ext-cryptopp/datatest.cpp

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// datatest.cpp - originally written and placed in the public domain by Wei Dai
// CryptoPP::Test namespace added by JW in February 2017
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#define CRYPTOPP_DEFAULT_NO_DLL
#define CRYPTOPP_ENABLE_NAMESPACE_WEAK 1
#include "cryptlib.h"
#include "factory.h"
#include "integer.h"
#include "filters.h"
#include "randpool.h"
#include "files.h"
#include "trunhash.h"
#include "queue.h"
#include "smartptr.h"
#include "validate.h"
#include "stdcpp.h"
#include "misc.h"
#include "hex.h"
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#include "trap.h"
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#include <iostream>
#include <sstream>
#include <cerrno>
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// Aggressive stack checking with VS2005 SP1 and above.
#if (_MSC_FULL_VER >= 140050727)
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# pragma strict_gs_check (on)
#endif
#if CRYPTOPP_MSC_VERSION
# pragma warning(disable: 4505 4355)
#endif
#ifdef CRYPTOPP_MSC_VERSION
# define STRTOUL64 _strtoui64
#else
# define STRTOUL64 strtoull
#endif
NAMESPACE_BEGIN(CryptoPP)
NAMESPACE_BEGIN(Test)
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ANONYMOUS_NAMESPACE_BEGIN
bool s_thorough = false;
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typedef std::map<std::string, std::string> TestData;
const TestData *s_currentTestData = NULLPTR;
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const std::string testDataFilename = "cryptest.dat";
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// Handles CR, LF, and CRLF properly. Early RFC's used '\r\0' on occasion.
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// For istream.fail() see https://stackoverflow.com/q/34395801/608639.
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bool Readline(std::istream& stream, std::string& line)
{
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// Ensure old data is cleared
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line.clear();
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std::string temp;
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temp.reserve(64);
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while (!stream.fail())
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{
int ch = stream.get();
if (ch == '\r')
{
int next = stream.peek();
if (next == '\n')
(void)stream.get();
else if (next == '\0')
(void)stream.get();
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break;
}
else if (ch == '\n')
{
break;
}
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temp.push_back(static_cast<char>(ch));
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}
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#if defined(CRYPTOPP_CXX11)
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temp.shrink_to_fit();
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#else
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// Non-binding shrink to fit
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temp.reserve(0);
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#endif
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std::swap(line, temp);
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return !stream.fail();
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}
std::string TrimSpace(const std::string& str)
{
if (str.empty()) return "";
const std::string whitespace(" \r\t\n");
std::string::size_type beg = str.find_first_not_of(whitespace);
std::string::size_type end = str.find_last_not_of(whitespace);
if (beg != std::string::npos && end != std::string::npos)
return str.substr(beg, end+1);
else if (beg != std::string::npos)
return str.substr(beg);
else
return "";
}
std::string TrimComment(const std::string& str)
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{
if (str.empty()) return "";
std::string::size_type first = str.find("#");
if (first != std::string::npos)
return TrimSpace(str.substr(0, first));
else
return TrimSpace(str);
}
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class TestFailure : public Exception
{
public:
TestFailure() : Exception(OTHER_ERROR, "Validation test failed") {}
};
void OutputTestData(const TestData &v)
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{
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std::cerr << "\n";
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for (TestData::const_iterator i = v.begin(); i != v.end(); ++i)
{
std::cerr << i->first << ": " << i->second << std::endl;
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}
}
void SignalTestFailure()
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{
OutputTestData(*s_currentTestData);
throw TestFailure();
}
void SignalUnknownAlgorithmError(const std::string& algType)
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{
OutputTestData(*s_currentTestData);
throw Exception(Exception::OTHER_ERROR, "Unknown algorithm " + algType + " during validation test");
}
void SignalTestError(const char* msg = NULLPTR)
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{
OutputTestData(*s_currentTestData);
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if (msg)
throw Exception(Exception::OTHER_ERROR, msg);
else
throw Exception(Exception::OTHER_ERROR, "Unexpected error during validation test");
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}
bool DataExists(const TestData &data, const char *name)
{
TestData::const_iterator i = data.find(name);
return (i != data.end());
}
const std::string & GetRequiredDatum(const TestData &data, const char *name)
{
TestData::const_iterator i = data.find(name);
if (i == data.end())
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{
std::string msg("Required datum \"" + std::string(name) + "\" missing");
SignalTestError(msg.c_str());
}
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return i->second;
}
void RandomizedTransfer(BufferedTransformation &source, BufferedTransformation &target, bool finish, const std::string &channel=DEFAULT_CHANNEL)
{
while (source.MaxRetrievable() > (finish ? 0 : 4096))
{
byte buf[4096+64];
size_t start = Test::GlobalRNG().GenerateWord32(0, 63);
size_t len = Test::GlobalRNG().GenerateWord32(1, UnsignedMin(4096U, 3*source.MaxRetrievable()/2));
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len = source.Get(buf+start, len);
target.ChannelPut(channel, buf+start, len);
}
}
void PutDecodedDatumInto(const TestData &data, const char *name, BufferedTransformation &target)
{
std::string s1 = GetRequiredDatum(data, name), s2;
ByteQueue q;
while (!s1.empty())
{
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std::string::size_type pos = s1.find_first_not_of(" ");
if (pos != std::string::npos)
s1.erase(0, pos);
if (s1.empty())
goto end;
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int repeat = 1;
if (s1[0] == 'r')
{
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s1 = s1.erase(0, 1);
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repeat = std::atoi(s1.c_str());
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s1 = s1.substr(s1.find(' ')+1);
}
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// Convert word32 or word64 to little endian order. Some algorithm test vectors are
// presented in the format. We probably should have named them word32le and word64le.
