Mercurial > dropbear
annotate curve25519-donna.c @ 1603:0dc3103a5900
Only advertise a single server ecdsa key when -R (generate as required) is
specified. Fixes -R now that default ecdsa key size has changed.
author | Matt Johnston <matt@ucc.asn.au> |
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date | Thu, 08 Mar 2018 22:25:33 +0800 |
parents | 27b9ddb06b09 |
children |
rev | line source |
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848 | 1 /* Copyright 2008, Google Inc. |
2 * All rights reserved. | |
3 * | |
4 * Redistribution and use in source and binary forms, with or without | |
5 * modification, are permitted provided that the following conditions are | |
6 * met: | |
7 * | |
8 * * Redistributions of source code must retain the above copyright | |
9 * notice, this list of conditions and the following disclaimer. | |
10 * * Redistributions in binary form must reproduce the above | |
11 * copyright notice, this list of conditions and the following disclaimer | |
12 * in the documentation and/or other materials provided with the | |
13 * distribution. | |
14 * * Neither the name of Google Inc. nor the names of its | |
15 * contributors may be used to endorse or promote products derived from | |
16 * this software without specific prior written permission. | |
17 * | |
18 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS | |
19 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT | |
20 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR | |
21 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT | |
22 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, | |
23 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT | |
24 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, | |
25 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY | |
26 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT | |
27 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE | |
28 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. | |
29 * | |
30 * curve25519-donna: Curve25519 elliptic curve, public key function | |
31 * | |
32 * http://code.google.com/p/curve25519-donna/ | |
33 * | |
34 * Adam Langley <[email protected]> | |
35 * | |
36 * Derived from public domain C code by Daniel J. Bernstein <[email protected]> | |
37 * | |
38 * More information about curve25519 can be found here | |
39 * http://cr.yp.to/ecdh.html | |
40 * | |
41 * djb's sample implementation of curve25519 is written in a special assembly | |
42 * language called qhasm and uses the floating point registers. | |
43 * | |
44 * This is, almost, a clean room reimplementation from the curve25519 paper. It | |
45 * uses many of the tricks described therein. Only the crecip function is taken | |
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46 * from the sample implementation. */ |
848 | 47 |
48 #include <string.h> | |
49 #include <stdint.h> | |
50 | |
51 #ifdef _MSC_VER | |
52 #define inline __inline | |
53 #endif | |
54 | |
55 typedef uint8_t u8; | |
56 typedef int32_t s32; | |
57 typedef int64_t limb; | |
58 | |
59 /* Field element representation: | |
60 * | |
61 * Field elements are written as an array of signed, 64-bit limbs, least | |
62 * significant first. The value of the field element is: | |
63 * x[0] + 2^26·x[1] + x^51·x[2] + 2^102·x[3] + ... | |
64 * | |
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65 * i.e. the limbs are 26, 25, 26, 25, ... bits wide. */ |
848 | 66 |
67 /* Sum two numbers: output += in */ | |
68 static void fsum(limb *output, const limb *in) { | |
69 unsigned i; | |
70 for (i = 0; i < 10; i += 2) { | |
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71 output[0+i] = output[0+i] + in[0+i]; |
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72 output[1+i] = output[1+i] + in[1+i]; |
848 | 73 } |
74 } | |
75 | |
76 /* Find the difference of two numbers: output = in - output | |
