Commit 85aa1bec authored by msvensson@pilot.blaudden's avatar msvensson@pilot.blaudden

Merge pilot.blaudden:/home/msvensson/mysql/mysql-5.0-maint

into  pilot.blaudden:/home/msvensson/mysql/mysql-5.1-maint
parents c4e20a9c c06e2804
*****************yaSSL Release notes, version 1.6.0 (2/22/07)
This release of yaSSL contains bug fixes, portability enhancements, and
better X509 support.
See normal build instructions below under 1.0.6.
See libcurl build instructions below under 1.3.0 and note in 1.5.8.
*****************yaSSL Release notes, version 1.5.8 (1/10/07)
This release of yaSSL contains bug fixes, portability enhancements, and
......
......@@ -49,13 +49,11 @@ const uint AUTO = 0xFEEDBEEF;
// Checking Policy should implement a check function that tests whether the
// index is within the size limit of the array
struct Check {
Check() {}
void check(uint i, uint limit);
};
struct NoCheck {
NoCheck() {}
void check(uint, uint);
};
......@@ -193,7 +191,6 @@ inline void checked_delete(T* p)
// sets pointer to zero so safe for std conatiners
struct del_ptr_zero
{
del_ptr_zero() {}
template <typename T>
void operator()(T*& p) const
{
......
......@@ -42,7 +42,6 @@ namespace yaSSL {
// Digest policy should implement a get_digest, update, and get sizes for pad
// and digest
struct Digest : public virtual_base {
Digest() {}
virtual void get_digest(byte*) = 0;
virtual void get_digest(byte*, const byte*, unsigned int) = 0;
virtual void update(const byte*, unsigned int) = 0;
......@@ -54,7 +53,6 @@ struct Digest : public virtual_base {
// For use with NULL Digests
struct NO_MAC : public Digest {
NO_MAC() {}
void get_digest(byte*);
void get_digest(byte*, const byte*, unsigned int);
void update(const byte*, unsigned int);
......@@ -179,7 +177,6 @@ private:
// BulkCipher policy should implement encrypt, decrypt, get block size,
// and set keys for encrypt and decrypt
struct BulkCipher : public virtual_base {
BulkCipher() {}
virtual void encrypt(byte*, const byte*, unsigned int) = 0;
virtual void decrypt(byte*, const byte*, unsigned int) = 0;
virtual void set_encryptKey(const byte*, const byte* = 0) = 0;
......@@ -193,7 +190,6 @@ struct BulkCipher : public virtual_base {
// For use with NULL Ciphers
struct NO_Cipher : public BulkCipher {
NO_Cipher() {}
void encrypt(byte*, const byte*, unsigned int) {}
void decrypt(byte*, const byte*, unsigned int) {}
void set_encryptKey(const byte*, const byte*) {}
......@@ -315,14 +311,12 @@ struct Auth : public virtual_base {
virtual bool verify(const byte*, unsigned int, const byte*,
unsigned int) = 0;
virtual uint get_signatureLength() const = 0;
Auth() {}
virtual ~Auth() {}
};
// For use with NULL Authentication schemes
struct NO_Auth : public Auth {
NO_Auth() {}
void sign(byte*, const byte*, unsigned int, const RandomPool&) {}
bool verify(const byte*, unsigned int, const byte*, unsigned int)
{ return true; }
......
......@@ -33,14 +33,9 @@
#include "opensslv.h" /* for version number */
#include "rsa.h"
#define YASSL_VERSION "1.5.8"
#if defined(_WIN32) || defined(_WIN64)
#include <winsock2.h>
typedef SOCKET socket_t;
#else
typedef int socket_t;
#endif
#define YASSL_VERSION "1.6.5"
#if defined(__cplusplus)
extern "C" {
......@@ -198,7 +193,7 @@ enum { /* ERR Constants */
SSL_CTX* SSL_CTX_new(SSL_METHOD*);
SSL* SSL_new(SSL_CTX*);
int SSL_set_fd (SSL*, socket_t);
int SSL_set_fd (SSL*, int);
int SSL_connect(SSL*);
int SSL_write(SSL*, const void*, int);
int SSL_read(SSL*, void*, int);
......
......@@ -43,7 +43,10 @@ namespace yaSSL {
typedef unsigned int uint;
#if !defined( _WIN32) && !defined(_WIN64)
#ifdef _WIN32
typedef SOCKET socket_t;
#else
typedef int socket_t;
const socket_t INVALID_SOCKET = -1;
const int SD_RECEIVE = 0;
const int SD_SEND = 1;
......