if (s1.length() >= 6 && (s1.substr(0,6) == "word32" || s1.substr(0,6) == "word64"))
{
std::istringstream iss(s1.substr(6));
if (s1.substr(0,6) == "word64")
{
word64 value;
while (iss >> std::skipws >> std::hex >> value)
{
value = ConditionalByteReverse(LITTLE_ENDIAN_ORDER, value);
q.Put(reinterpret_cast<const byte *>(&value), 8);
}
}
else
{
word32 value;
while (iss >> std::skipws >> std::hex >> value)
{
value = ConditionalByteReverse(LITTLE_ENDIAN_ORDER, value);
q.Put(reinterpret_cast<const byte *>(&value), 4);
}
}
goto end;
}
s2.clear();
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if (s1[0] == '\"')
{
s2 = s1.substr(1, s1.find('\"', 1)-1);
s1 = s1.substr(s2.length() + 2);
}
else if (s1.substr(0, 2) == "0x")
{
std::string::size_type n = s1.find(' ');
StringSource(s1.substr(2, n), true, new HexDecoder(new StringSink(s2)));
s1 = s1.substr(STDMIN(n, s1.length()));
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}
else
{
std::string::size_type n = s1.find(' ');
StringSource(s1.substr(0, n), true, new HexDecoder(new StringSink(s2)));
s1 = s1.substr(STDMIN(n, s1.length()));
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}
while (repeat--)
{
q.Put(ConstBytePtr(s2), BytePtrSize(s2));
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RandomizedTransfer(q, target, false);
}
}
end:
RandomizedTransfer(q, target, true);
}
std::string GetDecodedDatum(const TestData &data, const char *name)
{
std::string s;
PutDecodedDatumInto(data, name, StringSink(s).Ref());
return s;
}
std::string GetOptionalDecodedDatum(const TestData &data, const char *name)
{
std::string s;
if (DataExists(data, name))
PutDecodedDatumInto(data, name, StringSink(s).Ref());
return s;
}
class TestDataNameValuePairs : public NameValuePairs
{
public:
TestDataNameValuePairs(const TestData &data) : m_data(data) {}
virtual bool GetVoidValue(const char *name, const std::type_info &valueType, void *pValue) const
{
TestData::const_iterator i = m_data.find(name);
if (i == m_data.end())
{
if (std::string(name) == Name::DigestSize() && valueType == typeid(int))
{
i = m_data.find("MAC");
if (i == m_data.end())
i = m_data.find("Digest");
if (i == m_data.end())
return false;
m_temp.clear();
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PutDecodedDatumInto(m_data, i->first.c_str(), StringSink(m_temp).Ref());
*reinterpret_cast<int *>(pValue) = (int)m_temp.size();
return true;
}
else
return false;
}
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const std::string &value = i->second;
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if (valueType == typeid(int))
*reinterpret_cast<int *>(pValue) = atoi(value.c_str());
else if (valueType == typeid(word64))
{
std::string x(value.empty() ? "0" : value);
const char* beg = &x[0];
char* end = &x[0] + value.size();
errno = 0;
*reinterpret_cast<word64*>(pValue) = STRTOUL64(beg, &end, 0);
if (errno != 0)
return false;
}
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else if (valueType == typeid(Integer))
*reinterpret_cast<Integer *>(pValue) = Integer((std::string(value) + "h").c_str());
else if (valueType == typeid(ConstByteArrayParameter))
{
m_temp.clear();
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PutDecodedDatumInto(m_data, name, StringSink(m_temp).Ref());
reinterpret_cast<ConstByteArrayParameter *>(pValue)->Assign(ConstBytePtr(m_temp), BytePtrSize(m_temp), false);
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}
else
throw ValueTypeMismatch(name, typeid(std::string), valueType);
return true;
}
private:
const TestData &m_data;
mutable std::string m_temp;
};
void TestKeyPairValidAndConsistent(CryptoMaterial &pub, const CryptoMaterial &priv, unsigned int &totalTests)
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{
totalTests++;
if (!pub.Validate(Test::GlobalRNG(), 2U+!!s_thorough))
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SignalTestFailure();
if (!priv.Validate(Test::GlobalRNG(), 2U+!!s_thorough))
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SignalTestFailure();
ByteQueue bq1, bq2;
pub.Save(bq1);
pub.AssignFrom(priv);
pub.Save(bq2);
if (bq1 != bq2)
SignalTestFailure();
}
void TestSignatureScheme(TestData &v, unsigned int &totalTests)
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{
std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
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static member_ptr<PK_Signer> signer;
static member_ptr<PK_Verifier> verifier;
static std::string lastName;
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if (name != lastName)
{
signer.reset(ObjectFactoryRegistry<PK_Signer>::Registry().CreateObject(name.c_str()));
verifier.reset(ObjectFactoryRegistry<PK_Verifier>::Registry().CreateObject(name.c_str()));
lastName = name;
// Code coverage
(void)signer->AlgorithmName();
(void)verifier->AlgorithmName();
(void)signer->AlgorithmProvider();
(void)verifier->AlgorithmProvider();
}
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TestDataNameValuePairs pairs(v);
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if (test == "GenerateKey")
{
totalTests++;
signer->AccessPrivateKey().GenerateRandom(Test::GlobalRNG(), pairs);
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verifier->AccessPublicKey().AssignFrom(signer->AccessPrivateKey());