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77 * (note the order of the arguments!). */ |
848 | 78 static void fdifference(limb *output, const limb *in) { |
79 unsigned i; | |
80 for (i = 0; i < 10; ++i) { | |
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81 output[i] = in[i] - output[i]; |
848 | 82 } |
83 } | |
84 | |
85 /* Multiply a number by a scalar: output = in * scalar */ | |
86 static void fscalar_product(limb *output, const limb *in, const limb scalar) { | |
87 unsigned i; | |
88 for (i = 0; i < 10; ++i) { | |
89 output[i] = in[i] * scalar; | |
90 } | |
91 } | |
92 | |
93 /* Multiply two numbers: output = in2 * in | |
94 * | |
95 * output must be distinct to both inputs. The inputs are reduced coefficient | |
96 * form, the output is not. | |
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97 * |
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98 * output[x] <= 14 * the largest product of the input limbs. */ |
848 | 99 static void fproduct(limb *output, const limb *in2, const limb *in) { |
100 output[0] = ((limb) ((s32) in2[0])) * ((s32) in[0]); | |
101 output[1] = ((limb) ((s32) in2[0])) * ((s32) in[1]) + | |
102 ((limb) ((s32) in2[1])) * ((s32) in[0]); | |
103 output[2] = 2 * ((limb) ((s32) in2[1])) * ((s32) in[1]) + | |
104 ((limb) ((s32) in2[0])) * ((s32) in[2]) + | |
105 ((limb) ((s32) in2[2])) * ((s32) in[0]); | |
106 output[3] = ((limb) ((s32) in2[1])) * ((s32) in[2]) + | |
107 ((limb) ((s32) in2[2])) * ((s32) in[1]) + | |
108 ((limb) ((s32) in2[0])) * ((s32) in[3]) + | |
109 ((limb) ((s32) in2[3])) * ((s32) in[0]); | |
110 output[4] = ((limb) ((s32) in2[2])) * ((s32) in[2]) + | |
111 2 * (((limb) ((s32) in2[1])) * ((s32) in[3]) + | |
112 ((limb) ((s32) in2[3])) * ((s32) in[1])) + | |
113 ((limb) ((s32) in2[0])) * ((s32) in[4]) + | |
114 ((limb) ((s32) in2[4])) * ((s32) in[0]); | |
115 output[5] = ((limb) ((s32) in2[2])) * ((s32) in[3]) + | |
116 ((limb) ((s32) in2[3])) * ((s32) in[2]) + | |
117 ((limb) ((s32) in2[1])) * ((s32) in[4]) + | |
118 ((limb) ((s32) in2[4])) * ((s32) in[1]) + | |
119 ((limb) ((s32) in2[0])) * ((s32) in[5]) + | |
120 ((limb) ((s32) in2[5])) * ((s32) in[0]); | |
121 output[6] = 2 * (((limb) ((s32) in2[3])) * ((s32) in[3]) + | |
122 ((limb) ((s32) in2[1])) * ((s32) in[5]) + | |
123 ((limb) ((s32) in2[5])) * ((s32) in[1])) + | |
124 ((limb) ((s32) in2[2])) * ((s32) in[4]) + | |
125 ((limb) ((s32) in2[4])) * ((s32) in[2]) + | |
126 ((limb) ((s32) in2[0])) * ((s32) in[6]) + | |
127 ((limb) ((s32) in2[6])) * ((s32) in[0]); | |
128 output[7] = ((limb) ((s32) in2[3])) * ((s32) in[4]) + | |
129 ((limb) ((s32) in2[4])) * ((s32) in[3]) + | |
130 ((limb) ((s32) in2[2])) * ((s32) in[5]) + | |
131 ((limb) ((s32) in2[5])) * ((s32) in[2]) + | |
132 ((limb) ((s32) in2[1])) * ((s32) in[6]) + | |
133 ((limb) ((s32) in2[6])) * ((s32) in[1]) + | |
134 ((limb) ((s32) in2[0])) * ((s32) in[7]) + | |
135 ((limb) ((s32) in2[7])) * ((s32) in[0]); | |
136 output[8] = ((limb) ((s32) in2[4])) * ((s32) in[4]) + | |
137 2 * (((limb) ((s32) in2[3])) * ((s32) in[5]) + | |
138 ((limb) ((s32) in2[5])) * ((s32) in[3]) + | |
139 ((limb) ((s32) in2[1])) * ((s32) in[7]) + | |
140 ((limb) ((s32) in2[7])) * ((s32) in[1])) + | |
141 ((limb) ((s32) in2[2])) * ((s32) in[6]) + | |
142 ((limb) ((s32) in2[6])) * ((s32) in[2]) + | |
143 ((limb) ((s32) in2[0])) * ((s32) in[8]) + | |
144 ((limb) ((s32) in2[8])) * ((s32) in[0]); | |
145 output[9] = ((limb) ((s32) in2[4])) * ((s32) in[5]) + | |
146 ((limb) ((s32) in2[5])) * ((s32) in[4]) + | |
147 ((limb) ((s32) in2[3])) * ((s32) in[6]) + | |
148 ((limb) ((s32) in2[6])) * ((s32) in[3]) + | |
149 ((limb) ((s32) in2[2])) * ((s32) in[7]) + | |
150 ((limb) ((s32) in2[7])) * ((s32) in[2]) + | |
151 ((limb) ((s32) in2[1])) * ((s32) in[8]) + | |
152 ((limb) ((s32) in2[8])) * ((s32) in[1]) + | |
153 ((limb) ((s32) in2[0])) * ((s32) in[9]) + | |
154 ((limb) ((s32) in2[9])) * ((s32) in[0]); | |
