59cda7f427
This gives it a more descriptive name and indicates to alt developers that the definitions inside are not fully internal and are available to alt developers for use. Signed-off-by: Chris Jones <christopher.jones@arm.com>
297 lines
10 KiB
C
297 lines
10 KiB
C
/**
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* \file ecp_alt.h
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*
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* \brief Function declarations for alternative implementation of elliptic curve
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* point arithmetic.
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*/
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/*
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* Copyright The Mbed TLS Contributors
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* SPDX-License-Identifier: Apache-2.0
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*
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* Licensed under the Apache License, Version 2.0 (the "License"); you may
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* not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/*
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* References:
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*
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* [1] BERNSTEIN, Daniel J. Curve25519: new Diffie-Hellman speed records.
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* <http://cr.yp.to/ecdh/curve25519-20060209.pdf>
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*
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* [2] CORON, Jean-S'ebastien. Resistance against differential power analysis
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* for elliptic curve cryptosystems. In : Cryptographic Hardware and
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* Embedded Systems. Springer Berlin Heidelberg, 1999. p. 292-302.
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* <http://link.springer.com/chapter/10.1007/3-540-48059-5_25>
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*
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* [3] HEDABOU, Mustapha, PINEL, Pierre, et B'EN'ETEAU, Lucien. A comb method to
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* render ECC resistant against Side Channel Attacks. IACR Cryptology
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* ePrint Archive, 2004, vol. 2004, p. 342.
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* <http://eprint.iacr.org/2004/342.pdf>
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*
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* [4] Certicom Research. SEC 2: Recommended Elliptic Curve Domain Parameters.
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* <http://www.secg.org/sec2-v2.pdf>
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*
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* [5] HANKERSON, Darrel, MENEZES, Alfred J., VANSTONE, Scott. Guide to Elliptic
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* Curve Cryptography.
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*
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* [6] Digital Signature Standard (DSS), FIPS 186-4.
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* <http://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.186-4.pdf>
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*
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* [7] Elliptic Curve Cryptography (ECC) Cipher Suites for Transport Layer
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* Security (TLS), RFC 4492.
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* <https://tools.ietf.org/search/rfc4492>
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*
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* [8] <http://www.hyperelliptic.org/EFD/g1p/auto-shortw-jacobian.html>
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*
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* [9] COHEN, Henri. A Course in Computational Algebraic Number Theory.
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* Springer Science & Business Media, 1 Aug 2000
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*/
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#ifndef MBEDTLS_ECP_INTERNAL_H
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#define MBEDTLS_ECP_INTERNAL_H
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#if !defined(MBEDTLS_CONFIG_FILE)
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#include "mbedtls/config.h"
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#else
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#include MBEDTLS_CONFIG_FILE
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#endif
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#if defined(MBEDTLS_ECP_INTERNAL_ALT)
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/**
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* \brief Indicate if the Elliptic Curve Point module extension can
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* handle the group.
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*
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* \param grp The pointer to the elliptic curve group that will be the
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* basis of the cryptographic computations.
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*
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* \return Non-zero if successful.
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*/
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unsigned char mbedtls_internal_ecp_grp_capable( const mbedtls_ecp_group *grp );
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/**
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* \brief Initialise the Elliptic Curve Point module extension.
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*
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* If mbedtls_internal_ecp_grp_capable returns true for a
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* group, this function has to be able to initialise the
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* module for it.
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*
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* This module can be a driver to a crypto hardware
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* accelerator, for which this could be an initialise function.
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*
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* \param grp The pointer to the group the module needs to be
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* initialised for.
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*
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* \return 0 if successful.
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*/
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int mbedtls_internal_ecp_init( const mbedtls_ecp_group *grp );
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/**
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* \brief Frees and deallocates the Elliptic Curve Point module
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* extension.
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*
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* \param grp The pointer to the group the module was initialised for.
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*/
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void mbedtls_internal_ecp_free( const mbedtls_ecp_group *grp );
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#if defined(MBEDTLS_ECP_SHORT_WEIERSTRASS_ENABLED)
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#if defined(MBEDTLS_ECP_RANDOMIZE_JAC_ALT)
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/**
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* \brief Randomize jacobian coordinates:
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* (X, Y, Z) -> (l^2 X, l^3 Y, l Z) for random l.
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*
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* \param grp Pointer to the group representing the curve.
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*
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* \param pt The point on the curve to be randomised, given with Jacobian
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* coordinates.
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*
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* \param f_rng A function pointer to the random number generator.
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*
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* \param p_rng A pointer to the random number generator state.
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*
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* \return 0 if successful.
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*/
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int mbedtls_internal_ecp_randomize_jac( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *pt, int (*f_rng)(void *, unsigned char *, size_t),
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void *p_rng );
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#endif
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#if defined(MBEDTLS_ECP_ADD_MIXED_ALT)
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/**
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* \brief Addition: R = P + Q, mixed affine-Jacobian coordinates.
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*
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* The coordinates of Q must be normalized (= affine),
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* but those of P don't need to. R is not normalized.
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*
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* This function is used only as a subrutine of
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* ecp_mul_comb().
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*
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* Special cases: (1) P or Q is zero, (2) R is zero,
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* (3) P == Q.
