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[linux-2.6/next.git] / net / sunrpc / auth_gss / gss_krb5_keys.c
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1 /*
2 * COPYRIGHT (c) 2008
3 * The Regents of the University of Michigan
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14 * portion of this software, then the disclaimer below must
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17 * THIS SOFTWARE IS PROVIDED AS IS, WITHOUT REPRESENTATION
18 * FROM THE UNIVERSITY OF MICHIGAN AS TO ITS FITNESS FOR ANY
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32 * Copyright (C) 1998 by the FundsXpress, INC.
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41 * WITHIN THAT CONSTRAINT, permission to use, copy, modify, and
42 * distribute this software and its documentation for any purpose and
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52 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
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57 #include <linux/err.h>
58 #include <linux/types.h>
59 #include <linux/crypto.h>
60 #include <linux/sunrpc/gss_krb5.h>
61 #include <linux/sunrpc/xdr.h>
63 #ifdef RPC_DEBUG
64 # define RPCDBG_FACILITY RPCDBG_AUTH
65 #endif
68 * This is the n-fold function as described in rfc3961, sec 5.1
69 * Taken from MIT Kerberos and modified.
72 static void krb5_nfold(u32 inbits, const u8 *in,
73 u32 outbits, u8 *out)
75 int a, b, c, lcm;
76 int byte, i, msbit;
78 /* the code below is more readable if I make these bytes
79 instead of bits */
81 inbits >>= 3;
82 outbits >>= 3;
84 /* first compute lcm(n,k) */
86 a = outbits;
87 b = inbits;
89 while (b != 0) {
90 c = b;
91 b = a%b;
92 a = c;
95 lcm = outbits*inbits/a;
97 /* now do the real work */
99 memset(out, 0, outbits);
100 byte = 0;
102 /* this will end up cycling through k lcm(k,n)/k times, which
103 is correct */
104 for (i = lcm-1; i >= 0; i--) {
105 /* compute the msbit in k which gets added into this byte */
106 msbit = (
107 /* first, start with the msbit in the first,
108 * unrotated byte */
109 ((inbits << 3) - 1)
110 /* then, for each byte, shift to the right
111 * for each repetition */
112 + (((inbits << 3) + 13) * (i/inbits))
113 /* last, pick out the correct byte within
114 * that shifted repetition */
115 + ((inbits - (i % inbits)) << 3)
116 ) % (inbits << 3);
118 /* pull out the byte value itself */
119 byte += (((in[((inbits - 1) - (msbit >> 3)) % inbits] << 8)|
120 (in[((inbits) - (msbit >> 3)) % inbits]))
121 >> ((msbit & 7) + 1)) & 0xff;
123 /* do the addition */
124 byte += out[i % outbits];
125 out[i % outbits] = byte & 0xff;
127 /* keep around the carry bit, if any */
128 byte >>= 8;
132 /* if there's a carry bit left over, add it back in */
133 if (byte) {
134 for (i = outbits - 1; i >= 0; i--) {
135 /* do the addition */
136 byte += out[i];
137 out[i] = byte & 0xff;
139 /* keep around the carry bit, if any */
140 byte >>= 8;
146 * This is the DK (derive_key) function as described in rfc3961, sec 5.1
147 * Taken from MIT Kerberos and modified.
150 u32 krb5_derive_key(const struct gss_krb5_enctype *gk5e,
151 const struct xdr_netobj *inkey,
152 struct xdr_netobj *outkey,
153 const struct xdr_netobj *in_constant,
154 gfp_t gfp_mask)
156 size_t blocksize, keybytes, keylength, n;
157 unsigned char *inblockdata, *outblockdata, *rawkey;
158 struct xdr_netobj inblock, outblock;
159 struct crypto_blkcipher *cipher;
160 u32 ret = EINVAL;
162 blocksize = gk5e->blocksize;
163 keybytes = gk5e->keybytes;
164 keylength = gk5e->keylength;
166 if ((inkey->len != keylength) || (outkey->len != keylength))
167 goto err_return;
169 cipher = crypto_alloc_blkcipher(gk5e->encrypt_name, 0,
170 CRYPTO_ALG_ASYNC);
171 if (IS_ERR(cipher))
172 goto err_return;
173 if (crypto_blkcipher_setkey(cipher, inkey->data, inkey->len))
174 goto err_return;
176 /* allocate and set up buffers */
178 ret = ENOMEM;