155 output[10] = 2 * (((limb) ((s32) in2[5])) * ((s32) in[5]) + | |
156 ((limb) ((s32) in2[3])) * ((s32) in[7]) + | |
157 ((limb) ((s32) in2[7])) * ((s32) in[3]) + | |
158 ((limb) ((s32) in2[1])) * ((s32) in[9]) + | |
159 ((limb) ((s32) in2[9])) * ((s32) in[1])) + | |
160 ((limb) ((s32) in2[4])) * ((s32) in[6]) + | |
161 ((limb) ((s32) in2[6])) * ((s32) in[4]) + | |
162 ((limb) ((s32) in2[2])) * ((s32) in[8]) + | |
163 ((limb) ((s32) in2[8])) * ((s32) in[2]); | |
164 output[11] = ((limb) ((s32) in2[5])) * ((s32) in[6]) + | |
165 ((limb) ((s32) in2[6])) * ((s32) in[5]) + | |
166 ((limb) ((s32) in2[4])) * ((s32) in[7]) + | |
167 ((limb) ((s32) in2[7])) * ((s32) in[4]) + | |
168 ((limb) ((s32) in2[3])) * ((s32) in[8]) + | |
169 ((limb) ((s32) in2[8])) * ((s32) in[3]) + | |
170 ((limb) ((s32) in2[2])) * ((s32) in[9]) + | |
171 ((limb) ((s32) in2[9])) * ((s32) in[2]); | |
172 output[12] = ((limb) ((s32) in2[6])) * ((s32) in[6]) + | |
173 2 * (((limb) ((s32) in2[5])) * ((s32) in[7]) + | |
174 ((limb) ((s32) in2[7])) * ((s32) in[5]) + | |
175 ((limb) ((s32) in2[3])) * ((s32) in[9]) + | |
176 ((limb) ((s32) in2[9])) * ((s32) in[3])) + | |
177 ((limb) ((s32) in2[4])) * ((s32) in[8]) + | |
178 ((limb) ((s32) in2[8])) * ((s32) in[4]); | |
179 output[13] = ((limb) ((s32) in2[6])) * ((s32) in[7]) + | |
180 ((limb) ((s32) in2[7])) * ((s32) in[6]) + | |
181 ((limb) ((s32) in2[5])) * ((s32) in[8]) + | |
182 ((limb) ((s32) in2[8])) * ((s32) in[5]) + | |
183 ((limb) ((s32) in2[4])) * ((s32) in[9]) + | |
184 ((limb) ((s32) in2[9])) * ((s32) in[4]); | |
185 output[14] = 2 * (((limb) ((s32) in2[7])) * ((s32) in[7]) + | |
186 ((limb) ((s32) in2[5])) * ((s32) in[9]) + | |
187 ((limb) ((s32) in2[9])) * ((s32) in[5])) + | |
188 ((limb) ((s32) in2[6])) * ((s32) in[8]) + | |
189 ((limb) ((s32) in2[8])) * ((s32) in[6]); | |
190 output[15] = ((limb) ((s32) in2[7])) * ((s32) in[8]) + | |
191 ((limb) ((s32) in2[8])) * ((s32) in[7]) + | |
192 ((limb) ((s32) in2[6])) * ((s32) in[9]) + | |
193 ((limb) ((s32) in2[9])) * ((s32) in[6]); | |
194 output[16] = ((limb) ((s32) in2[8])) * ((s32) in[8]) + | |
195 2 * (((limb) ((s32) in2[7])) * ((s32) in[9]) + | |
196 ((limb) ((s32) in2[9])) * ((s32) in[7])); | |
197 output[17] = ((limb) ((s32) in2[8])) * ((s32) in[9]) + | |
198 ((limb) ((s32) in2[9])) * ((s32) in[8]); | |
199 output[18] = 2 * ((limb) ((s32) in2[9])) * ((s32) in[9]); | |
200 } | |
201 | |
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202 /* Reduce a long form to a short form by taking the input mod 2^255 - 19. |
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203 * |
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204 * On entry: |output[i]| < 14*2^54 |
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205 * On exit: |output[0..8]| < 280*2^54 */ |
848 | 206 static void freduce_degree(limb *output) { |
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207 /* Each of these shifts and adds ends up multiplying the value by 19. |
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208 * |
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209 * For output[0..8], the absolute entry value is < 14*2^54 and we add, at |
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210 * most, 19*14*2^54 thus, on exit, |output[0..8]| < 280*2^54. */ |
848 | 211 output[8] += output[18] << 4; |
212 output[8] += output[18] << 1; | |
213 output[8] += output[18]; | |
214 output[7] += output[17] << 4; | |
215 output[7] += output[17] << 1; | |
216 output[7] += output[17]; | |
217 output[6] += output[16] << 4; | |
218 output[6] += output[16] << 1; | |
219 output[6] += output[16]; | |
220 output[5] += output[15] << 4; | |
221 output[5] += output[15] << 1; | |
222 output[5] += output[15]; | |
223 output[4] += output[14] << 4; | |
224 output[4] += output[14] << 1; | |
225 output[4] += output[14]; | |
226 output[3] += output[13] << 4; | |
227 output[3] += output[13] << 1; | |
228 output[3] += output[13]; | |
