1*8411e6adSJerome Forissier /* LibTomCrypt, modular cryptographic library -- Tom St Denis */
2*8411e6adSJerome Forissier /* SPDX-License-Identifier: Unlicense */
35a913ee7SJerome Forissier
45a913ee7SJerome Forissier /**
55a913ee7SJerome Forissier @file skipjack.c
65a913ee7SJerome Forissier Skipjack Implementation by Tom St Denis
75a913ee7SJerome Forissier */
85a913ee7SJerome Forissier #include "tomcrypt_private.h"
95a913ee7SJerome Forissier
105a913ee7SJerome Forissier #ifdef LTC_SKIPJACK
115a913ee7SJerome Forissier
125a913ee7SJerome Forissier const struct ltc_cipher_descriptor skipjack_desc =
135a913ee7SJerome Forissier {
145a913ee7SJerome Forissier "skipjack",
155a913ee7SJerome Forissier 17,
165a913ee7SJerome Forissier 10, 10, 8, 32,
175a913ee7SJerome Forissier &skipjack_setup,
185a913ee7SJerome Forissier &skipjack_ecb_encrypt,
195a913ee7SJerome Forissier &skipjack_ecb_decrypt,
205a913ee7SJerome Forissier &skipjack_test,
215a913ee7SJerome Forissier &skipjack_done,
225a913ee7SJerome Forissier &skipjack_keysize,
235a913ee7SJerome Forissier NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL
245a913ee7SJerome Forissier };
255a913ee7SJerome Forissier
265a913ee7SJerome Forissier static const unsigned char sbox[256] = {
275a913ee7SJerome Forissier 0xa3,0xd7,0x09,0x83,0xf8,0x48,0xf6,0xf4,0xb3,0x21,0x15,0x78,0x99,0xb1,0xaf,0xf9,
285a913ee7SJerome Forissier 0xe7,0x2d,0x4d,0x8a,0xce,0x4c,0xca,0x2e,0x52,0x95,0xd9,0x1e,0x4e,0x38,0x44,0x28,
295a913ee7SJerome Forissier 0x0a,0xdf,0x02,0xa0,0x17,0xf1,0x60,0x68,0x12,0xb7,0x7a,0xc3,0xe9,0xfa,0x3d,0x53,
305a913ee7SJerome Forissier 0x96,0x84,0x6b,0xba,0xf2,0x63,0x9a,0x19,0x7c,0xae,0xe5,0xf5,0xf7,0x16,0x6a,0xa2,
315a913ee7SJerome Forissier 0x39,0xb6,0x7b,0x0f,0xc1,0x93,0x81,0x1b,0xee,0xb4,0x1a,0xea,0xd0,0x91,0x2f,0xb8,
325a913ee7SJerome Forissier 0x55,0xb9,0xda,0x85,0x3f,0x41,0xbf,0xe0,0x5a,0x58,0x80,0x5f,0x66,0x0b,0xd8,0x90,
335a913ee7SJerome Forissier 0x35,0xd5,0xc0,0xa7,0x33,0x06,0x65,0x69,0x45,0x00,0x94,0x56,0x6d,0x98,0x9b,0x76,
345a913ee7SJerome Forissier 0x97,0xfc,0xb2,0xc2,0xb0,0xfe,0xdb,0x20,0xe1,0xeb,0xd6,0xe4,0xdd,0x47,0x4a,0x1d,
355a913ee7SJerome Forissier 0x42,0xed,0x9e,0x6e,0x49,0x3c,0xcd,0x43,0x27,0xd2,0x07,0xd4,0xde,0xc7,0x67,0x18,
365a913ee7SJerome Forissier 0x89,0xcb,0x30,0x1f,0x8d,0xc6,0x8f,0xaa,0xc8,0x74,0xdc,0xc9,0x5d,0x5c,0x31,0xa4,
375a913ee7SJerome Forissier 0x70,0x88,0x61,0x2c,0x9f,0x0d,0x2b,0x87,0x50,0x82,0x54,0x64,0x26,0x7d,0x03,0x40,
385a913ee7SJerome Forissier 0x34,0x4b,0x1c,0x73,0xd1,0xc4,0xfd,0x3b,0xcc,0xfb,0x7f,0xab,0xe6,0x3e,0x5b,0xa5,
395a913ee7SJerome Forissier 0xad,0x04,0x23,0x9c,0x14,0x51,0x22,0xf0,0x29,0x79,0x71,0x7e,0xff,0x8c,0x0e,0xe2,
