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authorlloyd <[email protected]>2008-10-08 07:16:47 +0000
committerlloyd <[email protected]>2008-10-08 07:16:47 +0000
commit66aa83a7e110975ce091559317f06d88d20dd9b1 (patch)
treec2512992346e52c6e07cd988ab2b352b63641428
parentaaa1e88def2eb052178777e363367d77b6a04a77 (diff)
Partially merge back with InSiTo in an attemp to trace bugs
-rw-r--r--src/build-data/buildh.in3
-rw-r--r--src/math/gfpmath/curve_gfp.cpp74
-rw-r--r--src/math/gfpmath/curve_gfp.h50
-rw-r--r--src/math/gfpmath/freestore.h207
-rw-r--r--src/math/gfpmath/gfp_element.cpp325
-rw-r--r--src/math/gfpmath/gfp_element.h122
-rw-r--r--src/math/gfpmath/gfp_modulus.h9
-rw-r--r--src/math/gfpmath/info.txt1
8 files changed, 513 insertions, 278 deletions
diff --git a/src/build-data/buildh.in b/src/build-data/buildh.in
index 3f56ab6f3..8f2f277c8 100644
--- a/src/build-data/buildh.in
+++ b/src/build-data/buildh.in
@@ -38,6 +38,9 @@ Modules
#define BOTAN_COMPILER_HAS_GCC_INLINE_ASM 1
#endif
+#define BOTAN_USE_TR1_SHARED_PTR
+//#define BOTAN_USE_BOOST_TR1_SHARED_PTR
+
#ifndef BOTAN_COMPILER_HAS_GCC_INLINE_ASM
#define BOTAN_COMPILER_HAS_GCC_INLINE_ASM 0
#endif
diff --git a/src/math/gfpmath/curve_gfp.cpp b/src/math/gfpmath/curve_gfp.cpp
index 89fa74c49..c5abc2a5f 100644
--- a/src/math/gfpmath/curve_gfp.cpp
+++ b/src/math/gfpmath/curve_gfp.cpp
@@ -1,39 +1,51 @@
/******************************************************
- * Elliptic curves over GF(p) (source file) *
- * *
- * (C) 2007 Martin Doering *
- * Christoph Ludwig *
- * Falko Strenzke *
- ******************************************************/
+* Elliptic curves over GF(p) *
+* *
+* (C) 2007 Martin Doering *
+* Christoph Ludwig *
+* Falko Strenzke *
+* 2008 Jack Lloyd *
+******************************************************/
#include <botan/curve_gfp.h>
+#include <botan/bigint.h>
+#include <assert.h>
namespace Botan {
-CurveGFp::CurveGFp(GFpElement const& a, GFpElement const& b,
- const BigInt& p) :
- mA(a), mB(b)
+void CurveGFp::set_shrd_mod(SharedPtrConverter<GFpModulus> const mod)
{
- if(p != mA.get_p() || p != mB.get_p())
- throw Invalid_Argument("could not construct curve: moduli of arguments differ");
+ mp_mod = mod.get_shared();
+ mA.turn_off_sp_red_mul();// m.m. is not needed, must be trf. back
+ mB.turn_off_sp_red_mul();// m.m. is not needed, must be trf. back
+ //ok, above we destroy any evantually computated montg. mult. values,
+ // but that won´t influence performance in usual applications
+ mA.set_shrd_mod(mod.get_shared());
+ mB.set_shrd_mod(mod.get_shared());
+ }
+CurveGFp::CurveGFp(const GFpElement& a, const GFpElement& b,
+ const BigInt& p)
+ : mA(a),
+ mB(b)
+ {
+ if(!((p == mA.get_p()) && (p == mB.get_p())))
+ {
+ throw Invalid_Argument("could not construct curve: moduli of arguments differ");
+ }
std::tr1::shared_ptr<GFpModulus> p_mod = std::tr1::shared_ptr<GFpModulus>(new GFpModulus(p));
// the above is the creation of the GFpModuls object which will be shared point-wide
// (in the context of a point of course)
set_shrd_mod(p_mod);
}
-
// copy constructor
-CurveGFp::CurveGFp(CurveGFp const& other)
+CurveGFp::CurveGFp(const CurveGFp& other)
: mA(other.get_a()),
mB(other.get_b())
{
mp_mod = std::tr1::shared_ptr<GFpModulus>(new GFpModulus(*other.mp_mod));
- //assert(mp_mod->p_equal_to(mA.get_p()));
- //assert(mp_mod->p_equal_to(mB.get_p()));
+ assert(mp_mod->p_equal_to(mA.get_p()));
+ assert(mp_mod->p_equal_to(mB.get_p()));
set_shrd_mod(mp_mod);
if(other.mp_mres_a.get())
{
@@ -51,7 +63,7 @@ CurveGFp::CurveGFp(CurveGFp const& other)
}
// assignment operator
-CurveGFp const& CurveGFp::operator=(CurveGFp const& other)
+const CurveGFp& CurveGFp::operator=(const CurveGFp& other)
{
// for exception safety...