}
else
{
std::string keyFormat = GetRequiredDatum(v, "KeyFormat");
totalTests++; // key format
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if (keyFormat == "DER")
verifier->AccessMaterial().Load(StringStore(GetDecodedDatum(v, "PublicKey")).Ref());
else if (keyFormat == "Component")
verifier->AccessMaterial().AssignFrom(pairs);
if (test == "Verify" || test == "NotVerify")
{
totalTests++;
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SignatureVerificationFilter verifierFilter(*verifier, NULLPTR, SignatureVerificationFilter::SIGNATURE_AT_BEGIN);
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PutDecodedDatumInto(v, "Signature", verifierFilter);
PutDecodedDatumInto(v, "Message", verifierFilter);
verifierFilter.MessageEnd();
if (verifierFilter.GetLastResult() == (test == "NotVerify"))
SignalTestFailure();
return;
}
else if (test == "PublicKeyValid")
{
totalTests++;
if (!verifier->GetMaterial().Validate(Test::GlobalRNG(), 3))
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SignalTestFailure();
return;
}
totalTests++; // key format
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if (keyFormat == "DER")
signer->AccessMaterial().Load(StringStore(GetDecodedDatum(v, "PrivateKey")).Ref());
else if (keyFormat == "Component")
signer->AccessMaterial().AssignFrom(pairs);
}
if (test == "GenerateKey" || test == "KeyPairValidAndConsistent")
{
totalTests++;
TestKeyPairValidAndConsistent(verifier->AccessMaterial(), signer->GetMaterial(),totalTests);
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SignatureVerificationFilter verifierFilter(*verifier, NULLPTR, SignatureVerificationFilter::THROW_EXCEPTION);
const byte msg[3] = {'a', 'b', 'c'};
verifierFilter.Put(msg, sizeof(msg));
StringSource ss(msg, sizeof(msg), true, new SignerFilter(Test::GlobalRNG(), *signer, new Redirector(verifierFilter)));
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}
else if (test == "Sign")
{
totalTests++;
SignerFilter f(Test::GlobalRNG(), *signer, new HexEncoder(new FileSink(std::cout)));
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StringSource ss(GetDecodedDatum(v, "Message"), true, new Redirector(f));
SignalTestFailure();
}
else if (test == "DeterministicSign")
{
totalTests++;
// This test is specialized for RFC 6979. The RFC is a drop-in replacement
// for DSA and ECDSA, and access to the seed or secret is not needed. If
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// additional deterministic signatures are added, then the test harness will
// likely need to be extended.
std::string signature;
SignerFilter f(Test::GlobalRNG(), *signer, new StringSink(signature));
StringSource ss(GetDecodedDatum(v, "Message"), true, new Redirector(f));
if (GetDecodedDatum(v, "Signature") != signature)
SignalTestFailure();
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}
else
{
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std::string msg("Unknown signature test \"" + test + "\"");
SignalTestError(msg.c_str());
CRYPTOPP_ASSERT(false);
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}
}
// Subset of TestSignatureScheme. We picked the tests that have data that is easy to write to a file.
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// Also see https://github.com/weidai11/cryptopp/issues/1010, where HIGHT broke when using FileSource.
void TestSignatureSchemeWithFileSource(TestData &v, unsigned int &totalTests)
{
std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
if (test != "Sign" && test != "DeterministicSign") { return; }
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static member_ptr<PK_Signer> signer;
static member_ptr<PK_Verifier> verifier;
static std::string lastName;
if (name != lastName)
{
signer.reset(ObjectFactoryRegistry<PK_Signer>::Registry().CreateObject(name.c_str()));
verifier.reset(ObjectFactoryRegistry<PK_Verifier>::Registry().CreateObject(name.c_str()));
name = lastName;
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// Code coverage
(void)signer->AlgorithmName();
(void)verifier->AlgorithmName();
(void)signer->AlgorithmProvider();
(void)verifier->AlgorithmProvider();
}
TestDataNameValuePairs pairs(v);
std::string keyFormat = GetRequiredDatum(v, "KeyFormat");
totalTests++; // key format
if (keyFormat == "DER")
verifier->AccessMaterial().Load(StringStore(GetDecodedDatum(v, "PublicKey")).Ref());
else if (keyFormat == "Component")
verifier->AccessMaterial().AssignFrom(pairs);
totalTests++; // key format
if (keyFormat == "DER")
signer->AccessMaterial().Load(StringStore(GetDecodedDatum(v, "PrivateKey")).Ref());
else if (keyFormat == "Component")
signer->AccessMaterial().AssignFrom(pairs);
if (test == "Sign")
{
totalTests++;
SignerFilter f(Test::GlobalRNG(), *signer, new HexEncoder(new FileSink(std::cout)));
StringSource ss(GetDecodedDatum(v, "Message"), true, new FileSink(testDataFilename.c_str()));
FileSource fs(testDataFilename.c_str(), true, new Redirector(f));
SignalTestFailure();
}
else if (test == "DeterministicSign")
{
totalTests++;
// This test is specialized for RFC 6979. The RFC is a drop-in replacement
// for DSA and ECDSA, and access to the seed or secret is not needed. If
// additional deterministic signatures are added, then the test harness will
// likely need to be extended.