......@@ -64,7 +64,6 @@ struct RecordLayerHeader {
// base for all messages
struct Message : public virtual_base {
Message() {}
virtual input_buffer& set(input_buffer&) =0;
virtual output_buffer& get(output_buffer&) const =0;
......@@ -178,7 +177,6 @@ private:
class HandShakeBase : public virtual_base {
int length_;
public:
HandShakeBase() {}
int get_length() const;
void set_length(int);
......@@ -196,7 +194,6 @@ public:
struct HelloRequest : public HandShakeBase {
HelloRequest() {}
input_buffer& set(input_buffer& in);
output_buffer& get(output_buffer& out) const;
......@@ -330,7 +327,6 @@ private:
struct ServerKeyBase : public virtual_base {
ServerKeyBase() {}
virtual ~ServerKeyBase() {}
virtual void build(SSL&) {}
virtual void read(SSL&, input_buffer&) {}
......@@ -341,21 +337,15 @@ struct ServerKeyBase : public virtual_base {
// Server random number for FORTEZZA KEA
struct Fortezza_Server : public ServerKeyBase {
Fortezza_Server() {}
opaque r_s_[FORTEZZA_MAX];
};
struct SignatureBase : public virtual_base {
SignatureBase() {}
virtual ~SignatureBase() {}
};
struct anonymous_sa : public SignatureBase
{
public:
anonymous_sa() {}
};
struct anonymous_sa : public SignatureBase {};
struct Hashes {
......@@ -365,13 +355,11 @@ struct Hashes {
struct rsa_sa : public SignatureBase {
rsa_sa() {}
Hashes hashes_;
};
struct dsa_sa : public SignatureBase {
dsa_sa() {}
uint8 sha_[SHA_LEN];
};
......@@ -399,7 +387,6 @@ private:
// Server's RSA exchange
struct RSA_Server : public ServerKeyBase {
RSA_Server() {}
ServerRSAParams params_;
opaque* signature_; // signed rsa_sa hashes
};
......@@ -474,7 +461,6 @@ struct PreMasterSecret {
struct ClientKeyBase : public virtual_base {
ClientKeyBase() {}
virtual ~ClientKeyBase() {}
virtual void build(SSL&) {}
virtual void read(SSL&, input_buffer&) {}
......@@ -505,7 +491,6 @@ private:
// Fortezza Key Parameters from page 29
// hard code lengths cause only used here
struct FortezzaKeys : public ClientKeyBase {
FortezzaKeys() {}
opaque y_c_ [128]; // client's Yc, public value
opaque r_c_ [128]; // client's Rc
opaque y_signature_ [40]; // DSS signed public key
......
......@@ -228,7 +228,6 @@ struct BIGNUM {
TaoCrypt::Integer), we need to explicitly state the namespace
here to let gcc 2.96 deduce the correct type.
*/
BIGNUM() {}
yaSSL::Integer int_;
void assign(const byte* b, uint s) { int_.assign(b,s); }
};
......
......@@ -550,7 +550,6 @@ void RandomPool::Fill(opaque* dst, uint sz) const
// Implementation of DSS Authentication
struct DSS::DSSImpl {
DSSImpl() {}
void SetPublic (const byte*, unsigned int);
void SetPrivate(const byte*, unsigned int);
TaoCrypt::DSA_PublicKey publicKey_;
......@@ -623,7 +622,6 @@ bool DSS::verify(const byte* sha_digest, unsigned int /* shaSz */,
// Implementation of RSA key interface
struct RSA::RSAImpl {
RSAImpl() {}
void SetPublic (const byte*, unsigned int);
void SetPrivate(const byte*, unsigned int);
TaoCrypt::RSA_PublicKey publicKey_;
......
......@@ -233,7 +233,7 @@ void SSL_free(SSL* ssl)
}
int SSL_set_fd(SSL* ssl, socket_t fd)
int SSL_set_fd(SSL* ssl, int fd)
{
ssl->useSocket().set_fd(fd);
return SSL_SUCCESS;
......@@ -954,7 +954,7 @@ void ERR_print_errors_fp(FILE* /*fp*/)
char* ERR_error_string(unsigned long errNumber, char* buffer)
{
static char* msg = (char*) "Please supply a buffer for error string";
static char* msg = "Please supply a buffer for error string";
if (buffer) {
SetErrorString(YasslError(errNumber), buffer);
......