GFpElement a_tmp = other.mA;
@@ -90,7 +102,7 @@ GFpElement const CurveGFp::get_b() const
BigInt const CurveGFp::get_p() const
{
- //assert(mp_mod.get() != 0);
+ assert(mp_mod.get() != 0);
return mp_mod->get_p();
}
@@ -104,18 +116,6 @@ void CurveGFp::swap(CurveGFp& other)
std::swap(mp_mres_b, other.mp_mres_b);
std::swap(mp_mres_one, other.mp_mres_one);
}
-
-void CurveGFp::set_shrd_mod(std::tr1::shared_ptr<GFpModulus> const mod)
- {
- mp_mod = mod;
- mA.turn_off_sp_red_mul();// m.m. is not needed, must be trf. back
- mB.turn_off_sp_red_mul();// m.m. is not needed, must be trf. back
- //ok, above we destroy any evantually computated montg. mult. values,
- // but that won't influence performance in usual applications
- mA.set_shrd_mod(mod);
- mB.set_shrd_mod(mod);
- }
-
GFpElement const CurveGFp::get_mres_a() const
{
if(mp_mres_a.get() == 0)
@@ -126,7 +126,6 @@ GFpElement const CurveGFp::get_mres_a() const
}
return GFpElement(*mp_mres_a);
}
-
GFpElement const CurveGFp::get_mres_b() const
{
if(mp_mres_b.get() == 0)
@@ -137,7 +136,6 @@ GFpElement const CurveGFp::get_mres_b() const
}
return GFpElement(*mp_mres_b);
}
-
std::tr1::shared_ptr<GFpElement const> const CurveGFp::get_mres_one() const
{
if(mp_mres_one.get() == 0)
@@ -148,10 +146,14 @@ std::tr1::shared_ptr<GFpElement const> const CurveGFp::get_mres_one() const
}
return mp_mres_one;
}
-
-bool operator==(CurveGFp const& lhs, CurveGFp const& rhs)
+bool operator==(const CurveGFp& lhs, const CurveGFp& rhs)
{
return (lhs.get_p() == rhs.get_p() && lhs.get_a() == rhs.get_a() && lhs.get_b() == rhs.get_b());
}
+std::ostream& operator<<(std::ostream& output, const CurveGFp& elem)
+ {
+ return output << "y^2f = x^3 + (" << elem.get_a() << ")x + (" << elem.get_b() << ")";
+ }
+
}
diff --git a/src/math/gfpmath/curve_gfp.h b/src/math/gfpmath/curve_gfp.h
index 3024c32d8..3981faf16 100644
--- a/src/math/gfpmath/curve_gfp.h
+++ b/src/math/gfpmath/curve_gfp.h
@@ -9,12 +9,12 @@
******************************************************/
-#ifndef BOTAN_EC_CURVE_GFP_H__
-#define BOTAN_EC_CURVE_GFP_H__
+#ifndef BOTAN_GFP_CURVE_H__
+#define BOTAN_GFP_CURVE_H__
-#include <botan/gfp_element.h>
#include <botan/bigint.h>
-#include <tr1/memory>
+#include <botan/gfp_element.h>
+#include <iostream>
namespace Botan {
@@ -24,26 +24,27 @@ namespace Botan {
class CurveGFp
{
public:
+
/**
* Construct the elliptic curve E: y^2 = x^3 + ax + b over GF(p)
* @param a first coefficient
* @param b second coefficient
* @param p prime number of the field
*/
- CurveGFp(GFpElement const& a, GFpElement const& b,
+ CurveGFp(const GFpElement& a, const GFpElement& b,
const BigInt& p);
/**
* Copy constructor
* @param other The curve to clone
*/
- CurveGFp(CurveGFp const& other);
+ CurveGFp(const CurveGFp& other);
/**
* Assignment operator
* @param other The curve to use as source for the assignment
*/
- CurveGFp const& operator=(CurveGFp const& other);
+ const CurveGFp& operator=(const CurveGFp& other);
/**
* Set the shared GFpModulus object.
@@ -54,7 +55,7 @@ class CurveGFp
* @param mod a shared pointer to a GFpModulus object suitable for
* *this.
*/
- void set_shrd_mod(std::tr1::shared_ptr<GFpModulus> const mod);
+ void set_shrd_mod(SharedPtrConverter<GFpModulus> const mod);
// getters
@@ -81,20 +82,20 @@ class CurveGFp
/**
* Get the GFpElement coefficient b transformed
- * to it´s m-residue. This can be used for efficency reasons: the curve
+ * to its m-residue. This can be used for efficency reasons: the curve
* stores the transformed version after the first invocation of this
* function.
- * @result the coefficient b, transformed to it´s m-residue
+ * @result the coefficient b, transformed to its m-residue
*/
GFpElement const get_mres_b() const;
/**
* Get the GFpElement 1 transformed
- * to it´s m-residue. This can be used for efficency reasons: the curve
+ * to its m-residue. This can be used for efficency reasons: the curve
* stores the transformed version after the first invocation of this
* function.
- * @result the GFpElement 1, transformed to it´s m-residue
+ * @result the GFpElement 1, transformed to its m-residue
*/
std::tr1::shared_ptr<GFpElement const> const get_mres_one() const;
@@ -137,11 +138,14 @@ class CurveGFp
};
// relational operators
-bool operator==(CurveGFp const& lhs, CurveGFp const& rhs);
-inline bool operator!=(CurveGFp const& lhs, CurveGFp const& rhs) {
+bool operator==(const CurveGFp& lhs, const CurveGFp& rhs);
+inline bool operator!=(const CurveGFp& lhs, const CurveGFp& rhs) {
return !operator==(lhs, rhs);
}
+// io operators
+std::ostream& operator<<(std::ostream& output, const CurveGFp& elem);
+
// swaps the states of curve1 and curve2, does not throw!
// cf. Meyers, Item 25
inline
@@ -149,17 +153,21 @@ void swap(CurveGFp& curve1, CurveGFp& curve2) {
curve1.swap(curve2);
}
-}
+} // namespace Botan
+
namespace std {
-template<> inline void swap<Botan::CurveGFp>(
+// swaps the states of curve1 and curve2, does not throw!
+// cf. Meyers, Item 25
+template<>
+inline
+void swap<Botan::CurveGFp>(
Botan::CurveGFp& curve1,
- Botan::CurveGFp& curve2)
- {
- curve1.swap(curve2);
- }
-
+ Botan::CurveGFp& curve2) {
+curve1.swap(curve2);
}
+} // namespace std
+
#endif
diff --git a/src/math/gfpmath/freestore.h b/src/math/gfpmath/freestore.h
new file mode 100644
index 000000000..99025f4e3
--- /dev/null
+++ b/src/math/gfpmath/freestore.h
@@ -0,0 +1,207 @@
+/*************************************************
+ * mixin class to force that all instances *
+ * allocated on the free store are referenced *
+ * through smart pointers. *
+ * (C) 2007 Christoph Ludwig *
+ *************************************************/
+
+#ifndef BOTAN_FREESTORE_H__
+#define BOTAN_FREESTORE_H__
+
+#if defined(BOTAN_USE_TR1_SHARED_PTR)
+ #include <tr1/memory>
+#elif defined(BOTAN_USE_BOOST_TR1_SHARED_PTR)
+ #include <boost/tr1/memory.hpp>
+#else
+ #error "Please choose a shared_ptr implementation"
+#endif
+
+// Boost headers
+#include <boost/preprocessor/arithmetic/inc.hpp>
+#include <boost/preprocessor/repetition/enum_binary_params.hpp>
+#include <boost/preprocessor/repetition/enum_params.hpp>
+#include <boost/preprocessor/repetition/repeat.hpp>
+#include <boost/preprocessor/stringize.hpp>
+
+#ifndef BOTAN_CREATE_PTR_MAX_ARITY
+#define BOTAN_CREATE_PTR_MAX_ARITY 10
+#endif
+
+namespace Botan {
+
+template<typename T>
+class SharedPtrConverter
+ {
+ public:
+ typedef std::tr1::shared_ptr<T> SharedPtr;
+
+ SharedPtrConverter() : ptr() {};
+ SharedPtrConverter(SharedPtrConverter const& other)
+ : ptr(other.ptr) {};
+
+ template<typename Ptr>
+ SharedPtrConverter(Ptr p)
+ : ptr(p) {};
+
+ SharedPtr const& get_ptr() const { return this->ptr; }
+ SharedPtr get_ptr() { return this->ptr; }
+
+ SharedPtr const& get_shared() const { return this->ptr; }
+ SharedPtr get_shared() { return this->ptr; }
+
+ private:
+ SharedPtr ptr;
+ };
+
+/*
+* Create an object of type T on the free store by means of the
+* default constructor and return an auto_ptr to this object.