229 output[2] += output[12] << 4; | |
230 output[2] += output[12] << 1; | |
231 output[2] += output[12]; | |
232 output[1] += output[11] << 4; | |
233 output[1] += output[11] << 1; | |
234 output[1] += output[11]; | |
235 output[0] += output[10] << 4; | |
236 output[0] += output[10] << 1; | |
237 output[0] += output[10]; | |
238 } | |
239 | |
240 #if (-1 & 3) != 3 | |
241 #error "This code only works on a two's complement system" | |
242 #endif | |
243 | |
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244 /* return v / 2^26, using only shifts and adds. |
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245 * |
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246 * On entry: v can take any value. */ |
848 | 247 static inline limb |
248 div_by_2_26(const limb v) | |
249 { | |
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250 /* High word of v; no shift needed. */ |
848 | 251 const uint32_t highword = (uint32_t) (((uint64_t) v) >> 32); |
252 /* Set to all 1s if v was negative; else set to 0s. */ | |
253 const int32_t sign = ((int32_t) highword) >> 31; | |
254 /* Set to 0x3ffffff if v was negative; else set to 0. */ | |
255 const int32_t roundoff = ((uint32_t) sign) >> 6; | |
256 /* Should return v / (1<<26) */ | |
257 return (v + roundoff) >> 26; | |
258 } | |
259 | |
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260 /* return v / (2^25), using only shifts and adds. |
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261 * |
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262 * On entry: v can take any value. */ |
848 | 263 static inline limb |
264 div_by_2_25(const limb v) | |
265 { | |
266 /* High word of v; no shift needed*/ | |
267 const uint32_t highword = (uint32_t) (((uint64_t) v) >> 32); | |
268 /* Set to all 1s if v was negative; else set to 0s. */ | |
269 const int32_t sign = ((int32_t) highword) >> 31; | |
270 /* Set to 0x1ffffff if v was negative; else set to 0. */ | |
271 const int32_t roundoff = ((uint32_t) sign) >> 7; | |
272 /* Should return v / (1<<25) */ | |
273 return (v + roundoff) >> 25; | |
274 } | |
275 | |
276 /* Reduce all coefficients of the short form input so that |x| < 2^26. | |
277 * | |
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278 * On entry: |output[i]| < 280*2^54 */ |
848 | 279 static void freduce_coefficients(limb *output) { |
280 unsigned i; | |
281 | |
282 output[10] = 0; | |
283 | |
284 for (i = 0; i < 10; i += 2) { | |
285 limb over = div_by_2_26(output[i]); | |
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286 /* The entry condition (that |output[i]| < 280*2^54) means that over is, at |
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287 * most, 280*2^28 in the first iteration of this loop. This is added to the |
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288 * next limb and we can approximate the resulting bound of that limb by |
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289 * 281*2^54. */ |
848 | 290 output[i] -= over << 26; |
291 output[i+1] += over; | |
292 | |
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293 /* For the first iteration, |output[i+1]| < 281*2^54, thus |over| < |
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294 * 281*2^29. When this is added to the next limb, the resulting bound can |
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295 * be approximated as 281*2^54. |
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296 * |
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297 * For subsequent iterations of the loop, 281*2^54 remains a conservative |
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298 * bound and no overflow occurs. */ |
848 | 299 over = div_by_2_25(output[i+1]); |
300 output[i+1] -= over << 25; | |
301 output[i+2] += over; | |
302 } | |
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303 /* Now |output[10]| < 281*2^29 and all other coefficients are reduced. */ |
