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author | marha <marha@users.sourceforge.net> | 2010-03-30 12:36:28 +0000 |
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committer | marha <marha@users.sourceforge.net> | 2010-03-30 12:36:28 +0000 |
commit | ff48c0d9098080b51ea12710029135916d117806 (patch) | |
tree | 96e6af9caf170ba21a1027b24e306a07e27d7b75 /openssl/demos/jpake | |
parent | bb731f5ac92655c4860a41fa818a7a63005f8369 (diff) | |
download | vcxsrv-ff48c0d9098080b51ea12710029135916d117806.tar.gz vcxsrv-ff48c0d9098080b51ea12710029135916d117806.tar.bz2 vcxsrv-ff48c0d9098080b51ea12710029135916d117806.zip |
svn merge -r514:HEAD ^/branches/released .
Diffstat (limited to 'openssl/demos/jpake')
-rw-r--r-- | openssl/demos/jpake/Makefile | 7 | ||||
-rw-r--r-- | openssl/demos/jpake/jpakedemo.c | 469 |
2 files changed, 0 insertions, 476 deletions
diff --git a/openssl/demos/jpake/Makefile b/openssl/demos/jpake/Makefile deleted file mode 100644 index 09b8f03d0..000000000 --- a/openssl/demos/jpake/Makefile +++ /dev/null @@ -1,7 +0,0 @@ -LDFLAGS=-L../.. -lcrypto -CFLAGS=-I../../include -Wall -Werror -g - -all: jpakedemo - -jpakedemo: jpakedemo.o - $(CC) -g -o jpakedemo jpakedemo.o $(LDFLAGS) diff --git a/openssl/demos/jpake/jpakedemo.c b/openssl/demos/jpake/jpakedemo.c deleted file mode 100644 index 338a8810d..000000000 --- a/openssl/demos/jpake/jpakedemo.c +++ /dev/null @@ -1,469 +0,0 @@ -#include "openssl/bn.h" -#include "openssl/sha.h" -#include <assert.h> -#include <string.h> -#include <stdlib.h> - -/* Copyright (C) 2008 Ben Laurie (ben@links.org) */ - -/* - * Implement J-PAKE, as described in - * http://grouper.ieee.org/groups/1363/Research/contributions/hao-ryan-2008.pdf - * - * With hints from http://www.cl.cam.ac.uk/~fh240/software/JPAKE2.java. - */ - -static void showbn(const char *name, const BIGNUM *bn) - { - fputs(name, stdout); - fputs(" = ", stdout); - BN_print_fp(stdout, bn); - putc('\n', stdout); - } - -typedef struct - { - BN_CTX *ctx; // Perhaps not the best place for this? - BIGNUM *p; - BIGNUM *q; - BIGNUM *g; - } JPakeParameters; - -static void JPakeParametersInit(JPakeParameters *params) - { - params->ctx = BN_CTX_new(); - - // For now use p, q, g from Java sample code. Later, generate them. - params->p = NULL; - BN_hex2bn(¶ms->p, "fd7f53811d75122952df4a9c2eece4e7f611b7523cef4400c31e3f80b6512669455d402251fb593d8d58fabfc5f5ba30f6cb9b556cd7813b801d346ff26660b76b9950a5a49f9fe8047b1022c24fbba9d7feb7c61bf83b57e7c6a8a6150f04fb83f6d3c51ec3023554135a169132f675f3ae2b61d72aeff22203199dd14801c7"); - params->q = NULL; - BN_hex2bn(¶ms->q, "9760508f15230bccb292b982a2eb840bf0581cf5"); - params->g = NULL; - BN_hex2bn(¶ms->g, "f7e1a085d69b3ddecbbcab5c36b857b97994afbbfa3aea82f9574c0b3d0782675159578ebad4594fe67107108180b449167123e84c281613b7cf09328cc8a6e13c167a8b547c8d28e0a3ae1e2bb3a675916ea37f0bfa213562f1fb627a01243bcca4f1bea8519089a883dfe15ae59f06928b665e807b552564014c3bfecf492a"); - - showbn("p", params->p); - showbn("q", params->q); - showbn("g", params->g); - } - -typedef struct - { - BIGNUM *gr; // g^r (r random) - BIGNUM *b; // b = r - x*h, h=hash(g, g^r, g^x, name) - } JPakeZKP; - -typedef struct - { - BIGNUM *gx; // g^x - JPakeZKP zkpx; // ZKP(x) - } JPakeStep1; - -typedef struct - { - BIGNUM *X; // g^(xa + xc + xd) * xb * s - JPakeZKP zkpxbs; // ZKP(xb * s) - } JPakeStep2; - -typedef struct - { - const char *name; // Must be