+*/
+template <class T>
+std::auto_ptr<T> create_auto_ptr()
+ {
+ T* raw = new T();
+ return std::auto_ptr<T>(raw);
+ }
+
+/*
+* Create an object of type T on the free store by means of the
+* default constructor and return a shared_ptr to this object.
+*/
+template <class T>
+std::tr1::shared_ptr<T> create_shared_ptr()
+ {
+ T* raw = new T();
+ return std::tr1::shared_ptr<T>(raw);
+ }
+
+/*
+* Provide overloads of create_auto_ptr and create_shared_ptr for up to
+* BOTAN_CREATE_PTR_MAX_ARITY constructor parameters.
+*
+* The code below defines
+* template<class T, typename A1>
+* std::auto_ptr<T> create_auto_ptr(A1 p1);
+*
+* template<class T, typename A1, typename A2>
+* std::auto_ptr<T> create_auto_ptr(A1 p1, A2 p2);
+*
+* and so on up to
+*
+* template<class T, typename A1, typename A2, ..., typename An>
+* std::auto_ptr<T> create_auto_ptr(A1 p1, A2 p2, ..., An pn);
+*
+* where n = BOTAN_CREATE_PTR_MAX_ARITY. The code also defines similar
+* function template overloads for create_shared_pt.
+*
+* The idea for the preprocessor code is taken from:
+* Grenyer, Paul: "All Heap No Leak". Overload, Issue 60, ACCU, Sept. 2004.
+* Available at <URL:http://www.accu.org/index.php/journals/306>.
+*/
+// Doxygen cannot handle the preprocessor code
+# ifndef DOXYGEN_IS_PARSING
+# define BOTAN_CREATE_PTR(z, n, _) \
+ template<class T, \
+ BOOST_PP_ENUM_PARAMS(BOOST_PP_INC(n), typename A)> \
+ std::auto_ptr<T> \
+ create_auto_ptr(BOOST_PP_ENUM_BINARY_PARAMS(BOOST_PP_INC(n), A, p)) { \
+ T* raw = new T(BOOST_PP_ENUM_PARAMS(BOOST_PP_INC(n), p)); \
+ return std::auto_ptr<T>(raw); \
+ } \
+ \
+ template<class T, \
+ BOOST_PP_ENUM_PARAMS(BOOST_PP_INC(n), typename A)> \
+ std::tr1::shared_ptr<T> \
+ create_shared_ptr(BOOST_PP_ENUM_BINARY_PARAMS(BOOST_PP_INC(n), A, p)) { \
+ T* raw = new T(BOOST_PP_ENUM_PARAMS(BOOST_PP_INC(n), p)); \
+ return std::tr1::shared_ptr<T>(raw); \
+ } \
+ /**/
+BOOST_PP_REPEAT(BOTAN_CREATE_PTR_MAX_ARITY, BOTAN_CREATE_PTR, ~)
+# if 0
+; // make emacs' and other editors' auto-indentation happy...
+# endif
+# undef BOTAN_CREATE_PTR
+# else
+//! Preprocessor generated factory functions that return auto_ptr<T>
+template<typename T, typename P1, typename P2, typename P3, ... >
+std::auto_ptr<T> create_auto_ptr(P1 p1, P2 p2, P3 p3, ...);
+
+//! Preprocessor generated factory functions that return shared_ptr<T>
+template<typename T, typename P1, typename P2, typename P3, ... >
+std::tr1::shared_ptr<T> create_shared_ptr(P1 p1, P2 p2, P3 p3, ...);
+
+# endif // DOXYGEN_IS_PARSING
+
+
+
+/*
+* Freestore enforces that all objects (including objects of derived types)
+* can no longer be allocated on the free store by means of the
+* new (or new[]) operator, but only via one of the overloads
+* of function template Botan::create_ptr.
+*/
+class Freestore
+ {
+ private:
+ static
+ inline
+ void* operator new(std::size_t size) throw (std::bad_alloc)
+ {
+ return ::operator new(size);
+ }
+
+ static
+ inline
+ void* operator new[](std::size_t size) throw (std::bad_alloc)
+ {
+ return ::operator new[](size);
+ }
+
+ template <class T>
+ friend
+ std::auto_ptr<T> create_auto_ptr();
+
+ template <class T>
+ friend
+ std::tr1::shared_ptr<T> create_shared_ptr();
+
+# ifndef DOXYGEN_IS_PARSING
+# define BOTAN_FREESTORE_FRIEND_CREATE_PTR(z, n, _) \
+ template<class T, \
+ BOOST_PP_ENUM_PARAMS(BOOST_PP_INC(n), typename A)> \
+ friend \
+ std::auto_ptr<T> \
+ create_auto_ptr(BOOST_PP_ENUM_BINARY_PARAMS(BOOST_PP_INC(n), A, p)); \
+ \
+ template<class T, \
+ BOOST_PP_ENUM_PARAMS(BOOST_PP_INC(n), typename A)> \
+ friend \
+ std::tr1::shared_ptr<T> \
+ create_shared_ptr(BOOST_PP_ENUM_BINARY_PARAMS(BOOST_PP_INC(n), A, p)); \
+ /**/
+ BOOST_PP_REPEAT(BOTAN_CREATE_PTR_MAX_ARITY, BOTAN_FREESTORE_FRIEND_CREATE_PTR, ~)
+# if 0
+ ; // make emacs' auto-indentation happy...
+# endif
+# undef BOTAN_FREESTORE_FRIEND_CREATE_PTR
+# else
+ template<typename T, typename P1, typename P2, typename P3, ... >
+ friend
+ std::auto_ptr<T> create_auto_ptr(P1 p1, P2 p2, P3 p3, ...);
+
+ template<typename T, typename P1, typename P2, typename P3, ... >
+ friend
+ std::tr1::shared_ptr<T> create_shared_ptr(P1 p1, P2 p2, P3 p3, ...);
+# endif // DOXYGEN_IS_PARSING
+
+
+ public:
+ // implicitly defined constructors and assignment operator are
+ // fine.
+ };
+
+}
+
+#endif
diff --git a/src/math/gfpmath/gfp_element.cpp b/src/math/gfpmath/gfp_element.cpp
index 686cc338b..939f03177 100644
--- a/src/math/gfpmath/gfp_element.cpp
+++ b/src/math/gfpmath/gfp_element.cpp
@@ -1,7 +1,7 @@
/******************************************************
* Arithmetic for prime fields GF(p) (source file) *
* *
- * (C) 2007 Martin Doering *
+ * (C) 2007 Martin Döring *
* Christoph Ludwig *
@@ -12,54 +12,16 @@
#include <botan/gfp_element.h>
#include <botan/numthry.h>
#include <botan/def_powm.h>
+#include <botan/mp_types.h>
#include <botan/mp_asm.h>
#include <botan/mp_asmi.h>
-#include <botan/mp_core.h>
+#include <assert.h>
namespace Botan {
namespace {
-/**
-*calculates R=b^n (here b=2) with R>m (and R beeing as small as possible) for an odd modulus m.
