/* * Date: 29 November 2018 * Contact: Thomas Peyrin - thomas.peyrin@gmail.com * Mustafa Khairallah - mustafam001@e.ntu.edu.sg */ #include "crypto_aead.h" #include "api.h" #include "variant.h" #include "skinny.h" #include #include /*void display_vector (const unsigned char* x, int lenx) { int i; for (i = 0; i < lenx; i++) { //printf("%02x",x[i]); } //printf("\n"); }*/ void pad (const unsigned char* m, unsigned char* mp, int l, int len8) { int i; for (i = 0; i < l; i++) { if (i < len8) { mp[i] = m[i]; } else if (i == l - 1) { mp[i] = (len8 & 0x0f); } else { mp[i] = 0x00; } } } void g8A (unsigned char* s, unsigned char* c) { int i; for (i = 0; i < 16; i++) { c[i] = (s[i] >> 1) ^ (s[i] & 0x80) ^ ((s[i] & 0x01) << 7); } } void rho_ad (const unsigned char* m, unsigned char* s, int len8, int ver) { int i; unsigned char mp [16]; //printf("rho in m = ");display_vector(m,len8); pad(m,mp,ver,len8); //printf("rho in mp = ");display_vector(mp,16); //printf("rho in s = ");display_vector(s,16); for (i = 0; i < ver; i++) { s[i] = s[i] ^ mp[i]; } //printf("rho out s = ");display_vector(s,16); } void rho (const unsigned char* m, unsigned char* c, unsigned char* s, int len8, int ver) { int i; unsigned char mp [16]; //printf("rho in m = ");display_vector(m,len8); pad(m,mp,ver,len8); //printf("rho in mp = ");display_vector(mp,16); //printf("rho in s = ");display_vector(s,16); g8A(s,c); for (i = 0; i < ver; i++) { s[i] = s[i] ^ mp[i]; if (i < len8) { c[i] = c[i] ^ mp[i]; } else { c[i] = 0; } } //printf("rho out s = ");display_vector(s,16); //printf("rho out c = ");display_vector(c,16); } void irho (unsigned char* m, const unsigned char* c, unsigned char* s, int len8, int ver) { int i; unsigned char cp [16]; //printf("irho in c = ");display_vector(c,len8); pad(c,cp,ver,len8); //printf("irho in cp = ");display_vector(cp,16); //printf("irho in s = ");display_vector(s,16); g8A(s,m); for (i = 0; i < ver; i++) { if (i < len8) { s[i] = s[i] ^ cp[i] ^ m[i]; } else { s[i] = s[i] ^ cp[i]; } if (i < len8) { m[i] = m[i] ^ cp[i]; } else { m[i] = 0; } } //printf("irho out s = ");display_vector(s,16); //printf("irho out m = ");display_vector(c,16); } void reset_lfsr_gf56 (unsigned char* CNT) { CNT[0] = 0x01; CNT[1] = 0x00; CNT[2] = 0x00; CNT[3] = 0x00; CNT[4] = 0x00; CNT[5] = 0x00; CNT[6] = 0x00; } void lfsr_gf56 (unsigned char* CNT) { unsigned char fb0; fb0 = CNT[6] >> 7; CNT[6] = (CNT[6] << 1) | (CNT[5] >> 7); CNT[5] = (CNT[5] << 1) | (CNT[4] >> 7); CNT[4] = (CNT[4] << 1) | (CNT[3] >> 7); CNT[3] = (CNT[3] << 1) | (CNT[2] >> 7); CNT[2] = (CNT[2] << 1) | (CNT[1] >> 7); CNT[1] = (CNT[1] << 1) | (CNT[0] >> 7); if (fb0 == 1) { CNT[0] = (CNT[0] << 1) ^ 0x95; } else { CNT[0] = (CNT[0] << 1); } } void compose_tweakey (unsigned char* KT, const unsigned char* K, unsigned char* T, unsigned char* CNT, unsigned char D, int t) { int i; for (i = 0; i < 7; i++) { KT[i] = CNT[i]; } KT[i] = D; for (i = 8; i < 16; i++) { KT[i] = 0x00; } for (i = 0; i < t; i++) { KT[i+16] = T[i]; } for (i = 0; i < 16; i++) { KT[i+16+t] = K[i]; } } void block_cipher(unsigned char* s, const unsigned char* k, unsigned char* T, unsigned