std::string signature;
SignerFilter f(Test::GlobalRNG(), *signer, new StringSink(signature));
StringSource ss(GetDecodedDatum(v, "Message"), true, new FileSink(testDataFilename.c_str()));
FileSource fs(testDataFilename.c_str(), true, new Redirector(f));
if (GetDecodedDatum(v, "Signature") != signature)
SignalTestFailure();
}
}
void TestAsymmetricCipher(TestData &v, unsigned int &totalTests)
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{
std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
static member_ptr<PK_Encryptor> encryptor;
static member_ptr<PK_Decryptor> decryptor;
static std::string lastName;
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if (name != lastName)
{
encryptor.reset(ObjectFactoryRegistry<PK_Encryptor>::Registry().CreateObject(name.c_str()));
decryptor.reset(ObjectFactoryRegistry<PK_Decryptor>::Registry().CreateObject(name.c_str()));
lastName = name;
// Code coverage
(void)encryptor->AlgorithmName();
(void)decryptor->AlgorithmName();
(void)encryptor->AlgorithmProvider();
(void)decryptor->AlgorithmProvider();
}
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std::string keyFormat = GetRequiredDatum(v, "KeyFormat");
if (keyFormat == "DER")
{
totalTests++;
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decryptor->AccessMaterial().Load(StringStore(GetDecodedDatum(v, "PrivateKey")).Ref());
encryptor->AccessMaterial().Load(StringStore(GetDecodedDatum(v, "PublicKey")).Ref());
}
else if (keyFormat == "Component")
{
totalTests++;
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TestDataNameValuePairs pairs(v);
decryptor->AccessMaterial().AssignFrom(pairs);
encryptor->AccessMaterial().AssignFrom(pairs);
}
if (test == "DecryptMatch")
{
totalTests++;
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std::string decrypted, expected = GetDecodedDatum(v, "Plaintext");
StringSource ss(GetDecodedDatum(v, "Ciphertext"), true, new PK_DecryptorFilter(Test::GlobalRNG(), *decryptor, new StringSink(decrypted)));
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if (decrypted != expected)
SignalTestFailure();
}
else if (test == "KeyPairValidAndConsistent")
{
totalTests++;
TestKeyPairValidAndConsistent(encryptor->AccessMaterial(), decryptor->GetMaterial(), totalTests);
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}
else
{
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std::string msg("Unknown asymmetric cipher test \"" + test + "\"");
SignalTestError(msg.c_str());
CRYPTOPP_ASSERT(false);
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}
}
void TestSymmetricCipher(TestData &v, const NameValuePairs &overrideParameters, unsigned int &totalTests)
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{
std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
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std::string key = GetDecodedDatum(v, "Key");
std::string plaintext = GetDecodedDatum(v, "Plaintext");
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TestDataNameValuePairs testDataPairs(v);
CombinedNameValuePairs pairs(overrideParameters, testDataPairs);
if (test == "Encrypt" || test == "EncryptXorDigest" || test == "Resync" || test == "EncryptionMCT" || test == "DecryptionMCT")
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{
static member_ptr<SymmetricCipher> encryptor, decryptor;
static std::string lastName;
totalTests++;
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if (name != lastName)
{
encryptor.reset(ObjectFactoryRegistry<SymmetricCipher, ENCRYPTION>::Registry().CreateObject(name.c_str()));
decryptor.reset(ObjectFactoryRegistry<SymmetricCipher, DECRYPTION>::Registry().CreateObject(name.c_str()));
lastName = name;
// Code coverage
(void)encryptor->AlgorithmName();
(void)decryptor->AlgorithmName();
(void)encryptor->AlgorithmProvider();
(void)decryptor->AlgorithmProvider();
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(void)encryptor->IsRandomAccess();
(void)decryptor->IsRandomAccess();
(void)encryptor->MinKeyLength();
(void)decryptor->MinKeyLength();
(void)encryptor->MaxKeyLength();
(void)decryptor->MaxKeyLength();
(void)encryptor->DefaultKeyLength();
(void)decryptor->DefaultKeyLength();
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}
ConstByteArrayParameter iv;
if (pairs.GetValue(Name::IV(), iv) && iv.size() != encryptor->IVSize())
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SignalTestFailure();
if (test == "Resync")
{
encryptor->Resynchronize(iv.begin(), (int)iv.size());
decryptor->Resynchronize(iv.begin(), (int)iv.size());
}
else
{
encryptor->SetKey(ConstBytePtr(key), BytePtrSize(key), pairs);
decryptor->SetKey(ConstBytePtr(key), BytePtrSize(key), pairs);
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}
word64 seek64 = pairs.GetWord64ValueWithDefault("Seek64", 0);
if (seek64)
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{
encryptor->Seek(seek64);
decryptor->Seek(seek64);
}
else
{
int seek = pairs.GetIntValueWithDefault("Seek", 0);
if (seek)
{
encryptor->Seek(seek);
decryptor->Seek(seek);
}
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}
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// Most block ciphers don't specify BlockPaddingScheme. Kalyna uses it
// in test vectors. 0 is NoPadding, 1 is ZerosPadding, 2 is PkcsPadding,
// 3 is OneAndZerosPadding, etc. Note: The machinery is wired such that
// paddingScheme is effectively latched. An old paddingScheme may be
// unintentionally used in a subsequent test.