848 | 304 output[0] += output[10] << 4; |
305 output[0] += output[10] << 1; | |
306 output[0] += output[10]; | |
307 | |
308 output[10] = 0; | |
309 | |
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310 /* Now output[1..9] are reduced, and |output[0]| < 2^26 + 19*281*2^29 |
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311 * So |over| will be no more than 2^16. */ |
848 | 312 { |
313 limb over = div_by_2_26(output[0]); | |
314 output[0] -= over << 26; | |
315 output[1] += over; | |
316 } | |
317 | |
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318 /* Now output[0,2..9] are reduced, and |output[1]| < 2^25 + 2^16 < 2^26. The |
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319 * bound on |output[1]| is sufficient to meet our needs. */ |
848 | 320 } |
321 | |
322 /* A helpful wrapper around fproduct: output = in * in2. | |
323 * | |
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324 * On entry: |in[i]| < 2^27 and |in2[i]| < 2^27. |
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325 * |
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326 * output must be distinct to both inputs. The output is reduced degree |
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327 * (indeed, one need only provide storage for 10 limbs) and |output[i]| < 2^26. */ |
848 | 328 static void |
329 fmul(limb *output, const limb *in, const limb *in2) { | |
330 limb t[19]; | |
331 fproduct(t, in, in2); | |
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332 /* |t[i]| < 14*2^54 */ |
848 | 333 freduce_degree(t); |
334 freduce_coefficients(t); | |
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335 /* |t[i]| < 2^26 */ |
848 | 336 memcpy(output, t, sizeof(limb) * 10); |
337 } | |
338 | |
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339 /* Square a number: output = in**2 |
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340 * |
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341 * output must be distinct from the input. The inputs are reduced coefficient |
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342 * form, the output is not. |
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343 * |
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344 * output[x] <= 14 * the largest product of the input limbs. */ |
848 | 345 static void fsquare_inner(limb *output, const limb *in) { |
346 output[0] = ((limb) ((s32) in[0])) * ((s32) in[0]); | |
347 output[1] = 2 * ((limb) ((s32) in[0])) * ((s32) in[1]); | |
348 output[2] = 2 * (((limb) ((s32) in[1])) * ((s32) in[1]) + | |
349 ((limb) ((s32) in[0])) * ((s32) in[2])); | |
350 output[3] = 2 * (((limb) ((s32) in[1])) * ((s32) in[2]) + | |
351 ((limb) ((s32) in[0])) * ((s32) in[3])); | |
352 output[4] = ((limb) ((s32) in[2])) * ((s32) in[2]) + | |
353 4 * ((limb) ((s32) in[1])) * ((s32) in[3]) + | |
354 2 * ((limb) ((s32) in[0])) * ((s32) in[4]); | |
355 output[5] = 2 * (((limb) ((s32) in[2])) * ((s32) in[3]) + | |
356 ((limb) ((s32) in[1])) * ((s32) in[4]) + | |
357 ((limb) ((s32) in[0])) * ((s32) in[5])); | |
358 output[6] = 2 * (((limb) ((s32) in[3])) * ((s32) in[3]) + | |
359 ((limb) ((s32) in[2])) * ((s32) in[4]) + | |
360 ((limb) ((s32) in[0])) * ((s32) in[6]) + | |
361 2 * ((limb) ((s32) in[1])) * ((s32) in[5])); | |
362 output[7] = 2 * (((limb) ((s32) in[3])) * ((s32) in[4]) + | |
363 ((limb) ((s32) in[2])) * ((s32) in[5]) + | |
364 ((limb) ((s32) in[1])) * ((s32) in[6]) + | |
365 ((limb) ((s32) in[0])) * ((s32) in[7])); | |
366 output[8] = ((limb) ((s32) in[4])) * ((s32) in[4]) + | |
367 2 * (((limb) ((s32) in[2])) * ((s32) in[6]) + | |
368 ((limb) ((s32) in[0])) * ((s32) in[8]) + | |
369 2 * (((limb) ((s32) in[1])) * ((s32) in[7]) + | |
370 ((limb) ((s32) in[3])) * ((s32) in[5]))); | |
371 output[9] = 2 * (((limb) ((s32) in[4])) * ((s32) in[5]) + | |
372 ((limb) ((s32) in[3])) * ((s32) in[6]) + | |
373 ((limb) ((s32) in[2])) * ((s32) in[7]) + | |