-* no check for oddity is performed!
-*/
-BigInt montgm_calc_r_oddmod(const BigInt& prime)
- {
- u32bit n = prime.sig_words();
- BigInt result(1);
- result <<= n*BOTAN_MP_WORD_BITS;
- return result;
-
- }
-
-/**
-*calculates m' with r*r^-1 - m*m' = 1
-* where r^-1 is the multiplicative inverse of r to the modulus m
-*/
-BigInt montgm_calc_m_dash(const BigInt& r, const BigInt& m, const BigInt& r_inv )
- {
- BigInt result = ((r * r_inv) - BigInt(1))/m;
- return result;
- }
-BigInt montg_trf_to_mres(const BigInt& ord_res, const BigInt& r, const BigInt& m)
- {
- BigInt result(ord_res);
- result *= r;
- result %= m;
- return result;
- }
-BigInt montg_trf_to_ordres(const BigInt& m_res, const BigInt& m, const BigInt& r_inv)
- {
- BigInt result(m_res);
- result *= r_inv;
- result %= m;
- return result;
- }
-
-void inner_montg_mult_sos(word result[], const word* a_bar,
- const word* b_bar, const word* n,
- const word* n_dash, u32bit s)
+void inner_montg_mult_sos(word result[], const word* a_bar, const word* b_bar, const word* n, const word* n_dash, u32bit s)
{
SecureVector<word> t;
t.grow_to(2*s+1);
@@ -70,6 +32,10 @@ void inner_montg_mult_sos(word result[], const word* a_bar,
word S = 0;
for (u32bit j=0; j<s; j++)
{
+ // we use:
+ // word word_madd3(word a, word b, word c, word d, word* carry)
+ // returns a * b + c + d and resets the carry (not using it as input)
+
S = word_madd3(a_bar[j], b_bar[i], t[i+j], &C);
t[i+j] = S;
}
@@ -83,8 +49,8 @@ void inner_montg_mult_sos(word result[], const word* a_bar,
// returns a * b + c, resets the carry
word C = 0;
- word m = word_madd2(t[i], n_dash[0], &C);
- // C = 0; ???
+ word unused_carry = 0;
+ word m = word_madd2(t[i], n_dash[0], &unused_carry);
for (u32bit j=0; j<s; j++)
{
@@ -119,7 +85,7 @@ void inner_montg_mult_sos(word result[], const word* a_bar,
}
D = word_sub(u[s], 0, &B);
t[s] = D;
- if (B == 0)
+ if(B == 0)
{
for (u32bit i=0; i<s; i++)
{
@@ -135,13 +101,13 @@ void inner_montg_mult_sos(word result[], const word* a_bar,
}
}
-void montg_mult(BigInt& result, BigInt& a_bar, BigInt& b_bar, const BigInt& m, const BigInt& m_dash, const BigInt )
+void montg_mult(BigInt& result, BigInt& a_bar, BigInt& b_bar, const BigInt& m, const BigInt& m_dash, const BigInt)
{
- if (m.is_zero() || m_dash.is_zero())
+ if(m.is_zero() || m_dash.is_zero())
{
throw Invalid_Argument("montg_mult(): neither modulus nor m_dash may be zero (and one of them was)");
}
- if (a_bar.is_zero() || b_bar.is_zero())
+ if(a_bar.is_zero() || b_bar.is_zero())
{
result = 0;
}
@@ -155,24 +121,57 @@ void montg_mult(BigInt& result, BigInt& a_bar, BigInt& b_bar, const BigInt& m, c
}
+/**
+*calculates R=b^n (here b=2) with R>m (and R beeing as small as possible) for an odd modulus m.
+* no check for oddity is performed!
+*/
+BigInt montgm_calc_r_oddmod(const BigInt& prime)
+ {
+ u32bit n = prime.sig_words();
+ BigInt result(1);
+ result <<= n*BOTAN_MP_WORD_BITS;
+ return result;
+
+ }
+
+/**
+*calculates m' with r*r^-1 - m*m' = 1
+* where r^-1 is the multiplicative inverse of r to the modulus m
+*/
+BigInt montgm_calc_m_dash(const BigInt& r, const BigInt& m, const BigInt& r_inv)
+ {
+ BigInt result = ((r * r_inv) - BigInt(1))/m;
+ return result;
+ }
+BigInt montg_trf_to_mres(const BigInt& ord_res, const BigInt& r, const BigInt& m)
+ {
+ BigInt result(ord_res);
+ result *= r;
+ result %= m;
+ return result;
+ }
+BigInt montg_trf_to_ordres(const BigInt& m_res, const BigInt& m, const BigInt& r_inv)
+ {
+ BigInt result(m_res);
+ result *= r_inv;
+ result %= m;
+ return result;
+ }
+
}
-GFpElement::GFpElement ( const BigInt& p, const BigInt& value, bool use_montgm)
+GFpElement::GFpElement(const BigInt& p, const BigInt& value, bool use_montgm)
: mp_mod(),
m_value(value %p),
m_use_montgm(use_montgm),
m_is_trf(false)
{
- //assert(mp_mod.get() == 0);
+ assert(mp_mod.get() == 0);
mp_mod = std::tr1::shared_ptr<GFpModulus>(new GFpModulus(p));
- //assert(mp_mod->m_p_dash == 0);
- if (m_use_montgm)
- {
+ assert(mp_mod->m_p_dash == 0);
+ if(m_use_montgm)
ensure_montgm_precomp();
-
- }
-
}
GFpElement::GFpElement(std::tr1::shared_ptr<GFpModulus> const mod, const BigInt& value, bool use_montgm)
@@ -181,18 +180,18 @@ GFpElement::GFpElement(std::tr1::shared_ptr<GFpModulus> const mod, const BigInt&
m_use_montgm(use_montgm),
m_is_trf(false)
{
- //assert(mp_mod.get() == 0);
+ assert(mp_mod.get() == 0);
mp_mod = mod;
}
-GFpElement::GFpElement ( GFpElement const& other )
- : m_value ( other.m_value ),
+GFpElement::GFpElement(const GFpElement& other)
+ : m_value(other.m_value),
m_use_montgm(other.m_use_montgm),
m_is_trf(other.m_is_trf)
{
//creates an independent copy
- //assert((other.m_is_trf && other.m_use_montgm) || !other.m_is_trf);
+ assert((other.m_is_trf && other.m_use_montgm) || !other.m_is_trf);
mp_mod.reset(new GFpModulus(*other.mp_mod)); // copy-ctor of GFpModulus
}
@@ -203,7 +202,7 @@ void GFpElement::turn_on_sp_red_mul() const
}
void GFpElement::turn_off_sp_red_mul() const
{
- if (m_is_trf)
+ if(m_is_trf)
{
trf_to_ordres();
// will happen soon anyway, so we can do it here already
@@ -213,7 +212,7 @@ void GFpElement::turn_off_sp_red_mul() const
}
void GFpElement::ensure_montgm_precomp() const
{