TaoCrypt release 0.9.0 09/18/2006
TaoCrypt release 0.9.2 02/5/2007
This release includes bug fixes, portability enhancements, and some
optimiations.
See 0.9.0 for build instructions.
******************TaoCrypt release 0.9.0 09/18/2006
This is the first release of TaoCrypt, it was previously only included with
yaSSL. TaoCrypt is highly portable and fast, its features include:
......
......@@ -65,7 +65,7 @@ int main(int argc, char** argv)
const int megs = 5; // how much to test
const byte global_key[] =
const byte key[] =
{
0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef,
0xfe,0xde,0xba,0x98,0x76,0x54,0x32,0x10,
......@@ -81,19 +81,19 @@ const byte iv[] =
};
byte global_plain [1024*1024];
byte global_cipher[1024*1024];
byte plain [1024*1024];
byte cipher[1024*1024];
void bench_des()
{
DES_EDE3_CBC_Encryption enc;
enc.SetKey(global_key, 16, iv);
enc.SetKey(key, 16, iv);
double start = current_time();
for(int i = 0; i < megs; i++)
enc.Process(global_plain, global_cipher, sizeof(global_plain));
enc.Process(plain, cipher, sizeof(plain));
double total = current_time() - start;
......@@ -107,12 +107,12 @@ void bench_des()
void bench_aes(bool show)
{
AES_CBC_Encryption enc;
enc.SetKey(global_key, 16, iv);
enc.SetKey(key, 16, iv);
double start = current_time();
for(int i = 0; i < megs; i++)
enc.Process(global_plain, global_cipher, sizeof(global_plain));
enc.Process(plain, cipher, sizeof(plain));
double total = current_time() - start;
......@@ -127,12 +127,12 @@ void bench_aes(bool show)
void bench_twofish()
{
Twofish_CBC_Encryption enc;
enc.SetKey(global_key, 16, iv);
enc.SetKey(key, 16, iv);
double start = current_time();
for(int i = 0; i < megs; i++)
enc.Process(global_plain, global_cipher, sizeof(global_plain));
enc.Process(plain, cipher, sizeof(plain));
double total = current_time() - start;
......@@ -147,12 +147,12 @@ void bench_twofish()
void bench_blowfish()
{
Blowfish_CBC_Encryption enc;
enc.SetKey(global_key, 16, iv);
enc.SetKey(key, 16, iv);
double start = current_time();
for(int i = 0; i < megs; i++)
enc.Process(global_plain, global_cipher, sizeof(global_plain));
enc.Process(plain, cipher, sizeof(plain));
double total = current_time() - start;
......@@ -166,12 +166,12 @@ void bench_blowfish()
void bench_arc4()
{
ARC4 enc;
enc.SetKey(global_key, 16);
enc.SetKey(key, 16);
double start = current_time();
for(int i = 0; i < megs; i++)
enc.Process(global_cipher, global_plain, sizeof(global_plain));
enc.Process(cipher, plain, sizeof(plain));
double total = current_time() - start;
......@@ -191,7 +191,7 @@ void bench_md5()
for(int i = 0; i < megs; i++)
hash.Update(global_plain, sizeof(global_plain));
hash.Update(plain, sizeof(plain));
hash.Final(digest);
......@@ -213,7 +213,7 @@ void bench_sha()
for(int i = 0; i < megs; i++)
hash.Update(global_plain, sizeof(global_plain));
hash.Update(plain, sizeof(plain));
hash.Final(digest);
......@@ -241,7 +241,7 @@ void bench_ripemd()
for(int i = 0; i < megs; i++)
hash.Update(global_plain, sizeof(global_plain));
hash.Update(plain, sizeof(plain));
hash.Final(digest);
......
......@@ -40,7 +40,6 @@ class TAOCRYPT_NO_VTABLE AbstractGroup : public virtual_base
public:
typedef Integer Element;
AbstractGroup() {}
virtual ~AbstractGroup() {}
virtual bool Equal(const Element &a, const Element &b) const =0;
......@@ -95,7 +94,6 @@ private:
class MultiplicativeGroupT : public AbstractGroup
{
public:
MultiplicativeGroupT() {}
const AbstractRing& GetRing() const
{return *m_pRing;}
......@@ -147,7 +145,6 @@ class TAOCRYPT_NO_VTABLE AbstractEuclideanDomain
: public AbstractRing
{
public:
AbstractEuclideanDomain() {}
typedef Integer Element;
virtual void DivisionAlgorithm(Element &r, Element &q, const Element &a,
......
