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// validat1.cpp - originally written and placed in the public domain by Wei Dai and Jeffrey Walton
// Routines in this source file are only tested in Debug builds.
// Source files split in July 2018 to expedite compiles.
#include "pch.h"
#define CRYPTOPP_ENABLE_NAMESPACE_WEAK 1
#include "cryptlib.h"
#include "cpu.h"
#include "validate.h"
#include "secblock.h"
#include "gzip.h"
#include "zlib.h"
#if defined(CRYPTOPP_ALTIVEC_AVAILABLE)
# include "ppc_simd.h"
#endif
#include <iostream>
#include <iomanip>
#include <sstream>
// Aggressive stack checking with VS2005 SP1 and above.
#if (_MSC_FULL_VER >= 140050727)
# pragma strict_gs_check (on)
#endif
#if CRYPTOPP_MSC_VERSION
# pragma warning(disable: 4505 4355)
#endif
NAMESPACE_BEGIN(CryptoPP)
NAMESPACE_BEGIN(Test)
#if defined(CRYPTOPP_EXTENDED_VALIDATION)
bool TestSecBlock()
{
std::cout << "\nTesting SecBlock...\n\n";
bool pass1=true, pass2=true, pass3=true, pass4=true, pass5=true, pass6=true, pass7=true, temp=false;
//************ Allocators ************//
{
std::basic_string<char, std::char_traits<char>, AllocatorWithCleanup<char, false> > s1;
std::basic_string<char, std::char_traits<char>, AllocatorWithCleanup<char, true> > s2;
s1.resize(1024); s2.resize(1024);
std::vector<byte, AllocatorWithCleanup<byte, false> > v1;
std::vector<byte, AllocatorWithCleanup<byte, true> > v2;
v1.resize(1024); v2.resize(1024);
}
//********** Zeroized block **********//
{
// NULL ptr with a size means to create a new SecBlock with all elements zero'd
SecByteBlock z1(NULLPTR, 256);
temp = true;
for (size_t i = 0; i < z1.size(); i++)
temp &= (z1[i] == 0);
pass1 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Zeroized byte array\n";
SecBlock<word32> z2(NULLPTR, 256);
temp = true;
for (size_t i = 0; i < z2.size(); i++)
temp &= (z2[i] == 0);
pass1 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Zeroized word32 array\n";
SecBlock<word64> z3(NULLPTR, 256);
temp = true;
for (size_t i = 0; i < z3.size(); i++)
temp &= (z3[i] == 0);
pass1 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Zeroized word64 array\n";
#if defined(CRYPTOPP_WORD128_AVAILABLE)
SecBlock<word128> z4(NULLPTR, 256);
temp = true;
for (size_t i = 0; i < z4.size(); i++)
temp &= (z4[i] == 0);
pass1 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Zeroized word128 array\n";
#endif
}
//********** Non-zero'd block **********//
{
SecByteBlock z1(NULLPTR, 256);
z1.SetMark(0);
SecBlock<word32> z2(NULLPTR, 256);
z2.SetMark(0);
SecBlock<word64> z3(NULLPTR, 256);
z3.SetMark(0);
#if defined(CRYPTOPP_WORD128_AVAILABLE)
SecBlock<word128> z4(NULLPTR, 256);
z4.SetMark(0);
#endif
}
//********** Assign **********//
try
{
SecByteBlock a, b;
temp = true;
a.Assign((const byte*)"a", 1);
b.Assign((const byte*)"b", 1);
temp &= (a.SizeInBytes() == 1);
temp &= (b.SizeInBytes() == 1);
temp &= (a[0] == 'a');
temp &= (b[0] == 'b');
a.Assign((const byte*)"ab", 2);
b.Assign((const byte*)"cd", 2);
temp &= (a.SizeInBytes() == 2);
temp &= (b.SizeInBytes() == 2);
temp &= (a[0] == 'a' && a[1] == 'b');
temp &= (b[0] == 'c' && b[1] == 'd');
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass2 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Assign byte\n";
try