- if ((!mp_mod->m_r.is_zero()) && (!mp_mod->m_r_inv.is_zero()) && (!mp_mod->m_p_dash.is_zero()))
+ if((!mp_mod->m_r.is_zero()) && (!mp_mod->m_r_inv.is_zero()) && (!mp_mod->m_p_dash.is_zero()))
{
// values are already set, nothing more to do
}
@@ -233,9 +232,9 @@ void GFpElement::ensure_montgm_precomp() const
mp_mod->m_r_inv = tmp_r_inv;
mp_mod->m_p_dash = tmp_p_dash;
- //assert(!mp_mod->m_r.is_zero());
- //assert(!mp_mod->m_r_inv.is_zero());
- //assert(!mp_mod->m_p_dash.is_zero());
+ assert(!mp_mod->m_r.is_zero());
+ assert(!mp_mod->m_r_inv.is_zero());
+ assert(!mp_mod->m_p_dash.is_zero());
}
}
@@ -246,49 +245,49 @@ void GFpElement::set_shrd_mod(std::tr1::shared_ptr<GFpModulus> const p_mod)
}
void GFpElement::trf_to_mres() const
{
- if (!m_use_montgm)
+ if(!m_use_montgm)
{
throw Illegal_Transformation("GFpElement is not allowed to be transformed to m-residue");
}
- //assert(m_is_trf == false);
- //assert(!mp_mod->m_r_inv.is_zero());
- //assert(!mp_mod->m_p_dash.is_zero());
+ assert(m_is_trf == false);
+ assert(!mp_mod->m_r_inv.is_zero());
+ assert(!mp_mod->m_p_dash.is_zero());
m_value = montg_trf_to_mres(m_value, mp_mod->m_r, mp_mod->m_p);
m_is_trf = true;
}
void GFpElement::trf_to_ordres() const
{
- //assert(m_is_trf == true);
+ assert(m_is_trf == true);
m_value = montg_trf_to_ordres(m_value, mp_mod->m_p, mp_mod->m_r_inv);
m_is_trf = false;
}
-bool GFpElement::align_operands_res(GFpElement const& lhs, GFpElement const& rhs) //static
+bool GFpElement::align_operands_res(const GFpElement& lhs, const GFpElement& rhs) //static
{
- //assert(lhs.mp_mod->m_p == rhs.mp_mod->m_p);
- if (lhs.m_use_montgm && rhs.m_use_montgm)
+ assert(lhs.mp_mod->m_p == rhs.mp_mod->m_p);
+ if(lhs.m_use_montgm && rhs.m_use_montgm)
{
- //assert(rhs.mp_mod->m_p_dash == lhs.mp_mod->m_p_dash);
- //assert(rhs.mp_mod->m_r == lhs.mp_mod->m_r);
- //assert(rhs.mp_mod->m_r_inv == lhs.mp_mod->m_r_inv);
- if (!lhs.m_is_trf && !rhs.m_is_trf)
+ assert(rhs.mp_mod->m_p_dash == lhs.mp_mod->m_p_dash);
+ assert(rhs.mp_mod->m_r == lhs.mp_mod->m_r);
+ assert(rhs.mp_mod->m_r_inv == lhs.mp_mod->m_r_inv);
+ if(!lhs.m_is_trf && !rhs.m_is_trf)
{
return false;
}
- else if (lhs.m_is_trf && rhs.m_is_trf)
+ else if(lhs.m_is_trf && rhs.m_is_trf)
{
return true;
}
else // one is transf., the other not
{
- if (!lhs.m_is_trf)
+ if(!lhs.m_is_trf)
{
lhs.trf_to_mres();
- //assert(rhs.m_is_trf==true);
+ assert(rhs.m_is_trf==true);
return true;
}
- //assert(rhs.m_is_trf==false);
- //assert(lhs.m_is_trf==true);
+ assert(rhs.m_is_trf==false);
+ assert(lhs.m_is_trf==true);
rhs.trf_to_mres(); // the only possibility left...
return true;
}
@@ -296,21 +295,21 @@ bool GFpElement::align_operands_res(GFpElement const& lhs, GFpElement const& rhs
else // at least one of them does not use mm
// (so it is impossible that both use it)
{
- if (lhs.m_is_trf)
+ if(lhs.m_is_trf)
{
lhs.trf_to_ordres();
- //assert(rhs.m_is_trf == false);
+ assert(rhs.m_is_trf == false);
return false;
}
- if (rhs.m_is_trf)
+ if(rhs.m_is_trf)
{
rhs.trf_to_ordres();
- //assert(lhs.m_is_trf == false);
+ assert(lhs.m_is_trf == false);
return false;
}
return false;
}
- //assert(false);
+ assert(false);
}
bool GFpElement::is_trf_to_mres() const
@@ -325,23 +324,23 @@ BigInt const GFpElement::get_p() const
BigInt const GFpElement::get_value() const
{
- if (m_is_trf)
+ if(m_is_trf)
{
- //assert(m_use_montgm);
+ assert(m_use_montgm);
trf_to_ordres();
}
return m_value;
}
BigInt const GFpElement::get_mres() const
{
- if (!m_use_montgm)
+ if(!m_use_montgm)
{
// does the following exception really make sense?
// wouldn´t it be better to simply turn on montg.mult. when
// this explicit request is made?
throw Illegal_Transformation("GFpElement is not allowed to be transformed to m-residue");
}
- if (!m_is_trf)
+ if(!m_is_trf)
{
trf_to_mres();
@@ -349,7 +348,7 @@ BigInt const GFpElement::get_mres() const
}
return m_value;
}
-GFpElement const& GFpElement::operator= ( GFpElement const& other )
+const GFpElement& GFpElement::operator=(const GFpElement& other)
{
m_value.grow_reg(other.m_value.size()); // grow first for exception safety
@@ -366,7 +365,7 @@ GFpElement const& GFpElement::operator= ( GFpElement const& other )
// precomputed values.
// we also deal with the case were the pointers themsevles are equal:
- if (mp_mod.get() == other.mp_mod.get())
+ if(mp_mod.get() == other.mp_mod.get())
{
// everything ok, we are in the same sharing group anyway, nothing to do
m_value = other.m_value; // cannot throw
@@ -374,7 +373,7 @@ GFpElement const& GFpElement::operator= ( GFpElement const& other )
m_is_trf = other.m_is_trf;
return *this;
}
- if (mp_mod->m_p != other.mp_mod->m_p)
+ if(mp_mod->m_p != other.mp_mod->m_p)
{
// the moduli are different, this is a special case
// which will not occur in usual applications,
@@ -398,7 +397,7 @@ GFpElement const& GFpElement::operator= ( GFpElement const& other )
// the moduli are equal, but we deal with different sharing groups.
// we will NOT fuse the sharing goups
// and we will NOT reset already precomputed values
- if (mp_mod->has_precomputations())
+ if(mp_mod->has_precomputations())
{
// our own sharing group already has precomputed values,
// so nothing to do.