int paddingScheme = pairs.GetIntValueWithDefault(Name::BlockPaddingScheme(), 0);
std::string encrypted, xorDigest, ciphertext, ciphertextXorDigest;
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if (test == "EncryptionMCT" || test == "DecryptionMCT")
{
SymmetricCipher *cipher = encryptor.get();
std::string buf(plaintext), keybuf(key);
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if (test == "DecryptionMCT")
{
cipher = decryptor.get();
ciphertext = GetDecodedDatum(v, "Ciphertext");
buf.assign(ciphertext.begin(), ciphertext.end());
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}
for (int i=0; i<400; i++)
{
encrypted.reserve(10000 * plaintext.size());
for (int j=0; j<10000; j++)
{
cipher->ProcessString(BytePtr(buf), BytePtrSize(buf));
encrypted.append(buf.begin(), buf.end());
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}
encrypted.erase(0, encrypted.size() - keybuf.size());
xorbuf(BytePtr(keybuf), BytePtr(encrypted), BytePtrSize(keybuf));
cipher->SetKey(BytePtr(keybuf), BytePtrSize(keybuf));
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}
encrypted.assign(buf.begin(), buf.end());
ciphertext = GetDecodedDatum(v, test == "EncryptionMCT" ? "Ciphertext" : "Plaintext");
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if (encrypted != ciphertext)
{
std::cout << "\nincorrectly encrypted: ";
StringSource ss(encrypted, false, new HexEncoder(new FileSink(std::cout)));
ss.Pump(256); ss.Flush(false);
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std::cout << "\n";
SignalTestFailure();
}
return;
}
StreamTransformationFilter encFilter(*encryptor, new StringSink(encrypted),
static_cast<BlockPaddingSchemeDef::BlockPaddingScheme>(paddingScheme));
StringStore pstore(plaintext);
RandomizedTransfer(pstore, encFilter, true);
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encFilter.MessageEnd();
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if (test != "EncryptXorDigest")
{
ciphertext = GetDecodedDatum(v, "Ciphertext");
}
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else
{
ciphertextXorDigest = GetDecodedDatum(v, "CiphertextXorDigest");
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xorDigest.append(encrypted, 0, 64);
for (size_t i=64; i<encrypted.size(); i++)
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xorDigest[i%64] = static_cast<char>(xorDigest[i%64] ^ encrypted[i]);
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}
if (test != "EncryptXorDigest" ? encrypted != ciphertext : xorDigest != ciphertextXorDigest)
{
std::cout << "\nincorrectly encrypted: ";
StringSource ss(encrypted, false, new HexEncoder(new FileSink(std::cout)));
ss.Pump(2048); ss.Flush(false);
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std::cout << "\n";
SignalTestFailure();
}
std::string decrypted;
StreamTransformationFilter decFilter(*decryptor, new StringSink(decrypted),
static_cast<BlockPaddingSchemeDef::BlockPaddingScheme>(paddingScheme));
StringStore cstore(encrypted);
RandomizedTransfer(cstore, decFilter, true);
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decFilter.MessageEnd();
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if (decrypted != plaintext)
{
std::cout << "\nincorrectly decrypted: ";
StringSource ss(decrypted, false, new HexEncoder(new FileSink(std::cout)));
ss.Pump(256); ss.Flush(false);
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std::cout << "\n";
SignalTestFailure();
}
}
else
{
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std::string msg("Unknown symmetric cipher test \"" + test + "\"");
SignalTestError(msg.c_str());
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}
}
// Subset of TestSymmetricCipher. We picked the tests that have data that is easy to write to a file.
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// Also see https://github.com/weidai11/cryptopp/issues/1010, where HIGHT broke when using FileSource.
void TestSymmetricCipherWithFileSource(TestData &v, const NameValuePairs &overrideParameters, unsigned int &totalTests)
{
std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
// Limit FileSource tests to Encrypt only.
if (test != "Encrypt") { return; }
totalTests++;
std::string key = GetDecodedDatum(v, "Key");
std::string plaintext = GetDecodedDatum(v, "Plaintext");
TestDataNameValuePairs testDataPairs(v);
CombinedNameValuePairs pairs(overrideParameters, testDataPairs);
static member_ptr<SymmetricCipher> encryptor, decryptor;
static std::string lastName;
if (name != lastName)
{
encryptor.reset(ObjectFactoryRegistry<SymmetricCipher, ENCRYPTION>::Registry().CreateObject(name.c_str()));
decryptor.reset(ObjectFactoryRegistry<SymmetricCipher, DECRYPTION>::Registry().CreateObject(name.c_str()));
lastName = name;
// Code coverage
(void)encryptor->AlgorithmName();
(void)decryptor->AlgorithmName();
(void)encryptor->AlgorithmProvider();
(void)decryptor->AlgorithmProvider();
(void)encryptor->MinKeyLength();
(void)decryptor->MinKeyLength();
(void)encryptor->MaxKeyLength();
(void)decryptor->MaxKeyLength();
(void)encryptor->DefaultKeyLength();
(void)decryptor->DefaultKeyLength();
}
ConstByteArrayParameter iv;
if (pairs.GetValue(Name::IV(), iv) && iv.size() != encryptor->IVSize())
SignalTestFailure();
encryptor->SetKey(ConstBytePtr(key), BytePtrSize(key), pairs);
decryptor->SetKey(ConstBytePtr(key), BytePtrSize(key), pairs);
word64 seek64 = pairs.GetWord64ValueWithDefault("Seek64", 0);
if (seek64)
{
encryptor->Seek(seek64);
decryptor->Seek(seek64);
}
else
{
int seek = pairs.GetIntValueWithDefault("Seek", 0);
if (seek)
{
encryptor->Seek(seek);
decryptor->Seek(seek);
}
}
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// Most block ciphers don't specify BlockPaddingScheme. Kalyna uses it
// in test vectors. 0 is NoPadding, 1 is ZerosPadding, 2 is PkcsPadding,
// 3 is OneAndZerosPadding, etc. Note: The machinery is wired such that
// paddingScheme is effectively latched. An old paddingScheme may be
// unintentionally used in a subsequent test.