......@@ -41,7 +41,6 @@ enum { DES_BLOCK_SIZE = 8, DES_KEY_SIZE = 32 };
class BasicDES {
public:
BasicDES() {}
void SetKey(const byte*, word32, CipherDir dir);
void RawProcessBlock(word32&, word32&) const;
protected:
......
......@@ -31,7 +31,6 @@ namespace TaoCrypt {
// HASH
class HASH : public virtual_base {
public:
HASH() {}
virtual ~HASH() {}
virtual void Update(const byte*, word32) = 0;
......@@ -58,8 +57,7 @@ public:
word32 GetBitCountLo() const { return loLen_ << 3; }
word32 GetBitCountHi() const { return (loLen_ >> (8*sizeof(loLen_) - 3)) +
(hiLen_ << 3); }
enum { MaxDigestSz = 5, MaxBufferSz = 64 };
enum { MaxDigestSz = 8, MaxBufferSz = 64 };
protected:
typedef word32 HashLengthType;
word32 buffLen_; // in bytes
......@@ -74,6 +72,38 @@ protected:
};
#ifdef WORD64_AVAILABLE
// 64-bit HASH with Transform
class HASH64withTransform : public HASH {
public:
HASH64withTransform(word32 digSz, word32 buffSz);
virtual ~HASH64withTransform() {}
virtual ByteOrder getByteOrder() const = 0;
virtual word32 getPadSize() const = 0;
virtual void Update(const byte*, word32);
virtual void Final(byte*);
word32 GetBitCountLo() const { return loLen_ << 3; }
word32 GetBitCountHi() const { return (loLen_ >> (8*sizeof(loLen_) - 3)) +
(hiLen_ << 3); }
enum { MaxDigestSz = 8, MaxBufferSz = 128 };
protected:
typedef word32 HashLengthType;
word32 buffLen_; // in bytes
HashLengthType loLen_; // length in bytes
HashLengthType hiLen_; // length in bytes
word64 digest_[MaxDigestSz];
word64 buffer_[MaxBufferSz / sizeof(word64)];
virtual void Transform() = 0;
void AddLength(word32);
};
#endif // WORD64_AVAILABLE
} // namespace
......
......@@ -109,11 +109,11 @@ void HMAC<T>::KeyInnerHash()
// Update
template <class T>
void HMAC<T>::Update(const byte* msg_arg, word32 length)
void HMAC<T>::Update(const byte* msg, word32 length)
{
if (!innerHashKeyed_)
KeyInnerHash();
mac_.Update(msg_arg, length);
mac_.Update(msg, length);
}
......
......@@ -464,6 +464,25 @@ inline word32 ByteReverse(word32 value)
}
#ifdef WORD64_AVAILABLE
inline word64 ByteReverse(word64 value)
{
#ifdef TAOCRYPT_SLOW_WORD64
return (word64(ByteReverse(word32(value))) << 32) |
ByteReverse(word32(value>>32));
#else
value = ((value & W64LIT(0xFF00FF00FF00FF00)) >> 8) |
((value & W64LIT(0x00FF00FF00FF00FF)) << 8);
value = ((value & W64LIT(0xFFFF0000FFFF0000)) >> 16) |
((value & W64LIT(0x0000FFFF0000FFFF)) << 16);
return rotlFixed(value, 32U);
#endif
}
#endif // WORD64_AVAILABLE
template <typename T>
inline void ByteReverse(T* out, const T* in, word32 byteCount)
{
......
......@@ -37,8 +37,8 @@ public:
typedef int RandomizationParameter;
typedef Integer Element;
ModularArithmetic(const Integer &modulus_arg = Integer::One())
: modulus(modulus_arg), result((word)0, modulus_arg.reg_.size()) {}
ModularArithmetic(const Integer &modulus = Integer::One())
: modulus(modulus), result((word)0, modulus.reg_.size()) {}
ModularArithmetic(const ModularArithmetic &ma)
: AbstractRing(),
......
......@@ -42,8 +42,8 @@ public:
{ cipher_.Process(c, p, sz); }
void SetKey(const byte* k, word32 sz)
{ cipher_.SetKey(k, sz, DIR); }
void SetKey(const byte* k, word32 sz, const byte* iv_arg)
{ cipher_.SetKey(k, sz, DIR); cipher_.SetIV(iv_arg); }
void SetKey(const byte* k, word32 sz, const byte* iv)
{ cipher_.SetKey(k, sz, DIR); cipher_.SetIV(iv); }
private:
T cipher_;
......