@@ -407,7 +406,7 @@ GFpElement const& GFpElement::operator= ( GFpElement const& other )
else
{
// let´s see whether the argument has something for us...
- if (other.mp_mod->has_precomputations())
+ if(other.mp_mod->has_precomputations())
{
// fetch them for our sharing group
// exc. safety note: grow first
@@ -427,9 +426,9 @@ GFpElement const& GFpElement::operator= ( GFpElement const& other )
}
-void GFpElement::share_assign(GFpElement const& other)
+void GFpElement::share_assign(const GFpElement& other)
{
- //assert((other.m_is_trf && other.m_use_montgm) || !other.m_is_trf);
+ assert((other.m_is_trf && other.m_use_montgm) || !other.m_is_trf);
// use grow_to to make it exc safe
m_value.grow_reg(other.m_value.size());
@@ -440,24 +439,24 @@ void GFpElement::share_assign(GFpElement const& other)
mp_mod = other.mp_mod; // cannot throw
}
-GFpElement& GFpElement::operator+= ( GFpElement const& rhs )
+GFpElement& GFpElement::operator+=(const GFpElement& rhs)
{
GFpElement::align_operands_res(*this, rhs);
workspace = m_value;
workspace += rhs.m_value;
- if (workspace >= mp_mod->m_p)
+ if(workspace >= mp_mod->m_p)
{
workspace -= mp_mod->m_p;
}
m_value = workspace;
- //assert(m_value < mp_mod->m_p);
- //assert(m_value >= 0);
+ assert(m_value < mp_mod->m_p);
+ assert(m_value >= 0);
return *this;
}
-GFpElement& GFpElement::operator-= ( GFpElement const& rhs )
+GFpElement& GFpElement::operator-=(const GFpElement& rhs)
{
GFpElement::align_operands_res(*this, rhs);
@@ -465,17 +464,17 @@ GFpElement& GFpElement::operator-= ( GFpElement const& rhs )
workspace -= rhs.m_value;
- if (workspace.is_negative())
+ if(workspace.is_negative())
{
workspace += mp_mod->m_p;
}
m_value = workspace;
- //assert(m_value < mp_mod->m_p);
- //assert(m_value >= 0);
+ assert(m_value < mp_mod->m_p);
+ assert(m_value >= 0);
return *this;
-
}
+
GFpElement& GFpElement::operator*= (u32bit rhs)
{
workspace = m_value;
@@ -484,22 +483,23 @@ GFpElement& GFpElement::operator*= (u32bit rhs)
m_value = workspace;
return *this;
}
-GFpElement& GFpElement::operator*= ( GFpElement const& rhs )
+
+GFpElement& GFpElement::operator*=(const GFpElement& rhs)
{
- //assert(rhs.mp_mod->m_p == mp_mod->m_p);
+ assert(rhs.mp_mod->m_p == mp_mod->m_p);
// here, we do not use align_operands_res() for one simple reason:
// we want to enforce the transformation to an m-residue, otherwise it would
// never happen
- if (m_use_montgm && rhs.m_use_montgm)
+ if(m_use_montgm && rhs.m_use_montgm)
{
- //assert(rhs.mp_mod->m_p == mp_mod->m_p); // is montgm. mult is on, then precomps must be there
- //assert(rhs.mp_mod->m_p_dash == mp_mod->m_p_dash);
- //assert(rhs.mp_mod->m_r == mp_mod->m_r);
- if (!m_is_trf)
+ assert(rhs.mp_mod->m_p == mp_mod->m_p); // is montgm. mult is on, then precomps must be there
+ assert(rhs.mp_mod->m_p_dash == mp_mod->m_p_dash);
+ assert(rhs.mp_mod->m_r == mp_mod->m_r);
+ if(!m_is_trf)
{
trf_to_mres();
}
- if (!rhs.m_is_trf)
+ if(!rhs.m_is_trf)
{
rhs.trf_to_mres();
}
@@ -508,14 +508,14 @@ GFpElement& GFpElement::operator*= ( GFpElement const& rhs )
}
else // ordinary multiplication
{
- if (m_is_trf)
+ if(m_is_trf)
{
- //assert(m_use_montgm);
+ assert(m_use_montgm);
trf_to_ordres();
}
- if (rhs.m_is_trf)
+ if(rhs.m_is_trf)
{
- //assert(rhs.m_use_montgm);
+ assert(rhs.m_use_montgm);
rhs.trf_to_ordres();
}
workspace = m_value;
@@ -525,14 +525,15 @@ GFpElement& GFpElement::operator*= ( GFpElement const& rhs )
}
return *this;
}
-GFpElement& GFpElement::operator/= ( GFpElement const& rhs )
+
+GFpElement& GFpElement::operator/=(const GFpElement& rhs)
{
bool use_mres = GFpElement::align_operands_res(*this, rhs);
- //assert((this->m_is_trf && rhs.m_is_trf) || !(this->m_is_trf && rhs.m_is_trf) );
+ assert((this->m_is_trf && rhs.m_is_trf) || !(this->m_is_trf && rhs.m_is_trf));
// (internal note: see C86)
- if (use_mres)
+ if(use_mres)
{
- //assert(m_use_montgm && rhs.m_use_montgm);
+ assert(m_use_montgm && rhs.m_use_montgm);
GFpElement rhs_ordres(rhs);
rhs_ordres.trf_to_ordres();
rhs_ordres.inverse_in_place();
@@ -550,47 +551,55 @@ GFpElement& GFpElement::operator/= ( GFpElement const& rhs )
}
return *this;
}
+
bool GFpElement::is_zero()
{
return (m_value.is_zero());
// this is correct because x_bar = x * r = x = 0 for x = 0
}
+
GFpElement& GFpElement::inverse_in_place()
{
m_value = inverse_mod(m_value, mp_mod->m_p);
- if (m_is_trf)
+ if(m_is_trf)
{
- //assert(m_use_montgm);
+ assert(m_use_montgm);
m_value *= mp_mod->m_r;
m_value *= mp_mod->m_r;
m_value %= mp_mod->m_p;
}
- //assert(m_value <= mp_mod->m_p);
+ assert(m_value <= mp_mod->m_p);
return *this;
-
}
+
GFpElement& GFpElement::negate()
{
m_value = mp_mod->m_p - m_value;
- //assert(m_value <= mp_mod->m_p);
+ assert(m_value <= mp_mod->m_p);
return *this;
}
-void GFpElement::swap ( GFpElement& other )
+
+void GFpElement::swap(GFpElement& other)
{
- m_value.swap ( other.m_value );
+ m_value.swap(other.m_value);
mp_mod.swap(other.mp_mod);
std::swap<bool>(m_use_montgm,other.m_use_montgm);
std::swap<bool>(m_is_trf,other.m_is_trf);
}
-bool operator== ( GFpElement const& lhs, GFpElement const& rhs )
+std::ostream& operator<<(std::ostream& output, const GFpElement& elem)
+ {
+ return output << elem.get_p() << "," << elem.get_value();
+ }
+
+bool operator==(const GFpElement& lhs, const GFpElement& rhs)
{
// for effeciency reasons we firstly check whether
//the modulus pointers are different in the first place:
- if (lhs.get_ptr_mod() != rhs.get_ptr_mod())
+ if(lhs.get_ptr_mod() != rhs.get_ptr_mod())
{
- if (lhs.get_p() != rhs.get_p())
+ if(lhs.get_p() != rhs.get_p())
{
return false;
}
@@ -598,7 +607,7 @@ bool operator== ( GFpElement const& lhs, GFpElement const& rhs )
// so the modulus is equal, now check the values
bool use_mres = GFpElement::align_operands_res(lhs, rhs);
- if (use_mres)
+ if(use_mres)
{
return (lhs.get_mres() == rhs.get_mres());
}
@@ -608,67 +617,75 @@ bool operator== ( GFpElement const& lhs, GFpElement const& rhs )
}
}
-GFpElement operator+ ( GFpElement const& lhs, GFpElement const& rhs )
+GFpElement operator+(const GFpElement& lhs, const GFpElement& rhs)
{
// consider the case that lhs and rhs both use montgm:
// then += returns an element which uses montgm.