{
SecBlock<word32> a, b;
temp = true;
word32 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
temp &= (a.SizeInBytes() == 4);
temp &= (b.SizeInBytes() == 4);
temp &= (a[0] == 1);
temp &= (b[0] == 2);
word32 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
temp &= (a.SizeInBytes() == 8);
temp &= (b.SizeInBytes() == 8);
temp &= (a[0] == 1 && a[1] == 2);
temp &= (b[0] == 3 && b[1] == 4);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass2 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Assign word32\n";
try
{
SecBlock<word64> a, b;
temp = true;
word64 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
temp &= (a.SizeInBytes() == 8);
temp &= (b.SizeInBytes() == 8);
temp &= (a[0] == 1);
temp &= (b[0] == 2);
word64 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
temp &= (a.SizeInBytes() == 16);
temp &= (b.SizeInBytes() == 16);
temp &= (a[0] == 1 && a[1] == 2);
temp &= (b[0] == 3 && b[1] == 4);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass2 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Assign word64\n";
#if defined(CRYPTOPP_WORD128_AVAILABLE)
try
{
SecBlock<word128> a, b;
temp = true;
word128 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
temp &= (a.SizeInBytes() == 16);
temp &= (b.SizeInBytes() == 16);
temp &= (a[0] == 1);
temp &= (b[0] == 2);
word128 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
temp &= (a.SizeInBytes() == 32);
temp &= (b.SizeInBytes() == 32);
temp &= (a[0] == 1 && a[1] == 2);
temp &= (b[0] == 3 && b[1] == 4);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass2 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Assign word128\n";
#endif
//********** Append **********//
try
{
SecByteBlock a, b;
temp = true;
a.Assign((const byte*)"a", 1);
b.Assign((const byte*)"b", 1);
a += b;
temp &= (a.SizeInBytes() == 2);
temp &= (a[0] == 'a' && a[1] == 'b');
a.Assign((const byte*)"ab", 2);
b.Assign((const byte*)"cd", 2);
a += b;
temp &= (a.SizeInBytes() == 4);
temp &= (a[0] == 'a' && a[1] == 'b' && a[2] == 'c' && a[3] == 'd');
a.Assign((const byte*)"a", 1);
a += a;
temp &= (a.SizeInBytes() == 2);
temp &= (a[0] == 'a' && a[1] == 'a');
a.Assign((const byte*)"ab", 2);
a += a;
temp &= (a.SizeInBytes() == 4);
temp &= (a[0] == 'a' && a[1] == 'b' && a[2] == 'a' && a[3] == 'b');
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass3 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Append byte\n";
try
{
SecBlock<word32> a, b;
temp = true;
const word32 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
a += b;
temp &= (a.SizeInBytes() == 8);
temp &= (a[0] == 1 && a[1] == 2);
const word32 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
a += b;
temp &= (a.SizeInBytes() == 16);
temp &= (a[0] == 1 && a[1] == 2 && a[2] == 3 && a[3] == 4);
a.Assign(one, 1);
a += a;
temp &= (a.SizeInBytes() == 8);
temp &= (a[0] == 1 && a[1] == 1);
a.Assign(three, 2);
a += a;
temp &= (a.SizeInBytes() == 16);
temp &= (a[0] == 1 && a[1] == 2 && a[2] == 1 && a[3] == 2);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass3 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Append word32\n";
try
{
SecBlock<word64> a, b;
temp = true;
const word64 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
a += b;
temp &= (a.SizeInBytes() == 16);