......@@ -131,7 +131,6 @@ private:
// block type 2 padding
class RSA_BlockType2 {
public:
RSA_BlockType2() {}
void Pad(const byte*, word32, byte*, word32,
RandomNumberGenerator&) const;
word32 UnPad(const byte*, word32, byte*) const;
......@@ -141,7 +140,6 @@ public:
// block type 1 padding
class RSA_BlockType1 {
public:
RSA_BlockType1() {}
void Pad(const byte*, word32, byte*, word32,
RandomNumberGenerator&) const;
word32 UnPad(const byte*, word32, byte*) const;
......@@ -176,27 +174,25 @@ public:
// Public Encrypt
template<class Pad>
void RSA_Encryptor<Pad>::Encrypt(const byte* plain_arg, word32 sz,
byte* cipher_arg,
RandomNumberGenerator& rng_arg)
void RSA_Encryptor<Pad>::Encrypt(const byte* plain, word32 sz, byte* cipher,
RandomNumberGenerator& rng)
{
PK_Lengths lengths(key_.GetModulus());
assert(sz <= lengths.FixedMaxPlaintextLength());
ByteBlock paddedBlock(lengths.PaddedBlockByteLength());
padding_.Pad(plain_arg, sz, paddedBlock.get_buffer(),
lengths.PaddedBlockBitLength(), rng_arg);
padding_.Pad(plain, sz, paddedBlock.get_buffer(),
lengths.PaddedBlockBitLength(), rng);
key_.ApplyFunction(Integer(paddedBlock.get_buffer(), paddedBlock.size())).
Encode(cipher_arg, lengths.FixedCiphertextLength());
Encode(cipher, lengths.FixedCiphertextLength());
}
// Private Decrypt
template<class Pad>
word32 RSA_Decryptor<Pad>::Decrypt(const byte* cipher_arg, word32 sz,
byte* plain_arg,
RandomNumberGenerator& rng_arg)
word32 RSA_Decryptor<Pad>::Decrypt(const byte* cipher, word32 sz, byte* plain,
RandomNumberGenerator& rng)
{
PK_Lengths lengths(key_.GetModulus());
assert(sz == lengths.FixedCiphertextLength());
......@@ -205,29 +201,29 @@ word32 RSA_Decryptor<Pad>::Decrypt(const byte* cipher_arg, word32 sz,
return 0;
ByteBlock paddedBlock(lengths.PaddedBlockByteLength());
Integer x = key_.CalculateInverse(rng_arg, Integer(cipher_arg,
Integer x = key_.CalculateInverse(rng, Integer(cipher,
lengths.FixedCiphertextLength()).Ref());
if (x.ByteCount() > paddedBlock.size())
x = Integer::Zero(); // don't return false, prevents timing attack
x.Encode(paddedBlock.get_buffer(), paddedBlock.size());
return padding_.UnPad(paddedBlock.get_buffer(),
lengths.PaddedBlockBitLength(), plain_arg);
lengths.PaddedBlockBitLength(), plain);
}
// Private SSL type (block 1) Encrypt
template<class Pad>
void RSA_Decryptor<Pad>::SSL_Sign(const byte* message, word32 sz, byte* sig,
RandomNumberGenerator& rng_arg)
RandomNumberGenerator& rng)
{
RSA_PublicKey inverse;
inverse.Initialize(key_.GetModulus(), key_.GetPrivateExponent());
RSA_Encryptor<RSA_BlockType1> enc(inverse); // SSL Type
enc.Encrypt(message, sz, sig, rng_arg);
enc.Encrypt(message, sz, sig, rng);
}
word32 SSL_Decrypt(const RSA_PublicKey& key, const byte* sig, byte* plain_arg);
word32 SSL_Decrypt(const RSA_PublicKey& key, const byte* sig, byte* plain);
// Public SSL type (block 1) Decrypt
......@@ -235,11 +231,11 @@ template<class Pad>
bool RSA_Encryptor<Pad>::SSL_Verify(const byte* message, word32 sz,
const byte* sig)
{
ByteBlock local_plain(PK_Lengths(key_.GetModulus()).FixedMaxPlaintextLength());
if (SSL_Decrypt(key_, sig, local_plain.get_buffer()) != sz)
ByteBlock plain(PK_Lengths(key_.GetModulus()).FixedMaxPlaintextLength());
if (SSL_Decrypt(key_, sig, plain.get_buffer()) != sz)
return false; // not right justified or bad padding
if ( (memcmp(local_plain.get_buffer(), message, sz)) == 0)
if ( (memcmp(plain.get_buffer(), message, sz)) == 0)
return true;
return false;
}
......