405a913ee7SJerome Forissier 0x0c,0xef,0xbc,0x72,0x75,0x6f,0x37,0xa1,0xec,0xd3,0x8e,0x62,0x8b,0x86,0x10,0xe8,
415a913ee7SJerome Forissier 0x08,0x77,0x11,0xbe,0x92,0x4f,0x24,0xc5,0x32,0x36,0x9d,0xcf,0xf3,0xa6,0xbb,0xac,
425a913ee7SJerome Forissier 0x5e,0x6c,0xa9,0x13,0x57,0x25,0xb5,0xe3,0xbd,0xa8,0x3a,0x01,0x05,0x59,0x2a,0x46
435a913ee7SJerome Forissier };
445a913ee7SJerome Forissier
455a913ee7SJerome Forissier /* simple x + 1 (mod 10) in one step. */
465a913ee7SJerome Forissier static const int keystep[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 0 };
475a913ee7SJerome Forissier
485a913ee7SJerome Forissier /* simple x - 1 (mod 10) in one step */
495a913ee7SJerome Forissier static const int ikeystep[] = { 9, 0, 1, 2, 3, 4, 5, 6, 7, 8 };
505a913ee7SJerome Forissier
515a913ee7SJerome Forissier /**
525a913ee7SJerome Forissier Initialize the Skipjack block cipher
535a913ee7SJerome Forissier @param key The symmetric key you wish to pass
545a913ee7SJerome Forissier @param keylen The key length in bytes
555a913ee7SJerome Forissier @param num_rounds The number of rounds desired (0 for default)
565a913ee7SJerome Forissier @param skey The key in as scheduled by this function.
575a913ee7SJerome Forissier @return CRYPT_OK if successful
585a913ee7SJerome Forissier */
skipjack_setup(const unsigned char * key,int keylen,int num_rounds,symmetric_key * skey)595a913ee7SJerome Forissier int skipjack_setup(const unsigned char *key, int keylen, int num_rounds, symmetric_key *skey)
605a913ee7SJerome Forissier {
615a913ee7SJerome Forissier int x;
625a913ee7SJerome Forissier
635a913ee7SJerome Forissier LTC_ARGCHK(key != NULL);
645a913ee7SJerome Forissier LTC_ARGCHK(skey != NULL);
655a913ee7SJerome Forissier
665a913ee7SJerome Forissier if (keylen != 10) {
675a913ee7SJerome Forissier return CRYPT_INVALID_KEYSIZE;
685a913ee7SJerome Forissier }
695a913ee7SJerome Forissier
705a913ee7SJerome Forissier if (num_rounds != 32 && num_rounds != 0) {
715a913ee7SJerome Forissier return CRYPT_INVALID_ROUNDS;
725a913ee7SJerome Forissier }
735a913ee7SJerome Forissier
745a913ee7SJerome Forissier /* make sure the key is in range for platforms where CHAR_BIT != 8 */
755a913ee7SJerome Forissier for (x = 0; x < 10; x++) {
765a913ee7SJerome Forissier skey->skipjack.key[x] = key[x] & 255;
775a913ee7SJerome Forissier }
785a913ee7SJerome Forissier
795a913ee7SJerome Forissier return CRYPT_OK;
805a913ee7SJerome Forissier }
815a913ee7SJerome Forissier
825a913ee7SJerome Forissier #define RULE_A \
835a913ee7SJerome Forissier tmp = g_func(w1, &kp, skey->skipjack.key); \
845a913ee7SJerome Forissier w1 = tmp ^ w4 ^ x; \
855a913ee7SJerome Forissier w4 = w3; w3 = w2; \
865a913ee7SJerome Forissier w2 = tmp;
875a913ee7SJerome Forissier