temp &= (a[0] == 1 && a[1] == 2);
const word64 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
a += b;
temp &= (a.SizeInBytes() == 32);
temp &= (a[0] == 1 && a[1] == 2 && a[2] == 3 && a[3] == 4);
a.Assign(one, 1);
a += a;
temp &= (a.SizeInBytes() == 16);
temp &= (a[0] == 1 && a[1] == 1);
a.Assign(three, 2);
a += a;
temp &= (a.SizeInBytes() == 32);
temp &= (a[0] == 1 && a[1] == 2 && a[2] == 1 && a[3] == 2);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass3 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Append word64\n";
#if defined(CRYPTOPP_WORD128_AVAILABLE)
try
{
SecBlock<word128> a, b;
temp = true;
const word128 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
a += b;
temp &= (a.SizeInBytes() == 32);
temp &= (a[0] == 1 && a[1] == 2);
const word128 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
a += b;
temp &= (a.SizeInBytes() == 64);
temp &= (a[0] == 1 && a[1] == 2 && a[2] == 3 && a[3] == 4);
a.Assign(one, 1);
a += a;
temp &= (a.SizeInBytes() == 32);
temp &= (a[0] == 1 && a[1] == 1);
a.Assign(three, 2);
a += a;
temp &= (a.SizeInBytes() == 64);
temp &= (a[0] == 1 && a[1] == 2 && a[2] == 1 && a[3] == 2);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass3 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Append word128\n";
#endif
//********** Concatenate **********//
// byte
try
{
SecByteBlock a, b, c;
temp = true;
a.Assign((const byte*)"a", 1);
b.Assign((const byte*)"b", 1);
c = a + b;
temp &= (a[0] == 'a');
temp &= (b[0] == 'b');
temp &= (c.SizeInBytes() == 2);
temp &= (c[0] == 'a' && c[1] == 'b');
a.Assign((const byte*)"ab", 2);
b.Assign((const byte*)"cd", 2);
c = a + b;
temp &= (a[0] == 'a' && a[1] == 'b');
temp &= (b[0] == 'c' && b[1] == 'd');
temp &= (c.SizeInBytes() == 4);
temp &= (c[0] == 'a' && c[1] == 'b' && c[2] == 'c' && c[3] == 'd');
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass4 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Concatenate byte\n";
// word32
try
{
SecBlock<word32> a, b, c;
temp = true;
const word32 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
c = a + b;
temp &= (a[0] == 1);
temp &= (b[0] == 2);
temp &= (c.SizeInBytes() == 8);
temp &= (c[0] == 1 && c[1] == 2);
const word32 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
c = a + b;
temp &= (a[0] == 1 && a[1] == 2);
temp &= (b[0] == 3 && b[1] == 4);
temp &= (c.SizeInBytes() == 16);
temp &= (c[0] == 1 && c[1] == 2 && c[2] == 3 && c[3] == 4);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass4 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Concatenate word32\n";
// word64
try
{
SecBlock<word64> a, b, c;
temp = true;
const word64 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
c = a + b;
temp &= (a[0] == 1);
temp &= (b[0] == 2);
temp &= (c.SizeInBytes() == 16);
temp &= (c[0] == 1 && c[1] == 2);
const word64 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
c = a + b;
temp &= (a[0] == 1 && a[1] == 2);
temp &= (b[0] == 3 && b[1] == 4);
temp &= (c.SizeInBytes() == 32);
temp &= (c[0] == 1 && c[1] == 2 && c[2] == 3 && c[3] == 4);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass4 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Concatenate word64\n";
#if defined(CRYPTOPP_WORD128_AVAILABLE)
try
{
SecBlock<word128> a, b, c;