char* CNT, unsigned char D, int t, int n) { unsigned char KT [48]; (void) n; compose_tweakey(KT,k,T,CNT,D,t); //printf("BC in kt = ");display_vector(KT,3*n); //printf("BC in s = ");display_vector(s,n); skinny_128_384_enc (s,KT); //printf("BC out s = ");display_vector(s,n); } void nonce_encryption (const unsigned char* N, unsigned char* CNT, unsigned char*s, const unsigned char* k, int t, int n, unsigned char D) { unsigned char T [16]; int i; for (i = 0; i < t; i++) { T[i] = N[i]; } //printf("nonce cnt = ");display_vector(CNT,7); block_cipher(s,k,T,CNT,D,t,n); } void generate_tag (unsigned char** c, unsigned char* s, int n, unsigned long long* clen) { g8A(s, *c); *c = *c + n; *c = *c - *clen; } unsigned long long msg_encryption (const unsigned char** M, unsigned char** c, const unsigned char* N, unsigned char* CNT, unsigned char*s, const unsigned char* k, unsigned int n, unsigned int t, unsigned char D, unsigned long long mlen) { int len8; if (mlen >= n) { len8 = n; mlen = mlen - n; } else { len8 = mlen; mlen = 0; } rho(*M, *c, s, len8, n); *c = *c + len8; *M = *M + len8; lfsr_gf56(CNT); nonce_encryption(N,CNT,s,k,t,n,D); return mlen; } unsigned long long msg_decryption (unsigned char** M, const unsigned char** c, const unsigned char* N, unsigned char* CNT, unsigned char*s, const unsigned char* k, unsigned int n, unsigned int t, unsigned char D, unsigned long long clen) { int len8; if (clen >= n) { len8 = n; clen = clen - n; } else { len8 = clen; clen = 0; } irho(*M, *c, s, len8, n); *c = *c + len8; *M = *M + len8; lfsr_gf56(CNT); nonce_encryption(N,CNT,s,k,t,n,D); return clen; } unsigned long long ad_encryption (const unsigned char** A, unsigned char* s, const unsigned char* k, unsigned long long adlen, unsigned char* CNT, unsigned char D, unsigned int n, unsigned int t) { unsigned char T [16]; int len8; //printf("AD in = ");display_vector(*A,16); if (adlen >= n) { len8 = n; adlen = adlen - n; } else { len8 = adlen; adlen = 0; } rho_ad(*A, s, len8, n); *A = *A + len8; lfsr_gf56(CNT); //printf("AD cnt = ");display_vector(CNT,7); if (adlen != 0) { if (adlen >= t) { len8 = t; adlen = adlen - t; } else { len8 = adlen; adlen = 0; } pad(*A, T, t, len8); *A = *A + len8; block_cipher(s,k,T,CNT,D,t,n); lfsr_gf56(CNT); } return adlen; } int crypto_aead_encrypt ( unsigned char* c, unsigned long long* clen, const unsigned char* m, unsigned long long mlen, const unsigned char* ad, unsigned long long adlen, const unsigned char* nsec, const unsigned char* npub, const unsigned char* k ) { unsigned char s[16]; unsigned char CNT[7]; const unsigned char* A; const unsigned char* M; const unsigned char* N; unsigned int n, t, i; (void) nsec; A = ad; M = m; N = npub; n = AD_BLK_LEN_ODD; t = AD_BLK_LEN_EVN; for (i = 0; i < n; i++) { s[i] = 0; } reset_lfsr_gf56(CNT); //printf("s = ");display_vector(s,16); //printf("cnt = ");display_vector(CNT,7); if (adlen == 0) { // AD is an empty string lfsr_gf56(CNT); nonce_encryption(N,CNT,s,k,t,n,0x1a); } else while (adlen > 0) { if (adlen < n) { // The last block of AD is odd and incomplete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x1a); } else if (adlen == n) { // The last block of AD is odd and complete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x18); } else if (adlen < (n+t)) { // The last block of AD is even and incomplete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x1a); } else if (adlen == (n+t)) { // The last block of AD is even and complete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x18); } else { // A normal full pair of blocks of AD adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); } } reset_lfsr_gf56(CNT); n = MSG_BLK_LEN; *clen = mlen + n; if (mlen == 0) { // M is an empty string lfsr_gf56(CNT); nonce_encryption(N,CNT,s,k,t,n,0x15); } else while (mlen > 0) { if (mlen < n) { // The last block of M is incomplete mlen = msg_encryption(&M,&c,N,CNT,s,k,n,t,0x15,mlen); } else if (mlen == n) { // The last block of M is complete mlen = msg_encryption(&M,&c,N,CNT,s,k,n,t,0x14,mlen); } else { // A normal full message block mlen = msg_encryption(&M,&c,N,CNT,s,k,n,t,0x04,mlen); } } // Tag generation generate_tag(&c,s,n,clen); //printf("T = ");display_vector(c+*clen-n,n); return 0; } int crypto_aead_decrypt( unsigned char *m,unsigned long long *mlen, unsigned char *nsec, const unsigned char *c,unsigned long long clen, const unsigned char *ad,unsigned long long adlen, const unsigned char *npub, const unsigned char *k ) { unsigned char s[16]; unsigned char T[16]; unsigned char CNT[7]; const unsigned char* A; unsigned char* M; const unsigned char* N; unsigned int n, t, i; (void) nsec; A = ad; M = m; N = npub; n = AD_BLK_LEN_ODD; t = AD_BLK_LEN_EVN; for (i = 0; i < n; i++) { s[i] = 0; } reset_lfsr_gf56(CNT); //printf("s = ");display_vector(s,16); //printf("cnt = ");display_vector(CNT,7); if (adlen == 0) { // AD is an empty string lfsr_gf56(CNT); nonce_encryption(N,CNT,s,k,t,n,0x1a); } else while (adlen > 0) { if (adlen < n) { // The last block of AD is odd and incomplete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x1a); } else if (adlen == n) { // The last block of AD is odd and complete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x18); } else if (adlen < (n+t)) { // The last block of AD is even and incomplete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x1a); } else if (adlen == (n+t)) { // The last block of AD is even and complete adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); nonce_encryption(N,CNT,s,k,t,n,0x18); } else { // A normal full pair of blocks of AD adlen = ad_encryption(&A,s,k,adlen,CNT,0x08,n,t); } } reset_lfsr_gf56(CNT); n = MSG_BLK_LEN; clen = clen - n; *mlen = clen; if (clen == 0) { // C is an empty string lfsr_gf56(CNT); nonce_encryption(N,CNT,s,k,t,n,0x15); } else while (clen > 0) { if (clen < n) { // The last block of C is incomplete clen = msg_decryption(&M,&c,N,CNT,s,k,n,t,0x15,clen); } else if (clen == n) { // The last block of C is complete clen = msg_decryption(&M,&c,N,CNT,s,k,n,t,0x14,clen); } else { // A normal full message block clen = msg_decryption(&M,&c,N,CNT,s,k,n,t,0x04,clen); } } // Tag generation g8A(s, T); //printf("T = ");display_vector(T,n); for (i = 0; i < 16; i++) { if (T[i] != (*(c+i))) { return -1; } } return 0; }