X-Git-Url: https://git.distorted.org.uk/u/mdw/catacomb/blobdiff_plain/dbfee00a86609283c4633df870692be3db9bc5e4..ceb3f0c0a3b7bb3fa3250d31b04c382894095e52:/ec.h diff --git a/ec.h b/ec.h index 72ee7a9..bb5e201 100644 --- a/ec.h +++ b/ec.h @@ -1,6 +1,6 @@ /* -*-c-*- * - * $Id: ec.h,v 1.4.4.1 2003/06/10 13:43:53 mdw Exp $ + * $Id: ec.h,v 1.4.4.3 2004/03/21 22:39:46 mdw Exp $ * * Elliptic curve definitions * @@ -30,6 +30,12 @@ /*----- Revision history --------------------------------------------------* * * $Log: ec.h,v $ + * Revision 1.4.4.3 2004/03/21 22:39:46 mdw + * Elliptic curves on binary fields work. + * + * Revision 1.4.4.2 2004/03/20 00:13:31 mdw + * Projective coordinates for prime curves + * * Revision 1.4.4.1 2003/06/10 13:43:53 mdw * Simple (non-projective) curves over prime fields now seem to work. * @@ -83,27 +89,37 @@ typedef struct ec_mulfactor { mp *exp; /* The exponent */ } ec_mulfactor; -/* --- Elliptic curve operations --- */ +/* --- Elliptic curve operations --- * + * + * All operations (apart from @destroy@ and @in@) are guaranteed to be + * performed on internal representations of points. Moreover, the second + * argument to @add@ and @mul@ is guaranteed to be the output of @in@ or + * @fix@. + */ typedef struct ec_ops { void (*destroy)(ec_curve */*c*/); ec *(*in)(ec_curve */*c*/, ec */*d*/, const ec */*p*/); ec *(*out)(ec_curve */*c*/, ec */*d*/, const ec */*p*/); + ec *(*fix)(ec_curve */*c*/, ec */*d*/, const ec */*p*/); ec *(*find)(ec_curve */*c*/, ec */*d*/, mp */*x*/); ec *(*neg)(ec_curve */*c*/, ec */*d*/, const ec */*p*/); ec *(*add)(ec_curve */*c*/, ec */*d*/, const ec */*p*/, const ec */*q*/); ec *(*sub)(ec_curve */*c*/, ec */*d*/, const ec */*p*/, const ec */*q*/); ec *(*dbl)(ec_curve */*c*/, ec */*d*/, const ec */*p*/); + int (*check)(ec_curve */*c*/, const ec */*p*/); } ec_ops; #define EC_IN(c, d, p) (c)->ops->in((c), (d), (p)) #define EC_OUT(c, d, p) (c)->ops->out((c), (d), (p)) +#define EC_FIX(c, d, p) (c)->ops->fix((c), (d), (p)) #define EC_FIND(c, d, x) (c)->ops->find((c), (d), (x)) #define EC_NEG(c, d, x) (c)->ops->neg((c), (d), (x)) #define EC_ADD(c, d, p, q) (c)->ops->add((c), (d), (p), (q)) #define EC_SUB(c, d, p, q) (c)->ops->sub((c), (d), (p), (q)) #define EC_DBL(c, d, p) (c)->ops->dbl((c), (d), (p)) +#define EC_CHECK(c, p) (c)->ops->check((c), (p)) /*----- Simple memory management things -----------------------------------*/ @@ -210,32 +226,6 @@ extern ec *ec_copy(ec */*d*/, const ec */*p*/); /*----- Interesting arithmetic --------------------------------------------*/ -/* --- @ec_in@ --- * - * - * Arguments: @ec_curve *c@ = pointer to an elliptic curve - * @ec *d@ = pointer to the destination point - * @const ec *p@ = pointer to the source point - * - * Returns: The destination point. - * - * Use: Converts a point to internal representation. - */ - -extern ec *ec_in(ec_curve */*c*/, ec */*d*/, const ec */*p*/); - -/* --- @ec_out@ --- * - * - * Arguments: @ec_curve *c@ = pointer to an elliptic curve - * @ec *d@ = pointer to the destination point - * @const ec *p@ = pointer to the source point - * - * Returns: The destination point. - * - * Use: Converts a point to external representation. - */ - -extern ec *ec_out(ec_curve */*c*/, ec */*d*/, const ec */*p*/); - /* --- @ec_find@ --- * * * Arguments: @ec_curve *c@ = pointer to an elliptic curve @@ -306,6 +296,18 @@ extern ec *ec_sub(ec_curve */*c*/, ec */*d*/, extern ec *ec_dbl(ec_curve */*c*/, ec */*d*/, const ec */*p*/); +/* --- @ec_check@ --- * + * + * Arguments: @ec_curve *c@ = pointer to an elliptic curve + * @const ec *p@ = pointer to the point + * + * Returns: Zero if OK, nonzero if this is an invalid point. + * + * Use: Checks that a point is actually on an elliptic curve. + */ + +extern int ec_check(ec_curve */*c*/, const ec */*p*/); + /* --- @ec_mul@, @ec_imul@ --- * * * Arguments: @ec_curve *c@ = pointer to an elliptic curve @@ -343,7 +345,7 @@ extern ec *ec_immul(ec_curve */*c*/, ec */*d*/, /*----- Standard curve operations -----------------------------------------*/ -/* --- @ec_idin@, @ec_idout@ --- * +/* --- @ec_idin@, @ec_idout@, @ec_idfix@ --- * * * Arguments: @ec_curve *c@ = pointer to an elliptic curve * @ec *d@ = pointer to the destination @@ -358,8 +360,9 @@ extern ec *ec_immul(ec_curve */*c*/, ec */*d*/, extern ec *ec_idin(ec_curve */*c*/, ec */*d*/, const ec */*p*/); extern ec *ec_idout(ec_curve */*c*/, ec */*d*/, const ec */*p*/); +extern ec *ec_idfix(ec_curve */*c*/, ec */*d*/, const ec */*p*/); -/* --- @ec_projin@, @ec_projout@ --- * +/* --- @ec_projin@, @ec_projout@, @ec_projfix@ --- * * * Arguments: @ec_curve *c@ = pointer to an elliptic curve * @ec *d@ = pointer to the destination @@ -373,6 +376,7 @@ extern ec *ec_idout(ec_curve */*c*/, ec */*d*/, const ec */*p*/); extern ec *ec_projin(ec_curve */*c*/, ec */*d*/, const ec */*p*/); extern ec *ec_projout(ec_curve */*c*/, ec */*d*/, const ec */*p*/); +extern ec *ec_projfix(ec_curve */*c*/, ec */*d*/, const ec */*p*/); /* --- @ec_stdsub@ --- * * @@ -418,18 +422,20 @@ extern void ec_destroycurve(ec_curve */*c*/); extern ec_curve *ec_prime(field */*f*/, mp */*a*/, mp */*b*/); extern ec_curve *ec_primeproj(field */*f*/, mp */*a*/, mp */*b*/); -/* --- @ec_bin@ --- * +/* --- @ec_bin@, @ec_binproj@ --- * * * Arguments: @field *f@ = the underlying field for this elliptic curve * @mp *a, *b@ = the coefficients for this curve * * Returns: A pointer to the curve. * - * Use: Creates a curve structure for a non-supersingular elliptic - * curve defined over a binary field. + * Use: Creates a curve structure for an elliptic curve defined over + * a binary field. The @binproj@ variant uses projective + * coordinates, which can be a win. */ extern ec_curve *ec_bin(field */*f*/, mp */*a*/, mp */*b*/); +extern ec_curve *ec_binproj(field */*f*/, mp */*a*/, mp */*b*/); /*----- That's all, folks -------------------------------------------------*/