temp = true;
const word128 one[1] = {1}, two[1] = {2};
a.Assign(one, 1);
b.Assign(two, 1);
c = a + b;
temp &= (a[0] == 1);
temp &= (b[0] == 2);
temp &= (c.SizeInBytes() == 32);
temp &= (c[0] == 1 && c[1] == 2);
const word128 three[2] = {1,2}, four[2] = {3,4};
a.Assign(three, 2);
b.Assign(four, 2);
c = a + b;
temp &= (a[0] == 1 && a[1] == 2);
temp &= (b[0] == 3 && b[1] == 4);
temp &= (c.SizeInBytes() == 64);
temp &= (c[0] == 1 && c[1] == 2 && c[2] == 3 && c[3] == 4);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass4 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Concatenate word128\n";
#endif
//********** Equality **********//
// byte
try
{
static const byte str1[] = "abcdefghijklmnopqrstuvwxyz";
static const byte str2[] = "zyxwvutsrqponmlkjihgfedcba";
static const byte str3[] = "0123456789";
temp = true;
SecByteBlock a,b;
a.Assign(str1, COUNTOF(str1));
b.Assign(str1, COUNTOF(str1));
temp &= (a.operator==(b));
a.Assign(str3, COUNTOF(str3));
b.Assign(str3, COUNTOF(str3));
temp &= (a == b);
a.Assign(str1, COUNTOF(str1));
b.Assign(str2, COUNTOF(str2));
temp &= (a.operator!=(b));
a.Assign(str1, COUNTOF(str1));
b.Assign(str3, COUNTOF(str3));
temp &= (a != b);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass5 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Equality byte\n";
// word32
try
{
static const word32 str1[] = {2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67,71,73,79,83,89,97};
static const word32 str2[] = {97,89,83,79,73,71,67,61,59,53,47,43,41,37,31,29,23,19,17,13,11,7,5,3,2};
static const word32 str3[] = {0,1,2,3,4,5,6,7,8,9};
temp = true;
SecBlock<word32> a,b;
a.Assign(str1, COUNTOF(str1));
b.Assign(str1, COUNTOF(str1));
temp &= (a.operator==(b));
a.Assign(str3, COUNTOF(str3));
b.Assign(str3, COUNTOF(str3));
temp &= (a == b);
a.Assign(str1, COUNTOF(str1));
b.Assign(str2, COUNTOF(str2));
temp &= (a.operator!=(b));
a.Assign(str1, COUNTOF(str1));
b.Assign(str3, COUNTOF(str3));
temp &= (a != b);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass5 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Equality word32\n";
// word64
try
{
static const word64 str1[] = {2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67,71,73,79,83,89,97};
static const word64 str2[] = {97,89,83,79,73,71,67,61,59,53,47,43,41,37,31,29,23,19,17,13,11,7,5,3,2};
static const word64 str3[] = {0,1,2,3,4,5,6,7,8,9};
temp = true;
SecBlock<word64> a,b;
a.Assign(str1, COUNTOF(str1));
b.Assign(str1, COUNTOF(str1));
temp &= (a.operator==(b));
a.Assign(str3, COUNTOF(str3));
b.Assign(str3, COUNTOF(str3));
temp &= (a == b);
a.Assign(str1, COUNTOF(str1));
b.Assign(str2, COUNTOF(str2));
temp &= (a.operator!=(b));
a.Assign(str1, COUNTOF(str1));
b.Assign(str3, COUNTOF(str3));
temp &= (a != b);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass5 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Equality word64\n";
#if defined(CRYPTOPP_WORD128_AVAILABLE)
// word128
try
{
static const word128 str1[] = {2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67,71,73,79,83,89,97};
static const word128 str2[] = {97,89,83,79,73,71,67,61,59,53,47,43,41,37,31,29,23,19,17,13,11,7,5,3,2};
static const word128 str3[] = {0,1,2,3,4,5,6,7,8,9};
temp = true;
SecBlock<word128> a,b;