885a913ee7SJerome Forissier #define RULE_B \
895a913ee7SJerome Forissier tmp = g_func(w1, &kp, skey->skipjack.key); \
905a913ee7SJerome Forissier tmp1 = w4; w4 = w3; \
915a913ee7SJerome Forissier w3 = w1 ^ w2 ^ x; \
925a913ee7SJerome Forissier w1 = tmp1; w2 = tmp;
935a913ee7SJerome Forissier
945a913ee7SJerome Forissier #define RULE_A1 \
955a913ee7SJerome Forissier tmp = w1 ^ w2 ^ x; \
965a913ee7SJerome Forissier w1 = ig_func(w2, &kp, skey->skipjack.key); \
975a913ee7SJerome Forissier w2 = w3; w3 = w4; w4 = tmp;
985a913ee7SJerome Forissier
995a913ee7SJerome Forissier #define RULE_B1 \
1005a913ee7SJerome Forissier tmp = ig_func(w2, &kp, skey->skipjack.key); \
1015a913ee7SJerome Forissier w2 = tmp ^ w3 ^ x; \
1025a913ee7SJerome Forissier w3 = w4; w4 = w1; w1 = tmp;
1035a913ee7SJerome Forissier
g_func(unsigned w,int * kp,const unsigned char * key)1045a913ee7SJerome Forissier static unsigned g_func(unsigned w, int *kp, const unsigned char *key)
1055a913ee7SJerome Forissier {
1065a913ee7SJerome Forissier unsigned char g1,g2;
1075a913ee7SJerome Forissier
1085a913ee7SJerome Forissier g1 = (w >> 8) & 255; g2 = w & 255;
1095a913ee7SJerome Forissier g1 ^= sbox[g2^key[*kp]]; *kp = keystep[*kp];
1105a913ee7SJerome Forissier g2 ^= sbox[g1^key[*kp]]; *kp = keystep[*kp];
1115a913ee7SJerome Forissier g1 ^= sbox[g2^key[*kp]]; *kp = keystep[*kp];
1125a913ee7SJerome Forissier g2 ^= sbox[g1^key[*kp]]; *kp = keystep[*kp];
1135a913ee7SJerome Forissier return ((unsigned)g1<<8)|(unsigned)g2;
1145a913ee7SJerome Forissier }
1155a913ee7SJerome Forissier
ig_func(unsigned w,int * kp,const unsigned char * key)1165a913ee7SJerome Forissier static unsigned ig_func(unsigned w, int *kp, const unsigned char *key)
1175a913ee7SJerome Forissier {
1185a913ee7SJerome Forissier unsigned char g1,g2;
1195a913ee7SJerome Forissier
1205a913ee7SJerome Forissier g1 = (w >> 8) & 255; g2 = w & 255;
1215a913ee7SJerome Forissier *kp = ikeystep[*kp]; g2 ^= sbox[g1^key[*kp]];
1225a913ee7SJerome Forissier *kp = ikeystep[*kp]; g1 ^= sbox[g2^key[*kp]];
1235a913ee7SJerome Forissier *kp = ikeystep[*kp]; g2 ^= sbox[g1^key[*kp]];
1245a913ee7SJerome Forissier *kp = ikeystep[*kp]; g1 ^= sbox[g2^key[*kp]];
1255a913ee7SJerome Forissier return ((unsigned)g1<<8)|(unsigned)g2;
1265a913ee7SJerome Forissier }
1275a913ee7SJerome Forissier
1285a913ee7SJerome Forissier /**
1295a913ee7SJerome Forissier Encrypts a block of text with Skipjack
1305a913ee7SJerome Forissier @param pt The input plaintext (8 bytes)
1315a913ee7SJerome Forissier @param ct The output ciphertext (8 bytes)
1325a913ee7SJerome Forissier @param skey The key as scheduled
1335a913ee7SJerome Forissier @return CRYPT_OK if successful
1345a913ee7SJerome Forissier */