// thus the return value of op+ here will be an element
// using montgm in this case
// NOTE: the rhs might be transformed when using op+, the lhs never
- GFpElement result ( lhs );
+ GFpElement result(lhs);
result += rhs;
return result;
}
-GFpElement operator- ( GFpElement const& lhs, GFpElement const& rhs )
+
+GFpElement operator-(const GFpElement& lhs, const GFpElement& rhs)
{
- GFpElement result ( lhs );
+ GFpElement result(lhs);
result -= rhs;
return result;
// NOTE: the rhs might be transformed when using op-, the lhs never
}
-GFpElement operator- ( GFpElement const& lhs )
+
+GFpElement operator-(const GFpElement& lhs)
{
- return ( GFpElement ( lhs ) ).negate();
+ return(GFpElement(lhs)).negate();
}
-GFpElement operator* ( GFpElement const& lhs, GFpElement const& rhs )
+
+GFpElement operator*(const GFpElement& lhs, const GFpElement& rhs)
{
// consider the case that lhs and rhs both use montgm:
// then *= returns an element which uses montgm.
// thus the return value of op* here will be an element
// using montgm in this case
- GFpElement result ( lhs );
+ GFpElement result(lhs);
result *= rhs;
return result;
}
-GFpElement operator*(GFpElement const& lhs, u32bit rhs)
+
+GFpElement operator*(const GFpElement& lhs, u32bit rhs)
{
GFpElement result(lhs);
result *= rhs;
return result;
-
}
-GFpElement operator*(u32bit lhs, GFpElement const& rhs )
+
+GFpElement operator*(u32bit lhs, const GFpElement& rhs)
{
return rhs*lhs;
}
-GFpElement operator/ ( GFpElement const& lhs, GFpElement const& rhs )
+
+GFpElement operator/(const GFpElement& lhs, const GFpElement& rhs)
{
GFpElement result (lhs);
result /= rhs;
return result;
}
-SecureVector<byte> FE2OSP ( GFpElement const& elem )
+
+SecureVector<byte> FE2OSP(const GFpElement& elem)
{
- return BigInt::encode_1363 ( elem.get_value(), elem.get_p().bytes() );
+ return BigInt::encode_1363(elem.get_value(), elem.get_p().bytes());
}
-GFpElement OS2FEP ( MemoryRegion<byte> const& os, BigInt p )
- {
- return GFpElement ( p, BigInt::decode ( os.begin(), os.size() ) );
+GFpElement OS2FEP(MemoryRegion<byte> const& os, BigInt p)
+ {
+ return GFpElement(p, BigInt::decode(os.begin(), os.size()));
}
-GFpElement inverse ( GFpElement const& elem )
+
+GFpElement inverse(const GFpElement& elem)
{
- return GFpElement ( elem ).inverse_in_place();
+ return GFpElement(elem).inverse_in_place();
}
-} // namespace Botan
+}
+
diff --git a/src/math/gfpmath/gfp_element.h b/src/math/gfpmath/gfp_element.h
index e9850df30..d576363ac 100644
--- a/src/math/gfpmath/gfp_element.h
+++ b/src/math/gfpmath/gfp_element.h
@@ -1,41 +1,42 @@
/******************************************************
* Arithmetic for prime fields GF(p) (header file) *
* *
- * (C) 2007 Martin Döring *
-* Christoph Ludwig *
-* Falko Strenzke *
-******************************************************/
+ * (C) 2007 Martin Doering *
+ * Christoph Ludwig *
+ * Falko Strenzke *
+ ******************************************************/
-#ifndef BOTAN_MATH_GF_GFP_ELEMENT_H_GUARD_
-#define BOTAN_MATH_GF_GFP_ELEMENT_H_GUARD_
+#ifndef BOTAN_GFP_ELEMENT_H__
+#define BOTAN_GFP_ELEMENT_H__
-#include <botan/gfp_modulus.h>
#include <botan/bigint.h>
-#include <tr1/memory>
+#include <botan/gfp_modulus.h>
+#include <botan/freestore.h>
+#include <iostream>
-namespace Botan
-{
+namespace Botan {
struct Illegal_Transformation : public Exception
-{
- Illegal_Transformation(const std::string& err = "Requested transformation is not possible")
- : Exception(err) {}
-};
+ {
+ Illegal_Transformation(const std::string& err =
+ "Requested transformation is not possible")
+ : Exception(err) {}
+ };
/**
-* This class represents one element in GF(p). Enables the convenient, transparent use
-* of the montgomery multiplication.
-*/
+ * This class represents one element in GF(p). Enables the convenient, transparent use
+ * of the montgomery multiplication.
+ */
class GFpElement
{
-
private:
std::tr1::shared_ptr<GFpModulus> mp_mod;
mutable BigInt m_value; // ordinary residue or m-residue respectively
mutable BigInt workspace;
+
// *****************************************
// data members for montgomery multiplication
mutable bool m_use_montgm;
@@ -44,22 +45,20 @@ class GFpElement
// the actual value (in this case mValue doesn´t)
mutable bool m_is_trf;
-
void ensure_montgm_precomp() const;
void trf_to_mres() const;
void trf_to_ordres() const;
public:
-
/** construct an element of GF(p) with the given value.
- * use_montg defaults to false and determines wether Montgomery multiplications
- * will be use when applying operators '*' , '*='.
+ * use_montg defaults to false and determines wether Montgomery
+ * multiplications will be use when applying operators *, *=
* @param p the prime number of the field
* @param value the element value
* @param use_montgm whether this object will use Montgomery multiplication
*/
- explicit GFpElement ( const BigInt& p, const BigInt& value, bool use_montgm = false );
+ explicit GFpElement (const BigInt& p, const BigInt& value, bool use_montgm = false );
/** construct an element of GF(p) with the given value (defaults to 0).