int paddingScheme = pairs.GetIntValueWithDefault(Name::BlockPaddingScheme(), 0);
std::string encrypted, ciphertext;
StreamTransformationFilter encFilter(*encryptor, new StringSink(encrypted),
static_cast<BlockPaddingSchemeDef::BlockPaddingScheme>(paddingScheme));
StringSource ss(plaintext, true, new FileSink(testDataFilename.c_str()));
FileSource pstore(testDataFilename.c_str(), true);
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RandomizedTransfer(pstore, encFilter, true);
encFilter.MessageEnd();
ciphertext = GetDecodedDatum(v, "Ciphertext");
if (encrypted != ciphertext)
{
std::cout << "\nincorrectly encrypted: ";
StringSource sss(encrypted, false, new HexEncoder(new FileSink(std::cout)));
sss.Pump(2048); sss.Flush(false);
std::cout << "\n";
SignalTestFailure();
}
std::string decrypted;
StreamTransformationFilter decFilter(*decryptor, new StringSink(decrypted),
static_cast<BlockPaddingSchemeDef::BlockPaddingScheme>(paddingScheme));
StringStore cstore(encrypted);
RandomizedTransfer(cstore, decFilter, true);
decFilter.MessageEnd();
if (decrypted != plaintext)
{
std::cout << "\nincorrectly decrypted: ";
StringSource sss(decrypted, false, new HexEncoder(new FileSink(std::cout)));
sss.Pump(256); sss.Flush(false);
std::cout << "\n";
SignalTestFailure();
}
}
void TestAuthenticatedSymmetricCipher(TestData &v, const NameValuePairs &overrideParameters, unsigned int &totalTests)
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{
std::string type = GetRequiredDatum(v, "AlgorithmType");
std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
std::string key = GetDecodedDatum(v, "Key");
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std::string plaintext = GetOptionalDecodedDatum(v, "Plaintext");
std::string ciphertext = GetOptionalDecodedDatum(v, "Ciphertext");
std::string header = GetOptionalDecodedDatum(v, "Header");
std::string footer = GetOptionalDecodedDatum(v, "Footer");
std::string mac = GetOptionalDecodedDatum(v, "MAC");
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TestDataNameValuePairs testDataPairs(v);
CombinedNameValuePairs pairs(overrideParameters, testDataPairs);
if (test == "Encrypt" || test == "EncryptXorDigest" || test == "NotVerify")
{
totalTests++;
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static member_ptr<AuthenticatedSymmetricCipher> encryptor;
static member_ptr<AuthenticatedSymmetricCipher> decryptor;
static std::string lastName;
if (name != lastName)
{
encryptor.reset(ObjectFactoryRegistry<AuthenticatedSymmetricCipher, ENCRYPTION>::Registry().CreateObject(name.c_str()));
decryptor.reset(ObjectFactoryRegistry<AuthenticatedSymmetricCipher, DECRYPTION>::Registry().CreateObject(name.c_str()));
name = lastName;
// Code coverage
(void)encryptor->AlgorithmName();
(void)decryptor->AlgorithmName();
(void)encryptor->AlgorithmProvider();
(void)decryptor->AlgorithmProvider();
(void)encryptor->MinKeyLength();
(void)decryptor->MinKeyLength();
(void)encryptor->MaxKeyLength();
(void)decryptor->MaxKeyLength();
(void)encryptor->DefaultKeyLength();
(void)decryptor->DefaultKeyLength();
(void)encryptor->IsRandomAccess();
(void)decryptor->IsRandomAccess();
(void)encryptor->IsSelfInverting();
(void)decryptor->IsSelfInverting();
(void)encryptor->MaxHeaderLength();
(void)decryptor->MaxHeaderLength();
(void)encryptor->MaxMessageLength();
(void)decryptor->MaxMessageLength();
(void)encryptor->MaxFooterLength();
(void)decryptor->MaxFooterLength();
(void)encryptor->NeedsPrespecifiedDataLengths();
(void)decryptor->NeedsPrespecifiedDataLengths();
}
encryptor->SetKey(ConstBytePtr(key), BytePtrSize(key), pairs);
decryptor->SetKey(ConstBytePtr(key), BytePtrSize(key), pairs);
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std::string encrypted, decrypted;
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AuthenticatedEncryptionFilter ef(*encryptor, new StringSink(encrypted));
bool macAtBegin = !mac.empty() && !Test::GlobalRNG().GenerateBit(); // test both ways randomly
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AuthenticatedDecryptionFilter df(*decryptor, new StringSink(decrypted), macAtBegin ? AuthenticatedDecryptionFilter::MAC_AT_BEGIN : 0);
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if (encryptor->NeedsPrespecifiedDataLengths())
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{
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encryptor->SpecifyDataLengths(header.size(), plaintext.size(), footer.size());
decryptor->SpecifyDataLengths(header.size(), plaintext.size(), footer.size());
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}
StringStore sh(header), sp(plaintext), sc(ciphertext), sf(footer), sm(mac);
if (macAtBegin)
RandomizedTransfer(sm, df, true);
sh.CopyTo(df, LWORD_MAX, AAD_CHANNEL);
RandomizedTransfer(sc, df, true);
sf.CopyTo(df, LWORD_MAX, AAD_CHANNEL);
if (!macAtBegin)
RandomizedTransfer(sm, df, true);
df.MessageEnd();
RandomizedTransfer(sh, ef, true, AAD_CHANNEL);
RandomizedTransfer(sp, ef, true);
RandomizedTransfer(sf, ef, true, AAD_CHANNEL);
ef.MessageEnd();
if (test == "Encrypt" && encrypted != ciphertext+mac)
{
std::cout << "\nincorrectly encrypted: ";
StringSource ss(encrypted, false, new HexEncoder(new FileSink(std::cout)));
ss.Pump(2048); ss.Flush(false);
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std::cout << "\n";
SignalTestFailure();
}
if (test == "Encrypt" && decrypted != plaintext)
{
std::cout << "\nincorrectly decrypted: ";
StringSource ss(decrypted, false, new HexEncoder(new FileSink(std::cout)));
ss.Pump(256); ss.Flush(false);
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std::cout << "\n";
SignalTestFailure();
}
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if (ciphertext.size()+mac.size()-plaintext.size() != encryptor->DigestSize())
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{
std::cout << "\nbad MAC size\n";
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SignalTestFailure();
}
if (df.GetLastResult() != (test == "Encrypt"))
{
std::cout << "\nMAC incorrectly verified\n";
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SignalTestFailure();
}
}
else