1355a913ee7SJerome Forissier #ifdef LTC_CLEAN_STACK
s_skipjack_ecb_encrypt(const unsigned char * pt,unsigned char * ct,const symmetric_key * skey)136*8411e6adSJerome Forissier static int s_skipjack_ecb_encrypt(const unsigned char *pt, unsigned char *ct, const symmetric_key *skey)
1375a913ee7SJerome Forissier #else
1385a913ee7SJerome Forissier int skipjack_ecb_encrypt(const unsigned char *pt, unsigned char *ct, const symmetric_key *skey)
1395a913ee7SJerome Forissier #endif
1405a913ee7SJerome Forissier {
1415a913ee7SJerome Forissier unsigned w1,w2,w3,w4,tmp,tmp1;
1425a913ee7SJerome Forissier int x, kp;
1435a913ee7SJerome Forissier
1445a913ee7SJerome Forissier LTC_ARGCHK(pt != NULL);
1455a913ee7SJerome Forissier LTC_ARGCHK(ct != NULL);
1465a913ee7SJerome Forissier LTC_ARGCHK(skey != NULL);
1475a913ee7SJerome Forissier
1485a913ee7SJerome Forissier /* load block */
1495a913ee7SJerome Forissier w1 = ((unsigned)pt[0]<<8)|pt[1];
1505a913ee7SJerome Forissier w2 = ((unsigned)pt[2]<<8)|pt[3];
1515a913ee7SJerome Forissier w3 = ((unsigned)pt[4]<<8)|pt[5];
1525a913ee7SJerome Forissier w4 = ((unsigned)pt[6]<<8)|pt[7];
1535a913ee7SJerome Forissier
1545a913ee7SJerome Forissier /* 8 rounds of RULE A */
1555a913ee7SJerome Forissier for (x = 1, kp = 0; x < 9; x++) {
1565a913ee7SJerome Forissier RULE_A;
1575a913ee7SJerome Forissier }
1585a913ee7SJerome Forissier
1595a913ee7SJerome Forissier /* 8 rounds of RULE B */
1605a913ee7SJerome Forissier for (; x < 17; x++) {
1615a913ee7SJerome Forissier RULE_B;
1625a913ee7SJerome Forissier }
1635a913ee7SJerome Forissier
1645a913ee7SJerome Forissier /* 8 rounds of RULE A */
1655a913ee7SJerome Forissier for (; x < 25; x++) {
1665a913ee7SJerome Forissier RULE_A;
1675a913ee7SJerome Forissier }
1685a913ee7SJerome Forissier
1695a913ee7SJerome Forissier /* 8 rounds of RULE B */
1705a913ee7SJerome Forissier for (; x < 33; x++) {
1715a913ee7SJerome Forissier RULE_B;
1725a913ee7SJerome Forissier }
1735a913ee7SJerome Forissier
1745a913ee7SJerome Forissier /* store block */
1755a913ee7SJerome Forissier ct[0] = (w1>>8)&255; ct[1] = w1&255;
1765a913ee7SJerome Forissier ct[2] = (w2>>8)&255; ct[3] = w2&255;
1775a913ee7SJerome Forissier ct[4] = (w3>>8)&255; ct[5] = w3&255;
1785a913ee7SJerome Forissier ct[6] = (w4>>8)&255; ct[7] = w4&255;
1795a913ee7SJerome Forissier
1805a913ee7SJerome Forissier return CRYPT_OK;
1815a913ee7SJerome Forissier }
1825a913ee7SJerome Forissier
1835a913ee7SJerome Forissier #ifdef LTC_CLEAN_STACK
skipjack_ecb_encrypt(const unsigned char * pt,unsigned char * ct,const symmetric_key * skey)1845a913ee7SJerome Forissier int skipjack_ecb_encrypt(const unsigned char *pt, unsigned char *ct, const symmetric_key *skey)
1855a913ee7SJerome Forissier {
