* A */
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"",
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/* P */
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"00",
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/* C */
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"2E",
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/* T */
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"61787D2C432A58293B73D01154E61B6B"
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),
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AES_CCM_128_TESTVECTOR(
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/* K */
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"00000000000000000000000000000000",
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/* N */
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"0000000000000000000000",
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/* A */
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"00",
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/* P */
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"00",
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/* C */
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"2E",
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/* T */
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"E4284A0E813F0FFA146CF59F9ADAFBD7"
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),
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#ifndef AES_CCM_128_ONLY_TESTVECTORS
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};
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for (i=0; i < ARRAY_SIZE(testarray); i++) {
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struct aes_ccm_128_context ctx;
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uint8_t T[AES_BLOCK_SIZE];
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DATA_BLOB _T = data_blob_const(T, sizeof(T));
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DATA_BLOB C;
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int e;
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C = data_blob_dup_talloc(tctx, testarray[i].P);
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aes_ccm_128_init(&ctx, testarray[i].K.data, testarray[i].N.data,
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testarray[i].A.length, testarray[i].P.length);
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aes_ccm_128_update(&ctx,
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testarray[i].A.data,
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testarray[i].A.length);
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aes_ccm_128_update(&ctx, C.data, C.length);
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aes_ccm_128_crypt(&ctx, C.data, C.length);
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aes_ccm_128_digest(&ctx, T);
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e = memcmp(testarray[i].T.data, T, sizeof(T));
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], NULL, &C, &_T);
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ret = false;
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goto fail;
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}
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e = memcmp(testarray[i].C.data, C.data, C.length);
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], NULL, &C, &_T);
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ret = false;
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goto fail;
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}
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}
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for (i=0; i < ARRAY_SIZE(testarray); i++) {
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struct aes_ccm_128_context ctx;
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uint8_t T[AES_BLOCK_SIZE];
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DATA_BLOB _T = data_blob_const(T, sizeof(T));
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DATA_BLOB C;
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int e;
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size_t j;
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C = data_blob_dup_talloc(tctx, testarray[i].P);
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aes_ccm_128_init(&ctx, testarray[i].K.data, testarray[i].N.data,
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testarray[i].A.length, testarray[i].P.length);
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for (j=0; j < testarray[i].A.length; j++) {
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aes_ccm_128_update(&ctx, NULL, 0);
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aes_ccm_128_update(&ctx, &testarray[i].A.data[j], 1);
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aes_ccm_128_update(&ctx, NULL, 0);
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}
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for (j=0; j < C.length; j++) {
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aes_ccm_128_crypt(&ctx, NULL, 0);
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aes_ccm_128_update(&ctx, NULL, 0);
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aes_ccm_128_update(&ctx, &C.data[j], 1);
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aes_ccm_128_crypt(&ctx, &C.data[j], 1);
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aes_ccm_128_crypt(&ctx, NULL, 0);
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aes_ccm_128_update(&ctx, NULL, 0);
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}
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aes_ccm_128_digest(&ctx, T);
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e = memcmp(testarray[i].T.data, T, sizeof(T));
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], NULL, &C, &_T);
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ret = false;
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goto fail;
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}
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e = memcmp(testarray[i].C.data, C.data, C.length);
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], NULL, &C, &_T);
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ret = false;
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goto fail;
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}
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}
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for (i=0; i < ARRAY_SIZE(testarray); i++) {
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struct aes_ccm_128_context ctx;
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uint8_t T[AES_BLOCK_SIZE];
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DATA_BLOB _T = data_blob_const(T, sizeof(T));
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DATA_BLOB P;
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int e;
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size_t j;
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P = data_blob_dup_talloc(tctx, testarray[i].C);
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aes_ccm_128_init(&ctx, testarray[i].K.data, testarray[i].N.data,
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testarray[i].A.length, testarray[i].P.length);
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for (j=0; j < testarray[i].A.length; j++) {
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aes_ccm_128_update(&ctx, NULL, 0);
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aes_ccm_128_update(&ctx, &testarray[i].A.data[j], 1);
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aes_ccm_128_update(&ctx, NULL, 0);
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}
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for (j=0; j < P.length; j++) {
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aes_ccm_128_crypt(&ctx, NULL, 0);
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aes_ccm_128_update(&ctx, NULL, 0);
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aes_ccm_128_crypt(&ctx, &P.data[j], 1);
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aes_ccm_128_update(&ctx, &P.data[j], 1);
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aes_ccm_128_crypt(&ctx, NULL, 0);
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aes_ccm_128_update(&ctx, NULL, 0);
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}
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aes_ccm_128_digest(&ctx, T);
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e = memcmp(testarray[i].T.data, T, sizeof(T));
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], &P, NULL, &_T);
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ret = false;
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goto fail;
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}
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e = memcmp(testarray[i].P.data, P.data, P.length);
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], &P, NULL, &_T);
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ret = false;
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goto fail;
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}
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}
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for (i=0; i < ARRAY_SIZE(testarray); i++) {
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struct aes_ccm_128_context ctx;
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uint8_t T[AES_BLOCK_SIZE];
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DATA_BLOB _T = data_blob_const(T, sizeof(T));
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DATA_BLOB P;
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int e;
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P = data_blob_dup_talloc(tctx, testarray[i].C);
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aes_ccm_128_init(&ctx, testarray[i].K.data, testarray[i].N.data,
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testarray[i].A.length, testarray[i].P.length);
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aes_ccm_128_update(&ctx, testarray[i].A.data, testarray[i].A.length);
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aes_ccm_128_crypt(&ctx, P.data, P.length);
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aes_ccm_128_update(&ctx, P.data, P.length);
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aes_ccm_128_digest(&ctx, T);
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e = memcmp(testarray[i].T.data, T, sizeof(T));
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], &P, NULL, &_T);
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ret = false;
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goto fail;
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}
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e = memcmp(testarray[i].P.data, P.data, P.length);
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if (e != 0) {
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aes_mode_testvector_debug(&testarray[i], &P, NULL, &_T);
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ret = false;
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goto fail;
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}
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}
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fail:
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return ret;
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}
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#endif /* AES_CCM_128_ONLY_TESTVECTORS */
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