{
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std::string msg("Unknown authenticated symmetric cipher test \"" + test + "\"");
SignalTestError(msg.c_str());
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}
}
void TestDigestOrMAC(TestData &v, bool testDigest, unsigned int &totalTests)
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{
std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
const char *digestName = testDigest ? "Digest" : "MAC";
member_ptr<MessageAuthenticationCode> mac;
member_ptr<HashTransformation> hash;
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HashTransformation *pHash = NULLPTR;
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TestDataNameValuePairs pairs(v);
if (testDigest)
{
hash.reset(ObjectFactoryRegistry<HashTransformation>::Registry().CreateObject(name.c_str()));
pHash = hash.get();
// Code coverage
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(void)hash->AlgorithmName();
(void)hash->AlgorithmProvider();
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(void)hash->TagSize();
(void)hash->DigestSize();
(void)hash->Restart();
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}
else
{
mac.reset(ObjectFactoryRegistry<MessageAuthenticationCode>::Registry().CreateObject(name.c_str()));
pHash = mac.get();
std::string key = GetDecodedDatum(v, "Key");
mac->SetKey(ConstBytePtr(key), BytePtrSize(key), pairs);
// Code coverage
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(void)mac->AlgorithmName();
(void)mac->AlgorithmProvider();
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(void)mac->TagSize();
(void)mac->DigestSize();
(void)mac->Restart();
(void)mac->MinKeyLength();
(void)mac->MaxKeyLength();
(void)mac->DefaultKeyLength();
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}
if (test == "Verify" || test == "VerifyTruncated" || test == "NotVerify")
{
totalTests++;
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int digestSize = -1;
if (test == "VerifyTruncated")
digestSize = pairs.GetIntValueWithDefault(Name::DigestSize(), digestSize);
2017-03-01 11:10:06 +00:00
HashVerificationFilter verifierFilter(*pHash, NULLPTR, HashVerificationFilter::HASH_AT_BEGIN, digestSize);
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PutDecodedDatumInto(v, digestName, verifierFilter);
PutDecodedDatumInto(v, "Message", verifierFilter);
verifierFilter.MessageEnd();
if (verifierFilter.GetLastResult() == (test == "NotVerify"))
SignalTestFailure();
}
else
{
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std::string msg("Unknown digest or mac test \"" + test + "\"");
SignalTestError(msg.c_str());
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}
}
void TestKeyDerivationFunction(TestData &v, unsigned int &totalTests)
{
totalTests++;
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std::string name = GetRequiredDatum(v, "Name");
std::string test = GetRequiredDatum(v, "Test");
if(test == "Skip") return;
std::string secret = GetDecodedDatum(v, "Secret");
std::string expected = GetDecodedDatum(v, "DerivedKey");
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TestDataNameValuePairs pairs(v);
2021-03-19 23:46:14 +00:00
static member_ptr<KeyDerivationFunction> kdf;
static std::string lastName;
if (name != lastName)
{
kdf.reset(ObjectFactoryRegistry<KeyDerivationFunction>::Registry().CreateObject(name.c_str()));
name = lastName;
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// Code coverage
(void)kdf->AlgorithmName();
(void)kdf->AlgorithmProvider();
(void)kdf->MinDerivedKeyLength();
(void)kdf->MaxDerivedKeyLength();
}
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std::string calculated; calculated.resize(expected.size());
kdf->DeriveKey(BytePtr(calculated), BytePtrSize(calculated), BytePtr(secret), BytePtrSize(secret), pairs);
if(calculated != expected)
{
std::cerr << "Calculated: ";
StringSource(calculated, true, new HexEncoder(new FileSink(std::cerr)));
std::cerr << std::endl;
2016-07-24 23:28:01 +00:00
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SignalTestFailure();
}
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}
inline char FirstChar(const std::string& str) {
if (str.empty()) return 0;
return str[0];
}
inline char LastChar(const std::string& str) {
if (str.empty()) return 0;
return str[str.length()-1];
}
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// GetField parses the name/value pairs. If this function is modified,
// then run 'cryptest.exe tv all' to ensure parsing still works.
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bool GetField(std::istream &is, std::string &name, std::string &value)
{
std::string line;
name.clear(); value.clear();
// ***** Name *****
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while (Readline(is, line))
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{
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// Eat empty lines and comments gracefully
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line = TrimSpace(line);
if (line.empty() || line[0] == '#')
continue;
std::string::size_type pos = line.find(':');
if (pos == std::string::npos)
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SignalTestError("Unable to parse name/value pair");
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name = TrimSpace(line.substr(0, pos));
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line = TrimSpace(line.substr(pos +1));
// Empty name is bad
if (name.empty())
return false;
// Empty value is ok
if (line.empty())
return true;
break;
}
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// ***** Value *****
bool continueLine = true;
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do
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{
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continueLine = false;
// Trim leading and trailing whitespace. Don't parse comments
// here because there may be a line continuation at the end.
line = TrimSpace(line);
if (line.empty())
continue;
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// Check for continuation. The slash must be the last character.