186*8411e6adSJerome Forissier int err = s_skipjack_ecb_encrypt(pt, ct, skey);
1875a913ee7SJerome Forissier burn_stack(sizeof(unsigned) * 8 + sizeof(int) * 2);
1885a913ee7SJerome Forissier return err;
1895a913ee7SJerome Forissier }
1905a913ee7SJerome Forissier #endif
1915a913ee7SJerome Forissier
1925a913ee7SJerome Forissier /**
1935a913ee7SJerome Forissier Decrypts a block of text with Skipjack
1945a913ee7SJerome Forissier @param ct The input ciphertext (8 bytes)
1955a913ee7SJerome Forissier @param pt The output plaintext (8 bytes)
1965a913ee7SJerome Forissier @param skey The key as scheduled
1975a913ee7SJerome Forissier @return CRYPT_OK if successful
1985a913ee7SJerome Forissier */
1995a913ee7SJerome Forissier #ifdef LTC_CLEAN_STACK
s_skipjack_ecb_decrypt(const unsigned char * ct,unsigned char * pt,const symmetric_key * skey)200*8411e6adSJerome Forissier static int s_skipjack_ecb_decrypt(const unsigned char *ct, unsigned char *pt, const symmetric_key *skey)
2015a913ee7SJerome Forissier #else
2025a913ee7SJerome Forissier int skipjack_ecb_decrypt(const unsigned char *ct, unsigned char *pt, const symmetric_key *skey)
2035a913ee7SJerome Forissier #endif
2045a913ee7SJerome Forissier {
2055a913ee7SJerome Forissier unsigned w1,w2,w3,w4,tmp;
2065a913ee7SJerome Forissier int x, kp;
2075a913ee7SJerome Forissier
2085a913ee7SJerome Forissier LTC_ARGCHK(pt != NULL);
2095a913ee7SJerome Forissier LTC_ARGCHK(ct != NULL);
2105a913ee7SJerome Forissier LTC_ARGCHK(skey != NULL);
2115a913ee7SJerome Forissier
2125a913ee7SJerome Forissier /* load block */
2135a913ee7SJerome Forissier w1 = ((unsigned)ct[0]<<8)|ct[1];
2145a913ee7SJerome Forissier w2 = ((unsigned)ct[2]<<8)|ct[3];
2155a913ee7SJerome Forissier w3 = ((unsigned)ct[4]<<8)|ct[5];
2165a913ee7SJerome Forissier w4 = ((unsigned)ct[6]<<8)|ct[7];
2175a913ee7SJerome Forissier
2185a913ee7SJerome Forissier /* 8 rounds of RULE B^-1
2195a913ee7SJerome Forissier
2205a913ee7SJerome Forissier Note the value "kp = 8" comes from "kp = (32 * 4) mod 10" where 32*4 is 128 which mod 10 is 8
2215a913ee7SJerome Forissier */
2225a913ee7SJerome Forissier for (x = 32, kp = 8; x > 24; x--) {
2235a913ee7SJerome Forissier RULE_B1;
2245a913ee7SJerome Forissier }
2255a913ee7SJerome Forissier
2265a913ee7SJerome Forissier /* 8 rounds of RULE A^-1 */
2275a913ee7SJerome Forissier for (; x > 16; x--) {
2285a913ee7SJerome Forissier RULE_A1;
2295a913ee7SJerome Forissier }
2305a913ee7SJerome Forissier
2315a913ee7SJerome Forissier
2325a913ee7SJerome Forissier /* 8 rounds of RULE B^-1 */
2335a913ee7SJerome Forissier for (; x > 8; x--) {
2345a913ee7SJerome Forissier RULE_B1;
2355a913ee7SJerome Forissier }
2365a913ee7SJerome Forissier
