3rd_party/ed25519/add_scalar.c - third_party/libimobiledevice - Git at Google

 #include "ed25519.h"
 #include "ge.h"
 #include "sc.h"
 #include "sha512.h"


 /* see http://crypto.stackexchange.com/a/6215/4697 */
 void ed25519_add_scalar(unsigned char *public_key, unsigned char *private_key, const unsigned char *scalar) {
     const unsigned char SC_1[32] = {1}; /* scalar with value 1 */

     unsigned char n[32];
     ge_p3 nB;
     ge_p1p1 A_p1p1;
     ge_p3 A;
     ge_p3 public_key_unpacked;
     ge_cached T;

     sha512_context hash;
     unsigned char hashbuf[64];

     int i;

     /* copy the scalar and clear highest bit */
     for (i = 0; i < 31; ++i) {
         n[i] = scalar[i];
     }
     n[31] = scalar[31] & 127;

     /* private key: a = n + t */
     if (private_key) {
         sc_muladd(private_key, SC_1, n, private_key);

         // https://github.com/orlp/ed25519/issues/3
         sha512_init(&hash);
         sha512_update(&hash, private_key + 32, 32);
         sha512_update(&hash, scalar, 32);
         sha512_final(&hash, hashbuf);
         for (i = 0; i < 32; ++i) {
             private_key[32 + i] = hashbuf[i];
         }
     }

     /* public key: A = nB + T */
     if (public_key) {
         /* if we know the private key we don't need a point addition, which is faster */
         /* using a "timing attack" you could find out wether or not we know the private
            key, but this information seems rather useless - if this is important pass
            public_key and private_key seperately in 2 function calls */
         if (private_key) {
             ge_scalarmult_base(&A, private_key);
         } else {
             /* unpack public key into T */
             ge_frombytes_negate_vartime(&public_key_unpacked, public_key);
             fe_neg(public_key_unpacked.X, public_key_unpacked.X); /* undo negate */
             fe_neg(public_key_unpacked.T, public_key_unpacked.T); /* undo negate */
             ge_p3_to_cached(&T, &public_key_unpacked);

             /* calculate n*B */
             ge_scalarmult_base(&nB, n);

             /* A = n*B + T */
             ge_add(&A_p1p1, &nB, &T);
             ge_p1p1_to_p3(&A, &A_p1p1);
         }

         /* pack public key */
         ge_p3_tobytes(public_key, &A);
     }
 }
	#include "ed25519.h"
	#include "ge.h"
	#include "sc.h"
	#include "sha512.h"


	/* see http://crypto.stackexchange.com/a/6215/4697 */
	void ed25519_add_scalar(unsigned char public_key, unsigned char private_key, const unsigned char *scalar) {
	const unsigned char SC_1[32] = {1}; /* scalar with value 1 */

	unsigned char n[32];
	ge_p3 nB;
	ge_p1p1 A_p1p1;
	ge_p3 A;
	ge_p3 public_key_unpacked;
	ge_cached T;

	sha512_context hash;
	unsigned char hashbuf[64];

	int i;

	/* copy the scalar and clear highest bit */
	for (i = 0; i < 31; ++i) {
	n[i] = scalar[i];
	}
	n[31] = scalar[31] & 127;

	/* private key: a = n + t */
	if (private_key) {
	sc_muladd(private_key, SC_1, n, private_key);

	// https://github.com/orlp/ed25519/issues/3
	sha512_init(&hash);
	sha512_update(&hash, private_key + 32, 32);
	sha512_update(&hash, scalar, 32);
	sha512_final(&hash, hashbuf);
	for (i = 0; i < 32; ++i) {
	private_key[32 + i] = hashbuf[i];
	}
	}

	/* public key: A = nB + T */
	if (public_key) {
	/* if we know the private key we don't need a point addition, which is faster */
	/* using a "timing attack" you could find out wether or not we know the private
	key, but this information seems rather useless - if this is important pass
	public_key and private_key seperately in 2 function calls */
	if (private_key) {
	ge_scalarmult_base(&A, private_key);
	} else {
	/* unpack public key into T */
	ge_frombytes_negate_vartime(&public_key_unpacked, public_key);
	fe_neg(public_key_unpacked.X, public_key_unpacked.X); /* undo negate */
	fe_neg(public_key_unpacked.T, public_key_unpacked.T); /* undo negate */
	ge_p3_to_cached(&T, &public_key_unpacked);

	/* calculate nB /
	ge_scalarmult_base(&nB, n);

	/* A = nB + T /
	ge_add(&A_p1p1, &nB, &T);
	ge_p1p1_to_p3(&A, &A_p1p1);
	}

	/* pack public key */
	ge_p3_tobytes(public_key, &A);
	}
	}