a.Assign(str1, COUNTOF(str1));
b.Assign(str1, COUNTOF(str1));
temp &= (a.operator==(b));
a.Assign(str3, COUNTOF(str3));
b.Assign(str3, COUNTOF(str3));
temp &= (a == b);
a.Assign(str1, COUNTOF(str1));
b.Assign(str2, COUNTOF(str2));
temp &= (a.operator!=(b));
a.Assign(str1, COUNTOF(str1));
b.Assign(str3, COUNTOF(str3));
temp &= (a != b);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
pass5 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Equality word128\n";
#endif
//********** Allocator Size/Overflow **********//
try
{
temp = false;
AllocatorBase<word32> A;
const size_t max = A.max_size();
SecBlock<word32> t(max+1);
}
catch(const Exception& /*ex*/)
{
temp = true;
}
catch(const std::exception& /*ex*/)
{
temp = true;
}
pass6 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Overflow word32\n";
try
{
temp = false;
AllocatorBase<word64> A;
const size_t max = A.max_size();
SecBlock<word64> t(max+1);
}
catch(const Exception& /*ex*/)
{
temp = true;
}
catch(const std::exception& /*ex*/)
{
temp = true;
}
pass6 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Overflow word64\n";
#if defined(CRYPTOPP_WORD128_AVAILABLE)
try
{
temp = false;
AllocatorBase<word128> A;
const size_t max = A.max_size();
SecBlock<word128> t(max+1);
}
catch(const Exception& /*ex*/)
{
temp = true;
}
catch(const std::exception& /*ex*/)
{
temp = true;
}
pass6 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Overflow word128\n";
#endif
//********** FixedSizeAllocatorWithCleanup and Grow **********//
// byte
try
{
static const unsigned int SIZE = 8;
SecBlockWithHint<byte, SIZE> block(SIZE);
memset(block, 0xaa, block.SizeInBytes());
temp = true;
block.CleanGrow(SIZE*2);
temp &= (block.size() == SIZE*2);
for (size_t i = 0; i < block.size()/2; i++)
temp &= (block[i] == 0xaa);
for (size_t i = block.size()/2; i < block.size(); i++)
temp &= (block[i] == 0);
block.CleanNew(SIZE*4);
temp &= (block.size() == SIZE*4);
for (size_t i = 0; i < block.size(); i++)
temp &= (block[i] == 0);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
catch(const std::exception& /*ex*/)
{
temp = false;
}
pass7 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " FixedSizeAllocator Grow with byte\n";
// word32
try
{
static const unsigned int SIZE = 8;
SecBlockWithHint<word32, SIZE> block(SIZE);
memset(block, 0xaa, block.SizeInBytes());
temp = true;
block.CleanGrow(SIZE*2);
temp &= (block.size() == SIZE*2);
for (size_t i = 0; i < block.size()/2; i++)
temp &= (block[i] == 0xaaaaaaaa);
for (size_t i = block.size()/2; i < block.size(); i++)
temp &= (block[i] == 0);
block.CleanNew(SIZE*4);
temp &= (block.size() == SIZE*4);
for (size_t i = 0; i < block.size(); i++)
temp &= (block[i] == 0);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
catch(const std::exception& /*ex*/)
{
temp = false;
}
pass7 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " FixedSizeAllocator Grow with word32\n";
// word64
try
{
static const unsigned int SIZE = 8;
SecBlockWithHint<word64, SIZE> block(SIZE);
memset(block, 0xaa, block.SizeInBytes());
temp = true;
block.CleanGrow(SIZE*2);
temp &= (block.size() == SIZE*2);
for (size_t i = 0; i < block.size()/2; i++)
temp &= (block[i] == W64LIT(0xaaaaaaaaaaaaaaaa));
for (size_t i = block.size()/2; i < block.size(); i++)