......@@ -64,6 +64,103 @@ inline void swap(SHA& a, SHA& b)
a.Swap(b);
}
// SHA-256 digest
class SHA256 : public HASHwithTransform {
public:
enum { BLOCK_SIZE = 64, DIGEST_SIZE = 32, PAD_SIZE = 56,
TAO_BYTE_ORDER = BigEndianOrder}; // in Bytes
SHA256() : HASHwithTransform(DIGEST_SIZE / sizeof(word32), BLOCK_SIZE)
{ Init(); }
ByteOrder getByteOrder() const { return ByteOrder(TAO_BYTE_ORDER); }
word32 getBlockSize() const { return BLOCK_SIZE; }
word32 getDigestSize() const { return DIGEST_SIZE; }
word32 getPadSize() const { return PAD_SIZE; }
void Init();
SHA256(const SHA256&);
SHA256& operator= (const SHA256&);
void Swap(SHA256&);
private:
void Transform();
};
// SHA-224 digest
class SHA224 : public HASHwithTransform {
public:
enum { BLOCK_SIZE = 64, DIGEST_SIZE = 28, PAD_SIZE = 56,
TAO_BYTE_ORDER = BigEndianOrder}; // in Bytes
SHA224() : HASHwithTransform(SHA256::DIGEST_SIZE /sizeof(word32),BLOCK_SIZE)
{ Init(); }
ByteOrder getByteOrder() const { return ByteOrder(TAO_BYTE_ORDER); }
word32 getBlockSize() const { return BLOCK_SIZE; }
word32 getDigestSize() const { return DIGEST_SIZE; }
word32 getPadSize() const { return PAD_SIZE; }
void Init();
SHA224(const SHA224&);
SHA224& operator= (const SHA224&);
void Swap(SHA224&);
private:
void Transform();
};
#ifdef WORD64_AVAILABLE
// SHA-512 digest
class SHA512 : public HASH64withTransform {
public:
enum { BLOCK_SIZE = 128, DIGEST_SIZE = 64, PAD_SIZE = 112,
TAO_BYTE_ORDER = BigEndianOrder}; // in Bytes
SHA512() : HASH64withTransform(DIGEST_SIZE / sizeof(word64), BLOCK_SIZE)
{ Init(); }
ByteOrder getByteOrder() const { return ByteOrder(TAO_BYTE_ORDER); }
word32 getBlockSize() const { return BLOCK_SIZE; }
word32 getDigestSize() const { return DIGEST_SIZE; }
word32 getPadSize() const { return PAD_SIZE; }
void Init();
SHA512(const SHA512&);
SHA512& operator= (const SHA512&);
void Swap(SHA512&);
private:
void Transform();
};
// SHA-384 digest
class SHA384 : public HASH64withTransform {
public:
enum { BLOCK_SIZE = 128, DIGEST_SIZE = 48, PAD_SIZE = 112,
TAO_BYTE_ORDER = BigEndianOrder}; // in Bytes
SHA384() : HASH64withTransform(SHA512::DIGEST_SIZE/ sizeof(word64),
BLOCK_SIZE)
{ Init(); }
ByteOrder getByteOrder() const { return ByteOrder(TAO_BYTE_ORDER); }
word32 getBlockSize() const { return BLOCK_SIZE; }
word32 getDigestSize() const { return DIGEST_SIZE; }
word32 getPadSize() const { return PAD_SIZE; }
void Init();
SHA384(const SHA384&);
SHA384& operator= (const SHA384&);
void Swap(SHA384&);
private:
void Transform();
};
#endif // WORD64_AVAILABLE
} // namespace
......
......@@ -62,11 +62,7 @@ MK_FUNDAMENTAL_TYPE(unsigned long)
MK_FUNDAMENTAL_TYPE(float)
MK_FUNDAMENTAL_TYPE( double)
#ifdef LONG_DOUBLE_IS_DISTINCT_TYPE
// Don't define by default as this gives warnings on power mac
MK_FUNDAMENTAL_TYPE(long double)
#endif
MK_FUNDAMENTAL_TYPE(long double)
#if defined(WORD64_AVAILABLE) && defined(WORD64_IS_DISTINCT_TYPE)
MK_FUNDAMENTAL_TYPE(word64)
......
