mirror of
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153 lines
8.1 KiB
C++
153 lines
8.1 KiB
C++
/**
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* Copyright (C) 2004 Brad Hards <bradh@frogmouth.net>
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "randomunittest.h"
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#include <QtCrypto>
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RandomUnitTest::RandomUnitTest()
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: Tester()
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{
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}
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void RandomUnitTest::allTests()
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{
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QCA::Initializer init;
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QCA::Random rng = QCA::globalRNG( );
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CHECK( rng.provider()->name(), QString( "qca-botan" ) );
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QCA::setGlobalRNG( "default" );
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rng = QCA::globalRNG( );
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CHECK( rng.provider()->name(), QString( "default" ) );
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{
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QCA::Random randObject ("default");
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CHECK( randObject.nextByte() == randObject.nextByte(), false );
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CHECK( QCA::Random().nextByte() == QCA::Random().nextByte(), false );
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CHECK( randObject.nextBytes(4) == randObject.nextBytes(4), false );
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CHECK( randObject.nextBytes(100) == randObject.nextBytes(100), false );
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CHECK( randObject.randomChar() == randObject.randomChar(), false );
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CHECK( QCA::Random().randomChar() == QCA::Random().randomChar(), false );
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CHECK( QCA::Random::randomChar() == QCA::Random::randomChar(), false );
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CHECK( QCA::Random().randomInt() == QCA::Random().randomInt(), false );
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CHECK( QCA::Random::randomInt() == QCA::Random::randomInt(), false );
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CHECK( QCA::Random().randomArray(3) == QCA::Random().randomArray(3), false );
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CHECK( QCA::Random::randomArray(3) == QCA::Random::randomArray(3), false );
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CHECK( randObject.nextByte(QCA::Random::Nonce) == randObject.nextByte(QCA::Random::SessionKey), false );
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CHECK( QCA::Random().nextByte(QCA::Random::PublicValue) == QCA::Random().nextByte(), false );
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CHECK( randObject.nextBytes(4) == randObject.nextBytes(4, QCA::Random::Nonce), false );
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CHECK( randObject.randomChar(QCA::Random::LongTermKey) == randObject.randomChar(), false );
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CHECK( QCA::Random().randomChar() == QCA::Random().randomChar(QCA::Random::PublicValue), false );
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CHECK( QCA::Random::randomChar(QCA::Random::PublicValue) == QCA::Random::randomChar(QCA::Random::Nonce), false );
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CHECK( QCA::Random().randomInt(QCA::Random::Nonce) == QCA::Random().randomInt(), false );
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CHECK( QCA::Random::randomInt(QCA::Random::Nonce) == QCA::Random::randomInt(QCA::Random::Nonce), false );
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CHECK( QCA::Random().randomArray(3, QCA::Random::Nonce) == QCA::Random().randomArray(3), false );
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CHECK( QCA::Random::randomArray(3, QCA::Random::SessionKey) == QCA::Random::randomArray(3, QCA::Random::PublicValue), false );
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for (int len = 1; len <= 1024; len*=2 ) {
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CHECK( QCA::globalRNG().nextBytes(len, QCA::Random::SessionKey).size(), len );
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}
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}
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QCA::setGlobalRNG( "qca-botan" );
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QCA::Random rng1 = QCA::globalRNG();
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CHECK( rng1.provider()->name(), QString( "qca-botan" ) );
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{
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QCA::Random randObject ( "qca-botan" );
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CHECK( randObject.nextByte() == randObject.nextByte(), false );
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CHECK( QCA::Random().nextByte() == QCA::Random().nextByte(), false );
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CHECK( randObject.nextBytes(4) == randObject.nextBytes(4), false );
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CHECK( randObject.nextBytes(100) == randObject.nextBytes(100), false );
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CHECK( randObject.randomChar() == randObject.randomChar(), false );
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CHECK( QCA::Random().randomChar() == QCA::Random().randomChar(), false );
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CHECK( QCA::Random::randomChar() == QCA::Random::randomChar(), false );
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CHECK( QCA::Random().randomInt() == QCA::Random().randomInt(), false );
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CHECK( QCA::Random::randomInt() == QCA::Random::randomInt(), false );
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CHECK( QCA::Random().randomArray(3) == QCA::Random().randomArray(3), false );