temp &= (block[i] == 0);
block.CleanNew(SIZE*4);
temp &= (block.size() == SIZE*4);
for (size_t i = 0; i < block.size(); i++)
temp &= (block[i] == 0);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
catch(const std::exception& /*ex*/)
{
temp = false;
}
pass7 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " FixedSizeAllocator Grow with word64\n";
#if defined(CRYPTOPP_WORD128_AVAILABLE)
// word128
try
{
static const unsigned int SIZE = 8;
SecBlock<word128, AllocatorWithCleanup<word128, true> > block(SIZE);
memset(block, 0xaa, block.SizeInBytes());
temp = true;
block.CleanGrow(SIZE*2);
temp &= (block.size() == SIZE*2);
for (size_t i = 0; i < block.size()/2; i++)
temp &= (block[i] == (((word128)W64LIT(0xaaaaaaaaaaaaaaaa) << 64U) | W64LIT(0xaaaaaaaaaaaaaaaa)));
for (size_t i = block.size()/2; i < block.size(); i++)
temp &= (block[i] == 0);
block.CleanNew(SIZE*4);
temp &= (block.size() == SIZE*4);
for (size_t i = 0; i < block.size(); i++)
temp &= (block[i] == 0);
}
catch(const Exception& /*ex*/)
{
temp = false;
}
catch(const std::exception& /*ex*/)
{
temp = false;
}
pass7 &= temp;
if (!temp)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " FixedSizeAllocator Grow with word128\n";
#endif
return pass1 && pass2 && pass3 && pass4 && pass5 && pass6 && pass7;
}
#endif
#if defined(CRYPTOPP_EXTENDED_VALIDATION)
bool TestHuffmanCodes()
{
std::cout << "\nTesting Huffman codes...\n\n";
bool pass=true;
static const size_t nCodes = 30;
const unsigned int codeCounts[nCodes] = {
1, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
static const unsigned int maxCodeBits = nCodes >> 1;
unsigned int codeBits[nCodes] = {
~0u, ~0u, ~0u, ~0u, ~0u,
~0u, ~0u, ~0u, ~0u, ~0u,
~0u, ~0u, ~0u, ~0u, ~0u,
};
try
{
HuffmanEncoder::GenerateCodeLengths(codeBits, maxCodeBits, codeCounts, nCodes);
}
catch(const Exception& /*ex*/)
{
pass=false;
}
if (!pass)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " GenerateCodeLengths" << std::endl;
// Try to crash the HuffmanDecoder
for (unsigned int i=0; i<128; ++i)
{
try
{
byte data1[0xfff]; // Place on stack, avoid new
unsigned int data2[0xff];
unsigned int len1 = GlobalRNG().GenerateWord32(4, 0xfff);
GlobalRNG().GenerateBlock(data1, len1);
unsigned int len2 = GlobalRNG().GenerateWord32(4, 0xff);
GlobalRNG().GenerateBlock((byte*)data2, len2*sizeof(unsigned int));
ArraySource source(data1, len1, false);
HuffmanDecoder decoder(data2, len2);
LowFirstBitReader reader(source);
unsigned int val;
for (unsigned int j=0; !source.AnyRetrievable(); ++j)
decoder.Decode(reader, val);
}
catch (const Exception&) {}
}
std::cout << "passed: HuffmanDecoder decode" << std::endl;
return pass;
}
#endif
#if defined(CRYPTOPP_EXTENDED_VALIDATION)
# if defined(CRYPTOPP_ALTIVEC_AVAILABLE)
bool TestAltivecOps()
{
std::cout << "\nTesting Altivec operations...\n\n";
if (HasAltivec() == false)
{
std::cout << "\nAltivec not available, skipping test." << std::endl;
return true;
}
// These tests may seem superflous, but we really want to test the
// Altivec/POWER4 implementation. That does not happen when POWER7
// or POWER8 is available because we use POWER7's unaligned loads
// and stores with POWER8's AES, SHA, etc. These tests enage
// Altivec/POWER4 without POWER7, like on an old PowerMac.