2375a913ee7SJerome Forissier /* 8 rounds of RULE A^-1 */
2385a913ee7SJerome Forissier for (; x > 0; x--) {
2395a913ee7SJerome Forissier RULE_A1;
2405a913ee7SJerome Forissier }
2415a913ee7SJerome Forissier
2425a913ee7SJerome Forissier /* store block */
2435a913ee7SJerome Forissier pt[0] = (w1>>8)&255; pt[1] = w1&255;
2445a913ee7SJerome Forissier pt[2] = (w2>>8)&255; pt[3] = w2&255;
2455a913ee7SJerome Forissier pt[4] = (w3>>8)&255; pt[5] = w3&255;
2465a913ee7SJerome Forissier pt[6] = (w4>>8)&255; pt[7] = w4&255;
2475a913ee7SJerome Forissier
2485a913ee7SJerome Forissier return CRYPT_OK;
2495a913ee7SJerome Forissier }
2505a913ee7SJerome Forissier
2515a913ee7SJerome Forissier #ifdef LTC_CLEAN_STACK
skipjack_ecb_decrypt(const unsigned char * ct,unsigned char * pt,const symmetric_key * skey)2525a913ee7SJerome Forissier int skipjack_ecb_decrypt(const unsigned char *ct, unsigned char *pt, const symmetric_key *skey)
2535a913ee7SJerome Forissier {
254*8411e6adSJerome Forissier int err = s_skipjack_ecb_decrypt(ct, pt, skey);
2555a913ee7SJerome Forissier burn_stack(sizeof(unsigned) * 7 + sizeof(int) * 2);
2565a913ee7SJerome Forissier return err;
2575a913ee7SJerome Forissier }
2585a913ee7SJerome Forissier #endif
2595a913ee7SJerome Forissier
2605a913ee7SJerome Forissier /**
2615a913ee7SJerome Forissier Performs a self-test of the Skipjack block cipher
2625a913ee7SJerome Forissier @return CRYPT_OK if functional, CRYPT_NOP if self-test has been disabled
2635a913ee7SJerome Forissier */
skipjack_test(void)2645a913ee7SJerome Forissier int skipjack_test(void)
2655a913ee7SJerome Forissier {
2665a913ee7SJerome Forissier #ifndef LTC_TEST
2675a913ee7SJerome Forissier return CRYPT_NOP;
2685a913ee7SJerome Forissier #else
2695a913ee7SJerome Forissier static const struct {
2705a913ee7SJerome Forissier unsigned char key[10], pt[8], ct[8];
2715a913ee7SJerome Forissier } tests[] = {
2725a913ee7SJerome Forissier {
2735a913ee7SJerome Forissier { 0x00, 0x99, 0x88, 0x77, 0x66, 0x55, 0x44, 0x33, 0x22, 0x11 },
2745a913ee7SJerome Forissier { 0x33, 0x22, 0x11, 0x00, 0xdd, 0xcc, 0xbb, 0xaa },
2755a913ee7SJerome Forissier { 0x25, 0x87, 0xca, 0xe2, 0x7a, 0x12, 0xd3, 0x00 }
2765a913ee7SJerome Forissier }
2775a913ee7SJerome Forissier };
2785a913ee7SJerome Forissier unsigned char buf[2][8];
2795a913ee7SJerome Forissier int x, y, err;
2805a913ee7SJerome Forissier symmetric_key key;
2815a913ee7SJerome Forissier
2825a913ee7SJerome Forissier for (x = 0; x < (int)(sizeof(tests) / sizeof(tests[0])); x++) {
2835a913ee7SJerome Forissier /* setup key */
2845a913ee7SJerome Forissier if ((err = skipjack_setup(tests[x].key, 10, 0, &key)) != CRYPT_OK) {
2855a913ee7SJerome Forissier return err;
2865a913ee7SJerome Forissier }