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* None of these cases can happen as intermediate step in
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* ecp_mul_comb():
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* - at each step, P, Q and R are multiples of the base
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* point, the factor being less than its order, so none of
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* them is zero;
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* - Q is an odd multiple of the base point, P an even
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* multiple, due to the choice of precomputed points in the
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* modified comb method.
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* So branches for these cases do not leak secret information.
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*
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* We accept Q->Z being unset (saving memory in tables) as
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* meaning 1.
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*
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* Cost in field operations if done by [5] 3.22:
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* 1A := 8M + 3S
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*
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* \param grp Pointer to the group representing the curve.
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*
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* \param R Pointer to a point structure to hold the result.
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*
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* \param P Pointer to the first summand, given with Jacobian
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* coordinates
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*
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* \param Q Pointer to the second summand, given with affine
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* coordinates.
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*
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* \return 0 if successful.
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*/
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int mbedtls_internal_ecp_add_mixed( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *R, const mbedtls_ecp_point *P,
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const mbedtls_ecp_point *Q );
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#endif
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/**
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* \brief Point doubling R = 2 P, Jacobian coordinates.
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*
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* Cost: 1D := 3M + 4S (A == 0)
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* 4M + 4S (A == -3)
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* 3M + 6S + 1a otherwise
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* when the implementation is based on the "dbl-1998-cmo-2"
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* doubling formulas in [8] and standard optimizations are
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* applied when curve parameter A is one of { 0, -3 }.
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*
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* \param grp Pointer to the group representing the curve.
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*
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* \param R Pointer to a point structure to hold the result.
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*
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* \param P Pointer to the point that has to be doubled, given with
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* Jacobian coordinates.
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*
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* \return 0 if successful.
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*/
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#if defined(MBEDTLS_ECP_DOUBLE_JAC_ALT)
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int mbedtls_internal_ecp_double_jac( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *R, const mbedtls_ecp_point *P );
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#endif
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/**
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* \brief Normalize jacobian coordinates of an array of (pointers to)
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* points.
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*
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* Using Montgomery's trick to perform only one inversion mod P
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* the cost is:
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* 1N(t) := 1I + (6t - 3)M + 1S
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* (See for example Algorithm 10.3.4. in [9])
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*
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* This function is used only as a subrutine of
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* ecp_mul_comb().
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*
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* Warning: fails (returning an error) if one of the points is
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* zero!
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* This should never happen, see choice of w in ecp_mul_comb().
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*
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* \param grp Pointer to the group representing the curve.
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*
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* \param T Array of pointers to the points to normalise.
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*
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* \param t_len Number of elements in the array.
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*
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* \return 0 if successful,
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* an error if one of the points is zero.
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*/
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#if defined(MBEDTLS_ECP_NORMALIZE_JAC_MANY_ALT)
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int mbedtls_internal_ecp_normalize_jac_many( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *T[], size_t t_len );
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#endif
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/**
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* \brief Normalize jacobian coordinates so that Z == 0 || Z == 1.
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*
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* Cost in field operations if done by [5] 3.2.1:
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* 1N := 1I + 3M + 1S
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*
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* \param grp Pointer to the group representing the curve.
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*
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* \param pt pointer to the point to be normalised. This is an
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* input/output parameter.
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*
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* \return 0 if successful.
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*/
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#if defined(MBEDTLS_ECP_NORMALIZE_JAC_ALT)
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int mbedtls_internal_ecp_normalize_jac( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *pt );
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#endif
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#endif /* MBEDTLS_ECP_SHORT_WEIERSTRASS_ENABLED */
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#if defined(MBEDTLS_ECP_MONTGOMERY_ENABLED)
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#if defined(MBEDTLS_ECP_DOUBLE_ADD_MXZ_ALT)
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int mbedtls_internal_ecp_double_add_mxz( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *R, mbedtls_ecp_point *S, const mbedtls_ecp_point *P,
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const mbedtls_ecp_point *Q, const mbedtls_mpi *d );
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#endif
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/**
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* \brief Randomize projective x/z coordinates:
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* (X, Z) -> (l X, l Z) for random l
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*
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* \param grp pointer to the group representing the curve
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*
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* \param P the point on the curve to be randomised given with
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* projective coordinates. This is an input/output parameter.
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*
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* \param f_rng a function pointer to the random number generator
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*
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* \param p_rng a pointer to the random number generator state
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*
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* \return 0 if successful
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*/
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#if defined(MBEDTLS_ECP_RANDOMIZE_MXZ_ALT)
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int mbedtls_internal_ecp_randomize_mxz( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *P, int (*f_rng)(void *, unsigned char *, size_t),
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void *p_rng );
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#endif
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/**
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* \brief Normalize Montgomery x/z coordinates: X = X/Z, Z = 1.
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*
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* \param grp pointer to the group representing the curve
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*
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* \param P pointer to the point to be normalised. This is an
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* input/output parameter.
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*
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* \return 0 if successful
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*/
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#if defined(MBEDTLS_ECP_NORMALIZE_MXZ_ALT)
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int mbedtls_internal_ecp_normalize_mxz( const mbedtls_ecp_group *grp,
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mbedtls_ecp_point *P );
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#endif
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#endif /* MBEDTLS_ECP_MONTGOMERY_ENABLED */
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#endif /* MBEDTLS_ECP_INTERNAL_ALT */
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#endif /* ecp_alt.h */
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