......@@ -46,13 +46,16 @@ typedef unsigned int word32;
#define WORD64_AVAILABLE
#define WORD64_IS_DISTINCT_TYPE
typedef unsigned __int64 word64;
#define W64LIT(x) x##ui64
#elif SIZEOF_LONG == 8
#define WORD64_AVAILABLE
typedef unsigned long word64;
#define W64LIT(x) x##LL
#elif SIZEOF_LONG_LONG == 8
#define WORD64_AVAILABLE
#define WORD64_IS_DISTINCT_TYPE
typedef unsigned long long word64;
#define W64LIT(x) x##LL
#endif
......
......@@ -231,7 +231,7 @@ void list<T>::push_front(T t)
template<typename T>
void list<T>::pop_front()
{
node* local_front = head_;
node* front = head_;
if (head_ == 0)
return;
......@@ -241,8 +241,8 @@ void list<T>::pop_front()
head_ = head_->next_;
head_->prev_ = 0;
}
destroy(local_front);
FreeMemory(local_front);
destroy(front);
FreeMemory(front);
--sz_;
}
......@@ -303,13 +303,13 @@ T list<T>::back() const
template<typename T>
typename list<T>::node* list<T>::look_up(T t)
{
node* local_list = head_;
node* list = head_;
if (local_list == 0) return 0;
if (list == 0) return 0;
for (; local_list; local_list = local_list->next_)
if (local_list->value_ == t)
return local_list;
for (; list; list = list->next_)
if (list->value_ == t)
return list;
return 0;
}
......
......@@ -90,14 +90,13 @@ void AES::SetKey(const byte* userKey, word32 keylen, CipherDir /*dummy*/)
rounds_ = keylen/4 + 6;
word32 temp, *rk = key_;
unsigned int i=0;
GetUserKey(BigEndianOrder, rk, keylen/4, userKey, keylen);
switch(keylen)
{
case 16:
{
unsigned int i=0;
while (true)
{
temp = rk[3];
......@@ -115,10 +114,8 @@ void AES::SetKey(const byte* userKey, word32 keylen, CipherDir /*dummy*/)
rk += 4;
}
break;
}
case 24:
{
unsigned int i=0;
while (true) // for (;;) here triggers a bug in VC60 SP4 w/ Pro Pack
{
temp = rk[ 5];
......@@ -139,10 +136,7 @@ void AES::SetKey(const byte* userKey, word32 keylen, CipherDir /*dummy*/)
}
break;
}
case 32:
{
unsigned int i=0;
while (true)
{
temp = rk[ 7];
......@@ -171,7 +165,6 @@ void AES::SetKey(const byte* userKey, word32 keylen, CipherDir /*dummy*/)
}
break;
}
}
if (dir_ == DECRYPTION)
{
......
......@@ -186,10 +186,10 @@ Integer AbstractGroup::CascadeScalarMultiply(const Element &x,
struct WindowSlider
{
WindowSlider(const Integer &exp_arg, bool fastNegate_arg,
WindowSlider(const Integer &exp, bool fastNegate,
unsigned int windowSizeIn=0)
: exp(exp_arg), windowModulus(Integer::One()), windowSize(windowSizeIn),
windowBegin(0), fastNegate(fastNegate_arg), firstTime(true),
: exp(exp), windowModulus(Integer::One()), windowSize(windowSizeIn),
windowBegin(0), fastNegate(fastNegate), firstTime(true),
finished(false)
{
if (windowSize == 0)
......
......@@ -737,17 +737,17 @@ void CertDecoder::GetName(NameType nt)
email = true;
source_.advance(oidSz + 1);
word32 length2 = GetLength(source_);
word32 length = GetLength(source_);
if (email) {
memcpy(&ptr[idx], "/emailAddress=", 14);
idx += 14;
memcpy(&ptr[idx], source_.get_current(), length2);
idx += length2;
memcpy(&ptr[idx], source_.get_current(), length);
idx += length;
}
source_.advance(length2);
source_.advance(length);
}
}
ptr[idx++] = 0;
......