374 ((limb) ((s32) in[1])) * ((s32) in[8]) + | |
375 ((limb) ((s32) in[0])) * ((s32) in[9])); | |
376 output[10] = 2 * (((limb) ((s32) in[5])) * ((s32) in[5]) + | |
377 ((limb) ((s32) in[4])) * ((s32) in[6]) + | |
378 ((limb) ((s32) in[2])) * ((s32) in[8]) + | |
379 2 * (((limb) ((s32) in[3])) * ((s32) in[7]) + | |
380 ((limb) ((s32) in[1])) * ((s32) in[9]))); | |
381 output[11] = 2 * (((limb) ((s32) in[5])) * ((s32) in[6]) + | |
382 ((limb) ((s32) in[4])) * ((s32) in[7]) + | |
383 ((limb) ((s32) in[3])) * ((s32) in[8]) + | |
384 ((limb) ((s32) in[2])) * ((s32) in[9])); | |
385 output[12] = ((limb) ((s32) in[6])) * ((s32) in[6]) + | |
386 2 * (((limb) ((s32) in[4])) * ((s32) in[8]) + | |
387 2 * (((limb) ((s32) in[5])) * ((s32) in[7]) + | |
388 ((limb) ((s32) in[3])) * ((s32) in[9]))); | |
389 output[13] = 2 * (((limb) ((s32) in[6])) * ((s32) in[7]) + | |
390 ((limb) ((s32) in[5])) * ((s32) in[8]) + | |
391 ((limb) ((s32) in[4])) * ((s32) in[9])); | |
392 output[14] = 2 * (((limb) ((s32) in[7])) * ((s32) in[7]) + | |
393 ((limb) ((s32) in[6])) * ((s32) in[8]) + | |
394 2 * ((limb) ((s32) in[5])) * ((s32) in[9])); | |
395 output[15] = 2 * (((limb) ((s32) in[7])) * ((s32) in[8]) + | |
396 ((limb) ((s32) in[6])) * ((s32) in[9])); | |
397 output[16] = ((limb) ((s32) in[8])) * ((s32) in[8]) + | |
398 4 * ((limb) ((s32) in[7])) * ((s32) in[9]); | |
399 output[17] = 2 * ((limb) ((s32) in[8])) * ((s32) in[9]); | |
400 output[18] = 2 * ((limb) ((s32) in[9])) * ((s32) in[9]); | |
401 } | |
402 | |
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403 /* fsquare sets output = in^2. |
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404 * |
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405 * On entry: The |in| argument is in reduced coefficients form and |in[i]| < |
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406 * 2^27. |
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407 * |
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408 * On exit: The |output| argument is in reduced coefficients form (indeed, one |
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409 * need only provide storage for 10 limbs) and |out[i]| < 2^26. */ |
848 | 410 static void |
411 fsquare(limb *output, const limb *in) { | |
412 limb t[19]; | |
413 fsquare_inner(t, in); | |
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414 /* |t[i]| < 14*2^54 because the largest product of two limbs will be < |
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415 * 2^(27+27) and fsquare_inner adds together, at most, 14 of those |
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416 * products. */ |
848 | 417 freduce_degree(t); |
418 freduce_coefficients(t); | |
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419 /* |t[i]| < 2^26 */ |
848 | 420 memcpy(output, t, sizeof(limb) * 10); |
421 } | |
422 | |
423 /* Take a little-endian, 32-byte number and expand it into polynomial form */ | |
424 static void | |
425 fexpand(limb *output, const u8 *input) { | |
426 #define F(n,start,shift,mask) \ | |
427 output[n] = ((((limb) input[start + 0]) | \ | |
428 ((limb) input[start + 1]) << 8 | \ | |
429 ((limb) input[start + 2]) << 16 | \ | |
430 ((limb) input[start + 3]) << 24) >> shift) & mask; | |
431 F(0, 0, 0, 0x3ffffff); | |
432 F(1, 3, 2, 0x1ffffff); | |
433 F(2, 6, 3, 0x3ffffff); | |
434 F(3, 9, 5, 0x1ffffff); | |
435 F(4, 12, 6, 0x3ffffff); | |
436 F(5, 16, 0, 0x1ffffff); | |
437 F(6, 19, 1, 0x3ffffff); | |
438 F(7, 22, 3, 0x1ffffff); | |
439 F(8, 25, 4, 0x3ffffff); | |
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440 F(9, 28, 6, 0x1ffffff); |
848 | 441 #undef F |
442 } | |
443 | |
444 #if (-32 >> 1) != -16 | |
445 #error "This code only works when >> does sign-extension on negative numbers" | |
446 #endif | |
447 | |
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448 /* s32_eq returns 0xffffffff iff a == b and zero otherwise. */ |