@@ -80,7 +79,7 @@ class GFpElement
* Copy constructor
* @param other The element to clone
*/
- GFpElement ( GFpElement const& other );
+ GFpElement ( const GFpElement& other );
/**
* Assignment operator.
@@ -89,7 +88,7 @@ class GFpElement
*
* @param other The element to assign to our object
*/
- GFpElement const& operator= ( GFpElement const& other );
+ const GFpElement& operator= ( const GFpElement& other );
/**
* Works like the assignment operator, but lets
@@ -99,7 +98,7 @@ class GFpElement
* the shared GFpModulus objects!
* @param other The element to assign to our object
*/
- void share_assign(GFpElement const& other);
+ void share_assign(const GFpElement& other);
/**
* Switch Montgomery multiplcation optimizations ON
@@ -116,27 +115,27 @@ class GFpElement
* @param rhs the GFpElement to add to the local value
* @result *this
*/
- GFpElement& operator+= ( GFpElement const& rhs );
+ GFpElement& operator+= ( const GFpElement& rhs );
/**
* -= Operator
* @param rhs the GFpElement to subtract from the local value
* @result *this
*/
- GFpElement& operator-= ( GFpElement const& rhs );
+ GFpElement& operator-= ( const GFpElement& rhs );
/**
* *= Operator
* @param rhs the GFpElement to multiply with the local value
* @result *this
*/
- GFpElement& operator*= ( GFpElement const& rhs );
+ GFpElement& operator*= ( const GFpElement& rhs );
/**
* /= Operator
* @param rhs the GFpElement to divide the local value by
* @result *this
*/
- GFpElement& operator/= ( GFpElement const& rhs );
+ GFpElement& operator/= ( const GFpElement& rhs );
/**
* *= Operator
@@ -235,7 +234,7 @@ class GFpElement
* @result true if both are transformed to their m-residue,
* false it both are transformed to their normal residue.
*/
- static bool align_operands_res(GFpElement const& lhs, GFpElement const& rhs);
+ static bool align_operands_res(const GFpElement& lhs, const GFpElement& rhs);
//friend declarations for non-member functions
@@ -245,6 +244,8 @@ class GFpElement
* @param elem the object to write
* @result the output stream
*/
+ friend std::ostream& operator<< ( std::ostream& output, const GFpElement& elem );
+
friend class Point_Coords_GFp;
/**
@@ -256,53 +257,48 @@ class GFpElement
};
// relational operators
-bool operator== ( GFpElement const& lhs, GFpElement const& rhs );
-inline bool operator!= ( GFpElement const& lhs, GFpElement const& rhs )
+bool operator== ( const GFpElement& lhs, const GFpElement& rhs );
+inline bool operator!= ( const GFpElement& lhs, const GFpElement& rhs )
{
return !operator== ( lhs, rhs );
}
// arithmetic operators
-GFpElement operator+ ( GFpElement const& lhs, GFpElement const& rhs );
-GFpElement operator- ( GFpElement const& lhs, GFpElement const& rhs );
-GFpElement operator- ( GFpElement const& lhs );
+GFpElement operator+ ( const GFpElement& lhs, const GFpElement& rhs );
+GFpElement operator- ( const GFpElement& lhs, const GFpElement& rhs );
+GFpElement operator- ( const GFpElement& lhs );
+
+GFpElement operator* ( const GFpElement& lhs, const GFpElement& rhs );
+GFpElement operator/ ( const GFpElement& lhs, const GFpElement& rhs );
+GFpElement operator* (const GFpElement& lhs, u32bit rhs);
+GFpElement operator* (u32bit rhs, const GFpElement& lhs);
-GFpElement operator* ( GFpElement const& lhs, GFpElement const& rhs );
-GFpElement operator/ ( GFpElement const& lhs, GFpElement const& rhs );
-GFpElement operator* (GFpElement const& lhs, u32bit rhs);
-GFpElement operator* (u32bit rhs, GFpElement const& lhs);
+// io operators
+std::ostream& operator<< ( std::ostream& output, const GFpElement& elem );
// return (*this)^(-1)
-GFpElement inverse ( GFpElement const& elem );
+GFpElement inverse ( const GFpElement& elem );
// encoding and decoding
-SecureVector<byte> FE2OSP ( GFpElement const& elem );
-GFpElement OS2FEP ( MemoryRegion<byte> const& os, BigInt p );
-
+SecureVector<byte> FE2OSP ( const GFpElement& elem );
+GFpElement OS2FEP ( MemoryRegion<byte> const& os, BigInt p);
-// swaps the states of elem1 and elem2, does not throw!
-// cf. Meyers, Item 25
-inline
-void swap ( GFpElement& elem1, GFpElement& elem2 )
+inline void swap(GFpElement& x, GFpElement& y)
{
- elem1.swap ( elem2 );
+ x.swap(y);
}
-} // namespace Botan
+}
-namespace std
-{
+namespace std {
-// swaps the states of elem1 and elem2, does not throw!
-// cf. Meyers, Item 25
-template<>
-inline
-void swap< Botan::GFpElement>(Botan::GFpElement& elem1,
- Botan::GFpElement& elem2)
+template<> inline
+void swap<Botan::GFpElement>(Botan::GFpElement& x,
+ Botan::GFpElement& y)
{
- elem1.swap(elem2);
+ x.swap(y);
}
-} // namespace std
+}
#endif
diff --git a/src/math/gfpmath/gfp_modulus.h b/src/math/gfpmath/gfp_modulus.h
index 5edf44ba0..2bf48b8b6 100644
--- a/src/math/gfpmath/gfp_modulus.h
+++ b/src/math/gfpmath/gfp_modulus.h
@@ -10,8 +10,8 @@
******************************************************/
-#ifndef BOTAN_MATH_GF_GFP_MODULUS_H_GUARD_
-#define BOTAN_MATH_GF_GFP_MODULUS_H_GUARD_
+#ifndef BOTAN_GFP_MODULUS_H__
+#define BOTAN_GFP_MODULUS_H__
#include <botan/bigint.h>
@@ -44,8 +44,8 @@ class GFpModulus
{}
/**
- * Tells whether the precomputations necessary for the use of the montgomery
- * multiplication have yet been established.
+ * Tells whether the precomputations necessary for the use of the
+ * montgomery multiplication have yet been established.
* @result true if the precomputated value are already available.
*/
inline bool has_precomputations() const
@@ -122,3 +122,4 @@ class GFpModulus
}
#endif
+
diff --git a/src/math/gfpmath/info.txt b/src/math/gfpmath/info.txt
index 9c62d7761..e00c6c020 100644
--- a/src/math/gfpmath/info.txt
+++ b/src/math/gfpmath/info.txt
@@ -17,4 +17,5 @@ gfp_element.h
gfp_modulus.h
point_gfp.cpp
point_gfp.h
+freestore.h
</add>