......@@ -108,4 +108,89 @@ void HASHwithTransform::Final(byte* hash)
Init(); // reset state
}
#ifdef WORD64_AVAILABLE
HASH64withTransform::HASH64withTransform(word32 digSz, word32 buffSz)
{
assert(digSz <= MaxDigestSz);
assert(buffSz <= MaxBufferSz);
}
void HASH64withTransform::AddLength(word32 len)
{
HashLengthType tmp = loLen_;
if ( (loLen_ += len) < tmp)
hiLen_++; // carry low to high
hiLen_ += SafeRightShift<8*sizeof(HashLengthType)>(len);
}
// Update digest with data of size len, do in blocks
void HASH64withTransform::Update(const byte* data, word32 len)
{
// do block size increments
word32 blockSz = getBlockSize();
byte* local = reinterpret_cast<byte*>(buffer_);
while (len) {
word32 add = min(len, blockSz - buffLen_);
memcpy(&local[buffLen_], data, add);
buffLen_ += add;
data += add;
len -= add;
if (buffLen_ == blockSz) {
ByteReverseIf(buffer_, buffer_, blockSz, getByteOrder());
Transform();
AddLength(blockSz);
buffLen_ = 0;
}
}
}
// Final process, place digest in hash
void HASH64withTransform::Final(byte* hash)
{
word32 blockSz = getBlockSize();
word32 digestSz = getDigestSize();
word32 padSz = getPadSize();
ByteOrder order = getByteOrder();
AddLength(buffLen_); // before adding pads
HashLengthType preLoLen = GetBitCountLo();
HashLengthType preHiLen = GetBitCountHi();
byte* local = reinterpret_cast<byte*>(buffer_);
local[buffLen_++] = 0x80; // add 1
// pad with zeros
if (buffLen_ > padSz) {
memset(&local[buffLen_], 0, blockSz - buffLen_);
buffLen_ += blockSz - buffLen_;
ByteReverseIf(buffer_, buffer_, blockSz, order);
Transform();
buffLen_ = 0;
}
memset(&local[buffLen_], 0, padSz - buffLen_);
ByteReverseIf(buffer_, buffer_, padSz, order);
buffer_[blockSz / sizeof(word64) - 2] = order ? preHiLen : preLoLen;
buffer_[blockSz / sizeof(word64) - 1] = order ? preLoLen : preHiLen;
Transform();
ByteReverseIf(digest_, digest_, digestSz, order);
memcpy(hash, digest_, digestSz);
Init(); // reset state
}
#endif // WORD64_AVAILABLE
} // namespace
......@@ -3390,7 +3390,7 @@ void Integer::DivideByPowerOf2(Integer &r, Integer &q, const Integer &a,
CopyWords(r.reg_.get_buffer(), a.reg_.get_buffer(), wordCount);
SetWords(r.reg_+wordCount, 0, r.reg_.size()-wordCount);
if (n % WORD_BITS != 0)
r.reg_[wordCount-1] %= ((word) 1 << (n % WORD_BITS));
r.reg_[wordCount-1] %= (1 << (n % WORD_BITS));
}
else
{
......
This diff is collapsed.
This diff is collapsed.
......@@ -86,8 +86,8 @@ int main(int argc, char** argv)
// input output compare
byte input[TaoCrypt::MD5::DIGEST_SIZE];
byte output[TaoCrypt::MD5::DIGEST_SIZE];
file_test((char*) "input", input);
file_test((char*) "output", output);
file_test("input", input);
file_test("output", output);
assert(memcmp(input, output, sizeof(input)) == 0);
printf("\nAll tests passed!\n");
......@@ -141,17 +141,16 @@ int test_openSSL_des()
/* test des encrypt/decrypt */
char data[] = "this is my data ";
int dataSz = strlen(data);
DES_key_schedule local_key[3];
DES_key_schedule key[3];
byte iv[8];
EVP_BytesToKey(EVP_des_ede3_cbc(), EVP_md5(), NULL, (byte*)data, dataSz, 1,
(byte*)local_key, iv);
(byte*)key, iv);
byte cipher[16];
DES_ede3_cbc_encrypt((byte*)data, cipher, dataSz,
&local_key[0], &local_key[1],
&local_key[2], &iv, true);
DES_ede3_cbc_encrypt((byte*)data, cipher, dataSz, &key[0], &key[1],
&key[2], &iv, true);
byte plain[16];
DES_ede3_cbc_encrypt(cipher, plain, 16, &local_key[0], &local_key[1],
&local_key[2], &iv, false);
DES_ede3_cbc_encrypt(cipher, plain, 16, &key[0], &key[1], &key[2],
&iv, false);
return 0;
}
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