//********** Unaligned loads and stores **********//
bool pass1=true;
CRYPTOPP_ALIGN_DATA(16)
byte dest[20], src[20] = {23,22,21,20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5,4};
const byte st1[16] = {22,21,20,19,18,17,16,15,14,13,12,11,10,9,8,7};
const byte st2[16] = {21,20,19,18,17,16,15,14,13,12,11,10,9,8,7,6};
const byte st3[16] = {20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5};
VecStore(VecLoad(src), dest);
pass1 = (0 == std::memcmp(src, dest, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStore(VecLoad(src+1), dest+1);
pass1 = (0 == std::memcmp(st1, dest+1, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStore(VecLoad(src+2), dest+2);
pass1 = (0 == std::memcmp(st2, dest+2, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStore(VecLoad(src+3), dest+3);
pass1 = (0 == std::memcmp(st3, dest+3, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStoreBE(VecLoadBE(src), dest);
pass1 = (0 == std::memcmp(src, dest, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStoreBE(VecLoadBE(src+1), dest+1);
pass1 = (0 == std::memcmp(st1, dest+1, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStoreBE(VecLoadBE(src+2), dest+2);
pass1 = (0 == std::memcmp(st2, dest+2, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStoreBE(VecLoadBE(src+3), dest+3);
pass1 = (0 == std::memcmp(st3, dest+3, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
#if (CRYPTOPP_LITTLE_ENDIAN)
VecStore(VecLoadBE(src), dest);
pass1 = (0 != std::memcmp(src, dest, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
VecStoreBE(VecLoad(src), dest);
pass1 = (0 != std::memcmp(src, dest, 16)) && pass1;
CRYPTOPP_ASSERT(pass1);
#endif
if (!pass1)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Altivec loads and stores" << std::endl;
//********** Shifts **********//
bool pass2=true;
uint8x16_p val = {0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff};
pass2 = (VecEqual(val, VecShiftLeftOctet<0>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
pass2 = (VecEqual(val, VecShiftRightOctet<0>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
uint8x16_p lsh1 = {0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0x00};
uint8x16_p rsh1 = {0x00,0xff,0xff,0xff, 0xff,0xff,0xff,0xff,
0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff};
pass2 = (VecEqual(lsh1, VecShiftLeftOctet<1>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
pass2 = (VecEqual(rsh1, VecShiftRightOctet<1>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
uint8x16_p lsh15 = {0xff,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00};
uint8x16_p rsh15 = {0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0xff};
pass2 = (VecEqual(lsh15, VecShiftLeftOctet<15>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
pass2 = (VecEqual(rsh15, VecShiftRightOctet<15>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
uint8x16_p lsh16 = {0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00};
uint8x16_p rsh16 = {0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00};
pass2 = (VecEqual(lsh16, VecShiftLeftOctet<16>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
pass2 = (VecEqual(rsh16, VecShiftRightOctet<16>(val))) && pass2;
CRYPTOPP_ASSERT(pass2);
if (!pass2)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Altivec left and right shifts" << std::endl;
//********** Extraction **********//
bool pass3=true;
const byte bex1[] = {0x1f,0x1e,0x1d,0x1c, 0x1b,0x1a,0x19,0x18,
0x17,0x16,0x15,0x14, 0x13,0x12,0x11,0x10};
const byte bex2[] = {0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,
0x17,0x16,0x15,0x14, 0x13,0x12,0x11,0x10};
const byte bex3[] = {0x00,0x00,0x00,0x00, 0x00,0x00,0x00,0x00,
0x1f,0x1e,0x1d,0x1c, 0x1b,0x1a,0x19,0x18};
const uint8x16_p ex1 = (uint8x16_p)VecLoad(bex1);
const uint8x16_p ex2 = (uint8x16_p)VecLoad(bex2);
const uint8x16_p ex3 = (uint8x16_p)VecLoad(bex3);
pass3 = VecEqual(ex2, VecGetLow(ex1)) && pass3;
CRYPTOPP_ASSERT(pass3);
pass3 = VecEqual(ex3, VecGetHigh(ex1)) && pass3;
CRYPTOPP_ASSERT(pass3);
uint8x16_p ex4 = VecShiftRightOctet<8>(VecShiftLeftOctet<8>(ex1));
pass3 = VecEqual(ex4, VecGetLow(ex1)) && pass3;
CRYPTOPP_ASSERT(pass3);
uint8x16_p ex5 = VecShiftRightOctet<8>(ex1);
pass3 = VecEqual(ex5, VecGetHigh(ex1)) && pass3;
CRYPTOPP_ASSERT(pass3);
if (!pass3)
std::cout << "FAILED:";
else
std::cout << "passed:";
std::cout << " Altivec vector extraction" << std::endl;
return pass1 && pass2 && pass3;
}
#endif
#endif
NAMESPACE_END // Test
NAMESPACE_END // CryptoPP
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