2875a913ee7SJerome Forissier
2885a913ee7SJerome Forissier /* encrypt and decrypt */
2895a913ee7SJerome Forissier skipjack_ecb_encrypt(tests[x].pt, buf[0], &key);
2905a913ee7SJerome Forissier skipjack_ecb_decrypt(buf[0], buf[1], &key);
2915a913ee7SJerome Forissier
2925a913ee7SJerome Forissier /* compare */
2935a913ee7SJerome Forissier if (compare_testvector(buf[0], 8, tests[x].ct, 8, "Skipjack Encrypt", x) != 0 ||
2945a913ee7SJerome Forissier compare_testvector(buf[1], 8, tests[x].pt, 8, "Skipjack Decrypt", x) != 0) {
2955a913ee7SJerome Forissier return CRYPT_FAIL_TESTVECTOR;
2965a913ee7SJerome Forissier }
2975a913ee7SJerome Forissier
2985a913ee7SJerome Forissier /* now see if we can encrypt all zero bytes 1000 times, decrypt and come back where we started */
2995a913ee7SJerome Forissier for (y = 0; y < 8; y++) buf[0][y] = 0;
3005a913ee7SJerome Forissier for (y = 0; y < 1000; y++) skipjack_ecb_encrypt(buf[0], buf[0], &key);
3015a913ee7SJerome Forissier for (y = 0; y < 1000; y++) skipjack_ecb_decrypt(buf[0], buf[0], &key);
3025a913ee7SJerome Forissier for (y = 0; y < 8; y++) if (buf[0][y] != 0) return CRYPT_FAIL_TESTVECTOR;
3035a913ee7SJerome Forissier }
3045a913ee7SJerome Forissier
3055a913ee7SJerome Forissier return CRYPT_OK;
3065a913ee7SJerome Forissier #endif
3075a913ee7SJerome Forissier }
3085a913ee7SJerome Forissier
3095a913ee7SJerome Forissier /** Terminate the context
3105a913ee7SJerome Forissier @param skey The scheduled key
3115a913ee7SJerome Forissier */
skipjack_done(symmetric_key * skey)3125a913ee7SJerome Forissier void skipjack_done(symmetric_key *skey)
3135a913ee7SJerome Forissier {
3145a913ee7SJerome Forissier LTC_UNUSED_PARAM(skey);
3155a913ee7SJerome Forissier }
3165a913ee7SJerome Forissier
3175a913ee7SJerome Forissier /**
3185a913ee7SJerome Forissier Gets suitable key size
3195a913ee7SJerome Forissier @param keysize [in/out] The length of the recommended key (in bytes). This function will store the suitable size back in this variable.
3205a913ee7SJerome Forissier @return CRYPT_OK if the input key size is acceptable.
3215a913ee7SJerome Forissier */
skipjack_keysize(int * keysize)3225a913ee7SJerome Forissier int skipjack_keysize(int *keysize)
3235a913ee7SJerome Forissier {
3245a913ee7SJerome Forissier LTC_ARGCHK(keysize != NULL);
3255a913ee7SJerome Forissier if (*keysize < 10) {
3265a913ee7SJerome Forissier return CRYPT_INVALID_KEYSIZE;
3275a913ee7SJerome Forissier }
3285a913ee7SJerome Forissier if (*keysize > 10) {
3295a913ee7SJerome Forissier *keysize = 10;
3305a913ee7SJerome Forissier }
3315a913ee7SJerome Forissier return CRYPT_OK;
3325a913ee7SJerome Forissier }
3335a913ee7SJerome Forissier
3345a913ee7SJerome Forissier #endif
335