unique - int base; // 1 for Alice, 3 for Bob. Only used for printing stuff. - JPakeStep1 s1c; // Alice's g^x3, ZKP(x3) or Bob's g^x1, ZKP(x1) - JPakeStep1 s1d; // Alice's g^x4, ZKP(x4) or Bob's g^x2, ZKP(x2) - JPakeStep2 s2; // Alice's A, ZKP(x2 * s) or Bob's B, ZKP(x4 * s) - } JPakeUserPublic; - -/* - * The user structure. In the definition, (xa, xb, xc, xd) are Alice's - * (x1, x2, x3, x4) or Bob's (x3, x4, x1, x2). If you see what I mean. - */ -typedef struct - { - JPakeUserPublic p; - BIGNUM *secret; // The shared secret - BIGNUM *key; // The calculated (shared) key - BIGNUM *xa; // Alice's x1 or Bob's x3 - BIGNUM *xb; // Alice's x2 or Bob's x4 - } JPakeUser; - -// Generate each party's random numbers. xa is in [0, q), xb is in [1, q). -static void genrand(JPakeUser *user, const JPakeParameters *params) - { - BIGNUM *qm1; - - // xa in [0, q) - user->xa = BN_new(); - BN_rand_range(user->xa, params->q); - - // q-1 - qm1 = BN_new(); - BN_copy(qm1, params->q); - BN_sub_word(qm1, 1); - - // ... and xb in [0, q-1) - user->xb = BN_new(); - BN_rand_range(user->xb, qm1); - // [1, q) - BN_add_word(user->xb, 1); - - // cleanup - BN_free(qm1); - - // Show - printf("x%d", user->p.base); - showbn("", user->xa); - printf("x%d", user->p.base+1); - showbn("", user->xb); - } - -static void hashlength(SHA_CTX *sha, size_t l) - { - unsigned char b[2]; - - assert(l <= 0xffff); - b[0] = l >> 8; - b[1] = l&0xff; - SHA1_Update(sha, b, 2); - } - -static void hashstring(SHA_CTX *sha, const char *string) - { - size_t l = strlen(string); - - hashlength(sha, l); - SHA1_Update(sha, string, l); - } - -static void hashbn(SHA_CTX *sha, const BIGNUM *bn) - { - size_t l = BN_num_bytes(bn); - unsigned char *bin = alloca(l); - - hashlength(sha, l); - BN_bn2bin(bn, bin); - SHA1_Update(sha, bin, l); - } - -// h=hash(g, g^r, g^x, name) -static void zkpHash(BIGNUM *h, const JPakeZKP *zkp, const BIGNUM *gx, - const JPakeUserPublic *from, const JPakeParameters *params) - { - unsigned char md[SHA_DIGEST_LENGTH]; - SHA_CTX sha; - - // XXX: hash should not allow moving of the boundaries - Java code - // is flawed in this respect. Length encoding seems simplest. - SHA1_Init(&sha); - hashbn(&sha, params->g); - hashbn(&sha, zkp->gr); - hashbn(&sha, gx); - hashstring(&sha, from->name); - SHA1_Final(md, &sha); - BN_bin2bn(md, SHA_DIGEST_LENGTH, h); - } - -// Prove knowledge of x -// Note that we don't send g^x because, as it happens, we've always -// sent it elsewhere. Also note that because of that, we could avoid -// calculating it here, but we don't, for clarity... -static void CreateZKP(JPakeZKP *zkp, const BIGNUM *x, const JPakeUser *us, - const BIGNUM *zkpg, const JPakeParameters *params, - int n, const char *suffix) - { - BIGNUM *r = BN_new(); - BIGNUM *gx = BN_new(); - BIGNUM *h = BN_new(); - BIGNUM *t = BN_new(); - - // r in [0,q) - // XXX: Java chooses r in [0, 2^160) - i.e. distribution not uniform - BN_rand_range(r, params->q); - // g^r - zkp->gr = BN_new(); - BN_mod_exp(zkp->gr, zkpg, r, params->p, params->ctx); - // g^x - BN_mod_exp(gx, zkpg, x, params->p, params->ctx); - - // h=hash... - zkpHash(h, zkp, gx, &us->p, params); - - // b = r - x*h - BN_mod_mul(t, x, h, params->q, params->ctx); - zkp->b = BN_new(); - BN_mod_sub(zkp->b, r, t, params->q, params->ctx); - - // show - printf(" ZKP(x%d%s)\n", n, suffix); - showbn(" zkpg", zkpg); - showbn(" g^x", gx); - showbn(" g^r", zkp->gr); - showbn(" b", zkp->b); - - // cleanup - BN_free(t); - BN_free(h); - BN_free(gx); - BN_free(r); - } - -static int VerifyZKP(const JPakeZKP *zkp, BIGNUM *gx, - const JPakeUserPublic *them, const BIGNUM *zkpg, - const JPakeParameters *params, int n, const char *suffix) - { - BIGNUM *h = BN_new(); - BIGNUM *t1 = BN_new(); - BIGNUM *t2 = BN_new(); - BIGNUM *t3 = BN_new(); - int ret = 0; - - zkpHash(h, zkp, gx, them, params); - - // t1 = g^b - BN_mod_exp(t1, zkpg, zkp->b, params->p, params->ctx); - // t2 = (g^x)^h = g^{hx} - BN_mod_exp(t2, gx, h, params->p, params->ctx); - // t3 = t1 * t2 = g^{hx} * g^b = g^{hx+b} = g^r (allegedly) - BN_mod_mul(t3, t1, t2, params->p, params->ctx); - - printf(" ZKP(x%d%s)\n", n, suffix); - showbn(" zkpg", zkpg); - showbn(" g^r'", t3); - - // verify t3 == g^r - if(BN_cmp(t3, zkp->gr) == 0) - ret = 1; - - // cleanup - BN_free(t3); - BN_free(t2); - BN_free(t1); - BN_free(h); - - if(ret) - puts(" OK"); - else - puts(" FAIL"); - - return ret; - } - -static void sendstep1_substep(JPakeStep1 *s1, const BIGNUM *x, - const JPakeUser *us, - const JPakeParameters *params, int n) - { - s1->gx = BN_new(); - BN_mod_exp(s1->gx, params->g, x, params->p, params->ctx); - printf(" g^{x%d}", n); - showbn("", s1->gx); - - CreateZKP(&s1->zkpx, x, us, params->g, params, n, ""); - } - -static void sendstep1(const JPakeUser *us, JPakeUserPublic *them, - const JPakeParameters *params) - { - printf("\n%s sends %s:\n\n", us->p.name, them->name); - - // from's g^xa (which becomes to's g^xc) and ZKP(xa) - sendstep1_substep(&them->s1c, us->xa, us, params, us->p.base); - // from's g^xb (which becomes to's g^xd) and ZKP(xb) - sendstep1_substep(&them->s1d, us->xb, us, params, us->p.base+1); - } - -static int verifystep1(const JPakeUser *us, const JPakeUserPublic *them, - const JPakeParameters *params) - { - printf("\n%s verifies %s:\n\n", us->p.name, them->name); - - // verify their ZKP(xc) - if(!VerifyZKP(&us->p.s1c.zkpx, us->p.s1c.gx, them, params->g, params, - them->base, "")) - return 0; - - // verify their ZKP(xd) - if(!VerifyZKP(&us->p.s1d.zkpx, us->p.s1d.gx, them, params->g, params, - them->base+1, "")) - return 0; - - // g^xd != 1 - printf(" g^{x%d} != 1: ", them->base+1); - if(BN_is_one(us->p.s1d.gx)) - { - puts("FAIL"); - return 0; - } - puts("OK"); - - return 1; - } - -static void sendstep2(const JPakeUser *us, JPakeUserPublic *them, - const JPakeParameters *params) - { - BIGNUM *t1 = BN_new(); - BIGNUM *t2 = BN_new(); - - printf("\n%s sends %s:\n\n", us->p.name, them->name); - - // X = g^{(xa + xc + xd) * xb * s} - // t1 = g^xa - BN_mod_exp(t1, params->g, us->xa, params->p, params->ctx); - // t2 = t1 * g^{xc} = g^{xa} * g^{xc} = g^{xa + xc} - BN_mod_mul(t2, t1, us->p.s1c.gx, params->p, params->ctx); - // t1 = t2 * g^{xd} = g^{xa + xc + xd} - BN_mod_mul(t1, t2, us->p.s1d.gx, params->p, params->ctx); - // t2 = xb * s - BN_mod_mul(t2, us->xb, us->secret, params->q, params->ctx); - // X = t1^{t2} = t1^{xb * s} = g^{(xa + xc + xd) * xb * s} - them->s2.X = BN_new(); - BN_mod_exp(them->s2.X, t1, t2, params->p, params->ctx); - - // Show - printf(" g^{(x%d + x%d + x%d) * x%d * s)", us->p.base, them->base, - them->base+1, us->p.base+1); - showbn("", them->s2.X); - - // ZKP(xb * s) - // XXX: this is kinda funky, because we're using - // - // g' = g^{xa + xc + xd} - // - // as the generator, which means X is g'^{xb * s} - CreateZKP(&them->s2.zkpxbs, t2, us, t1, params, us->p.base+1, " * s"); - - // cleanup - BN_free(t1); - BN_free(t2); - } - -static int verifystep2(const JPakeUser *us, const JPakeUserPublic *them, - const JPakeParameters *params) - { - BIGNUM *t1 = BN_new(); - BIGNUM *t2 = BN_new(); - int ret = 0; - - printf("\n%s verifies %s:\n\n", us->p.name, them->name); - - // g' = g^{xc + xa + xb} [from our POV] - // t1 = xa + xb - BN_mod_add(t1, us->xa, us->xb, params->q, params->ctx); - // t2 = g^{t1} = g^{xa+xb} - BN_mod_exp(t2, params->g, t1, params->p, params->ctx); - // t1 = g^{xc} * t2 = g^{xc + xa + xb} - BN_mod_mul(t1, us->p.s1c.gx, t2, params->p, params->ctx); - - if(VerifyZKP(&us->p.s2.zkpxbs, us->p.s2.X, them, t1, params, them->base+1, - " * s")) - ret = 1; - - // cleanup - BN_free(t2); - BN_free(t1); - - return ret; - } - -static void computekey(JPakeUser *us, const JPakeParameters *params) - { - BIGNUM *t1 = BN_new(); - BIGNUM *t2 = BN_new(); - BIGNUM *t3 = BN_new(); - - printf("\n%s calculates the shared key:\n\n", us->p.name); - - // K = (X/g^{xb * xd * s})^{xb} - // = (g^{(xc + xa + xb) * xd * s - xb * xd *s})^{xb} - // = (g^{(xa + xc) * xd * s})^{xb} - // = g^{(xa + xc) * xb * xd * s} - // [which is the same regardless of who calculates it] - - // t1 = (g^{xd})^{xb} = g^{xb * xd} - BN_mod_exp(t1, us->p.s1d.gx, us->xb, params->p, params->ctx); - // t2 = -s = q-s - BN_sub(t2, params->q, us->secret); - // t3 = t1^t2 = g^{-xb * xd * s} - BN_mod_exp(t3, t1, t2, params->p, params->ctx); - // t1 = X * t3 = X/g^{xb * xd * s} - BN_mod_mul(t1, us->p.s2.X, t3, params->p, params->ctx); - // K = t1^{xb} - us->key = BN_new(); - BN_mod_exp(us->key, t1, us->xb, params->p, params->ctx); - - // show - showbn(" K", us->key); - - // cleanup - BN_free(t3); - BN_free(t2); - BN_free(t1); - } - -int main(int argc, char **argv) - { - JPakeParameters params; - JPakeUser alice, bob; - - alice.p.name = "Alice"; - alice.p.base = 1; - bob.p.name = "Bob"; - bob.p.base = 3; - - JPakeParametersInit(¶ms); - - // Shared secret - alice.secret = BN_new(); - BN_rand(alice.secret, 32, -1, 0); - bob.secret = alice.secret; - showbn("secret", alice.secret); - - assert(BN_cmp(alice.secret, params.q) < 0); - - // Alice's x1, x2 - genrand(&alice, ¶ms); - - // Bob's x3, x4 - genrand(&bob, ¶ms); - - // Now send stuff to each other... - sendstep1(&alice, &bob.p, ¶ms); - sendstep1(&bob, &alice.p, ¶ms); - - // And verify what each other sent - if(!verifystep1(&alice, &bob.p, ¶ms)) - return 1; - if(!verifystep1(&bob, &alice.p, ¶ms)) - return 2; - - // Second send - sendstep2(&alice, &bob.p, ¶ms); - sendstep2(&bob, &alice.p, ¶ms); - - // And second verify - if(!verifystep2(&alice, &bob.p, ¶ms)) - return 3; - if(!verifystep2(&bob, &alice.p, ¶ms)) - return 4; - - // Compute common key - computekey(&alice, ¶ms); - computekey(&bob, ¶ms); - - // Confirm the common key is identical - // XXX: if the two secrets are not the same, everything works up - // to this point, so the only way to detect a failure is by the - // difference in the calculated keys. - // Since we're all the same code, just compare them directly. In a - // real system, Alice sends Bob H(H(K)), Bob checks it, then sends - // back H(K), which Alice checks, or something equivalent. - puts("\nAlice and Bob check keys are the same:"); - if(BN_cmp(alice.key, bob.key) == 0) - puts(" OK"); - else - { - puts(" FAIL"); - return 5; - } - - return 0; - } |