179 inblockdata = kmalloc(blocksize, gfp_mask);
180 if (inblockdata == NULL)
181 goto err_free_cipher;
183 outblockdata = kmalloc(blocksize, gfp_mask);
184 if (outblockdata == NULL)
185 goto err_free_in;
187 rawkey = kmalloc(keybytes, gfp_mask);
188 if (rawkey == NULL)
189 goto err_free_out;
191 inblock.data = (char *) inblockdata;
192 inblock.len = blocksize;
194 outblock.data = (char *) outblockdata;
195 outblock.len = blocksize;
197 /* initialize the input block */
199 if (in_constant->len == inblock.len) {
200 memcpy(inblock.data, in_constant->data, inblock.len);
201 } else {
202 krb5_nfold(in_constant->len * 8, in_constant->data,
203 inblock.len * 8, inblock.data);
206 /* loop encrypting the blocks until enough key bytes are generated */
208 n = 0;
209 while (n < keybytes) {
210 (*(gk5e->encrypt))(cipher, NULL, inblock.data,
211 outblock.data, inblock.len);
213 if ((keybytes - n) <= outblock.len) {
214 memcpy(rawkey + n, outblock.data, (keybytes - n));
215 break;
218 memcpy(rawkey + n, outblock.data, outblock.len);
219 memcpy(inblock.data, outblock.data, outblock.len);
220 n += outblock.len;
223 /* postprocess the key */
225 inblock.data = (char *) rawkey;
226 inblock.len = keybytes;
228 BUG_ON(gk5e->mk_key == NULL);
229 ret = (*(gk5e->mk_key))(gk5e, &inblock, outkey);
230 if (ret) {
231 dprintk("%s: got %d from mk_key function for '%s'\n",
232 __func__, ret, gk5e->encrypt_name);
233 goto err_free_raw;
236 /* clean memory, free resources and exit */
238 ret = 0;
240 err_free_raw:
241 memset(rawkey, 0, keybytes);
242 kfree(rawkey);
243 err_free_out:
244 memset(outblockdata, 0, blocksize);
245 kfree(outblockdata);
246 err_free_in:
247 memset(inblockdata, 0, blocksize);
248 kfree(inblockdata);
249 err_free_cipher:
250 crypto_free_blkcipher(cipher);
251 err_return:
252 return ret;
255 #define smask(step) ((1<<step)-1)
256 #define pstep(x, step) (((x)&smask(step))^(((x)>>step)&smask(step)))
257 #define parity_char(x) pstep(pstep(pstep((x), 4), 2), 1)
259 static void mit_des_fixup_key_parity(u8 key[8])
261 int i;
262 for (i = 0; i < 8; i++) {
263 key[i] &= 0xfe;
264 key[i] |= 1^parity_char(key[i]);
269 * This is the des3 key derivation postprocess function
271 u32 gss_krb5_des3_make_key(const struct gss_krb5_enctype *gk5e,
272 struct xdr_netobj *randombits,
273 struct xdr_netobj *key)
275 int i;
276 u32 ret = EINVAL;
278 if (key->len != 24) {
279 dprintk("%s: key->len is %d\n", __func__, key->len);
280 goto err_out;
282 if (randombits->len != 21) {
283 dprintk("%s: randombits->len is %d\n",
284 __func__, randombits->len);
285 goto err_out;
288 /* take the seven bytes, move them around into the top 7 bits of the
289 8 key bytes, then compute the parity bits. Do this three times. */
291 for (i = 0; i < 3; i++) {
292 memcpy(key->data + i*8, randombits->data + i*7, 7);
293 key->data[i*8+7] = (((key->data[i*8]&1)<<1) |
294 ((key->data[i*8+1]&1)<<2) |
295 ((key->data[i*8+2]&1)<<3) |
296 ((key->data[i*8+3]&1)<<4) |
297 ((key->data[i*8+4]&1)<<5) |
298 ((key->data[i*8+5]&1)<<6) |
299 ((key->data[i*8+6]&1)<<7));
301 mit_des_fixup_key_parity(key->data + i*8);
303 ret = 0;
304 err_out:
305 return ret;
309 * This is the aes key derivation postprocess function
311 u32 gss_krb5_aes_make_key(const struct gss_krb5_enctype *gk5e,
312 struct xdr_netobj *randombits,
313 struct xdr_netobj *key)
315 u32 ret = EINVAL;
317 if (key->len != 16 && key->len != 32) {
318 dprintk("%s: key->len is %d\n", __func__, key->len);
319 goto err_out;
321 if (randombits->len != 16 && randombits->len != 32) {
322 dprintk("%s: randombits->len is %d\n",
323 __func__, randombits->len);
324 goto err_out;
326 if (randombits->len != key->len) {
327 dprintk("%s: randombits->len is %d, key->len is %d\n",
328 __func__, randombits->len, key->len);
329 goto err_out;
331 memcpy(key->data, randombits->data, key->len);
332 ret = 0;
333 err_out:
334 return ret;