if (LastChar(line) == '\\') {
continueLine = true;
line.erase(line.end()-1);
}
// Re-trim after parsing
line = TrimComment(line);
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line = TrimSpace(line);
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if (line.empty())
continue;
// Finally... the value
value += line;
if (continueLine)
2017-05-14 17:51:41 +00:00
value += ' ';
}
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while (continueLine && Readline(is, line));
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return true;
}
void OutputPair(const NameValuePairs &v, const char *name)
{
Integer x;
bool b = v.GetValue(name, x);
CRYPTOPP_UNUSED(b); CRYPTOPP_ASSERT(b);
std::cout << name << ": \\\n ";
x.Encode(HexEncoder(new FileSink(std::cout), false, 64, "\\\n ").Ref(), x.MinEncodedSize());
std::cout << std::endl;
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}
void OutputNameValuePairs(const NameValuePairs &v)
{
std::string names = v.GetValueNames();
std::string::size_type i = 0;
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while (i < names.size())
{
std::string::size_type j = names.find_first_of (';', i);
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if (j == std::string::npos)
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return;
else
{
std::string name = names.substr(i, j-i);
if (name.find(':') == std::string::npos)
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OutputPair(v, name.c_str());
}
i = j + 1;
}
}
void TestDataFile(std::string filename, const NameValuePairs &overrideParameters, unsigned int &totalTests, unsigned int &failedTests)
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{
std::ifstream file(DataDir(filename).c_str());
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if (!file.good())
throw Exception(Exception::OTHER_ERROR, "Can not open file " + DataDir(filename) + " for reading");
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TestData v;
s_currentTestData = &v;
std::string name, value, lastAlgName;
while (file)
{
if (!GetField(file, name, value))
break;
if (name == "AlgorithmType")
v.clear();
// Can't assert value. Plaintext is sometimes empty.
// CRYPTOPP_ASSERT(!value.empty());
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v[name] = value;
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// The name "Test" is special. It tells the framework
// to run the test. Otherwise, name/value pairs are
// parsed and added to TestData 'v'.
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if (name == "Test" && (s_thorough || v["SlowTest"] != "1"))
{
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bool failed = false;
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std::string algType = GetRequiredDatum(v, "AlgorithmType");
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std::string algName = GetRequiredDatum(v, "Name");
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if (lastAlgName != algName)
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{
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std::cout << "\nTesting " << algType << " algorithm " << algName << ".\n";
lastAlgName = algName;
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}
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// In the old days each loop ran one test. Later, things were modified to run the
// the same test twice. Some tests are run with both a StringSource and a FileSource
// to catch FileSource specific errors. currentTests and deltaTests (below) keep
// the book keeping in order.
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unsigned int currentTests = totalTests;
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try
{
if (algType == "Signature")
{
TestSignatureScheme(v, totalTests);
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TestSignatureSchemeWithFileSource(v, totalTests);
}
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else if (algType == "SymmetricCipher")
{
TestSymmetricCipher(v, overrideParameters, totalTests);
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TestSymmetricCipherWithFileSource(v, overrideParameters, totalTests);
}
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else if (algType == "AuthenticatedSymmetricCipher")
TestAuthenticatedSymmetricCipher(v, overrideParameters, totalTests);
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else if (algType == "AsymmetricCipher")
TestAsymmetricCipher(v, totalTests);
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else if (algType == "MessageDigest")
TestDigestOrMAC(v, true, totalTests);
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else if (algType == "MAC")
TestDigestOrMAC(v, false, totalTests);
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else if (algType == "KDF")
TestKeyDerivationFunction(v, totalTests);
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else if (algType == "FileList")
TestDataFile(GetRequiredDatum(v, "Test"), g_nullNameValuePairs, totalTests, failedTests);
else
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SignalUnknownAlgorithmError(algType);
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}
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catch (const TestFailure &)
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{
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failed = true;
std::cout << "\nTest FAILED.\n";
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}
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catch (const Exception &e)
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{
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failed = true;
std::cout << "\nCryptoPP::Exception caught: " << e.what() << std::endl;
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}
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catch (const std::exception &e)
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{
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failed = true;
std::cout << "\nstd::exception caught: " << e.what() << std::endl;
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}
if (failed)
{
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std::cout << "Skipping to next test." << std::endl;
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failedTests++;
}
else
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{
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if (algType != "FileList")
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{
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unsigned int deltaTests = totalTests-currentTests;
if (deltaTests)
{
std::string progress(deltaTests, '.');
std::cout << progress;
if (currentTests % 4 == 0)
std::cout << std::flush;
}
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}
}
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// Most tests fully specify parameters, like key and iv. Each test gets
// its own unique value. Since each test gets a new value for each test
// case, latching a value in 'TestData v' does not matter. The old key
// or iv will get overwritten on the next test.
//
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// If a per-test vector parameter was set for a test, like BlockPadding,
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// BlockSize or Tweak, then it becomes latched in 'TestData v'. The old
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// value is used in subsequent tests, and it could cause a self test
// failure in the next test. The behavior surfaced under Kalyna and
// Threefish. The Kalyna test vectors use NO_PADDING for all tests except
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// one. Threefish occasionally uses a Tweak.
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//
// Unlatch BlockPadding, BlockSize and Tweak now, after the test has been
// run. Also note we only unlatch from 'TestData v'. If overrideParameters
// are specified, the caller is responsible for managing the parameter.
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v.erase("Tweak"); v.erase("InitialBlock");
v.erase("BlockSize"); v.erase("BlockPaddingScheme");
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}
}
}
ANONYMOUS_NAMESPACE_END
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bool RunTestDataFile(const char *filename, const NameValuePairs &overrideParameters, bool thorough)
{
s_thorough = thorough;
unsigned int totalTests = 0, failedTests = 0;
TestDataFile((filename ? filename : ""), overrideParameters, totalTests, failedTests);
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std::cout << std::dec << "\nTests complete. Total tests = " << totalTests << ". Failed tests = " << failedTests << "." << std::endl;
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if (failedTests != 0)
std::cout << "SOME TESTS FAILED!\n";
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CRYPTOPP_ASSERT(failedTests == 0);
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return failedTests == 0;
}
NAMESPACE_END // Test
NAMESPACE_END // CryptoPP