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CHECK( QCA::Random::randomArray(3) == QCA::Random::randomArray(3), false );
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CHECK( randObject.nextByte(QCA::Random::Nonce) == randObject.nextByte(QCA::Random::SessionKey), false );
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CHECK( QCA::Random().nextByte(QCA::Random::PublicValue) == QCA::Random().nextByte(), false );
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CHECK( randObject.nextBytes(4) == randObject.nextBytes(4, QCA::Random::Nonce), false );
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CHECK( randObject.randomChar(QCA::Random::LongTermKey) == randObject.randomChar(), false );
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CHECK( QCA::Random().randomChar() == QCA::Random().randomChar(QCA::Random::PublicValue), false );
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CHECK( QCA::Random::randomChar(QCA::Random::PublicValue) == QCA::Random::randomChar(QCA::Random::Nonce), false );
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CHECK( QCA::Random().randomInt(QCA::Random::Nonce) == QCA::Random().randomInt(), false );
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CHECK( QCA::Random::randomInt(QCA::Random::Nonce) == QCA::Random::randomInt(QCA::Random::Nonce), false );
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CHECK( QCA::Random().randomArray(3, QCA::Random::Nonce) == QCA::Random().randomArray(3), false );
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CHECK( QCA::Random::randomArray(3, QCA::Random::SessionKey) == QCA::Random::randomArray(3, QCA::Random::PublicValue), false );
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for (int len = 1; len <= 1024; len*=2 ) {
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CHECK( QCA::globalRNG().nextBytes(len, QCA::Random::SessionKey).size(), len );
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}
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QCA::SymmetricKey testkey;
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testkey = QCA::globalRNG().nextBytes(10, QCA::Random::SessionKey);
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}
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#if 0
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QCA::setGlobalRNG( "qca-egads" );
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QCA::Random rng2 = QCA::globalRNG();
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CHECK( rng2.provider()->name(), QString( "qca-egads" ) );
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{
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QCA::Random randObject ( "qca-egads" );
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CHECK( randObject.nextByte() == randObject.nextByte(), false );
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CHECK( QCA::Random("qca-egads").nextByte() == QCA::Random("qca-egads").nextByte(), false );
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CHECK( randObject.nextBytes(4) == randObject.nextBytes(4), false );
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CHECK( randObject.nextBytes(100) == randObject.nextBytes(100), false );
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CHECK( randObject.randomChar() == randObject.randomChar(), false );
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CHECK( QCA::Random("qca-egads").randomChar() == QCA::Random("qca-egads").randomChar(), false );
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CHECK( QCA::Random::randomChar() == QCA::Random::randomChar(), false );
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CHECK( QCA::Random("qca-egads").randomInt() == QCA::Random().randomInt(), false );
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CHECK( QCA::Random::randomInt() == QCA::Random::randomInt(), false );
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CHECK( QCA::Random().randomArray(3) == QCA::Random().randomArray(3), false );
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CHECK( QCA::Random::randomArray(3) == QCA::Random::randomArray(3), false );
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CHECK( randObject.nextByte(QCA::Random::Nonce) == randObject.nextByte(QCA::Random::SessionKey), false );
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CHECK( QCA::Random().nextByte(QCA::Random::PublicValue) == QCA::Random().nextByte(), false );
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CHECK( randObject.nextBytes(4) == randObject.nextBytes(4, QCA::Random::Nonce), false );
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CHECK( randObject.randomChar(QCA::Random::LongTermKey) == randObject.randomChar(), false );
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CHECK( QCA::Random().randomChar() == QCA::Random().randomChar(QCA::Random::PublicValue), false );
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CHECK( QCA::Random::randomChar(QCA::Random::PublicValue) == QCA::Random::randomChar(QCA::Random::Nonce), false );
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CHECK( QCA::Random().randomInt(QCA::Random::Nonce) == QCA::Random().randomInt(), false );
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CHECK( QCA::Random::randomInt(QCA::Random::Nonce) == QCA::Random::randomInt(QCA::Random::Nonce), false );
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CHECK( QCA::Random().randomArray(3, QCA::Random::Nonce) == QCA::Random().randomArray(3), false );
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CHECK( QCA::Random::randomArray(3, QCA::Random::SessionKey) == QCA::Random::randomArray(3, QCA::Random::PublicValue), false );
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for (unsigned int len = 1; len <= 1024; len*=2 ) {
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CHECK( QCA::globalRNG().nextBytes(len, QCA::Random::SessionKey).size(), len );
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}
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QCA::SymmetricKey testkey;
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testkey = QCA::globalRNG().nextBytes(10, QCA::Random::SessionKey);
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}
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#endif
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}
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