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449 static s32 s32_eq(s32 a, s32 b) { |
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450 a = ~(a ^ b); |
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451 a &= a << 16; |
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452 a &= a << 8; |
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453 a &= a << 4; |
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454 a &= a << 2; |
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455 a &= a << 1; |
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456 return a >> 31; |
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457 } |
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458 |
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459 /* s32_gte returns 0xffffffff if a >= b and zero otherwise, where a and b are |
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460 * both non-negative. */ |
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461 static s32 s32_gte(s32 a, s32 b) { |
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462 a -= b; |
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463 /* a >= 0 iff a >= b. */ |
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464 return ~(a >> 31); |
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465 } |
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466 |
848 | 467 /* Take a fully reduced polynomial form number and contract it into a |
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468 * little-endian, 32-byte array. |
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469 * |
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470 * On entry: |input_limbs[i]| < 2^26 */ |
848 | 471 static void |
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472 fcontract(u8 *output, limb *input_limbs) { |
848 | 473 int i; |
474 int j; | |
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475 s32 input[10]; |
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476 s32 mask; |
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477 |
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478 /* |input_limbs[i]| < 2^26, so it's valid to convert to an s32. */ |
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479 for (i = 0; i < 10; i++) { |
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480 input[i] = input_limbs[i]; |
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481 } |
848 | 482 |
483 for (j = 0; j < 2; ++j) { | |
484 for (i = 0; i < 9; ++i) { | |
485 if ((i & 1) == 1) { | |
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486 /* This calculation is a time-invariant way to make input[i] |
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487 * non-negative by borrowing from the next-larger limb. */ |
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488 const s32 mask = input[i] >> 31; |
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489 const s32 carry = -((input[i] & mask) >> 25); |
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490 input[i] = input[i] + (carry << 25); |
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491 input[i+1] = input[i+1] - carry; |
848 | 492 } else { |
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493 const s32 mask = input[i] >> 31; |
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494 const s32 carry = -((input[i] & mask) >> 26); |
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495 input[i] = input[i] + (carry << 26); |
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496 input[i+1] = input[i+1] - carry; |
848 | 497 } |
498 } | |
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499 |
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500 /* There's no greater limb for input[9] to borrow from, but we can multiply |
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501 * by 19 and borrow from input[0], which is valid mod 2^255-19. */ |
848 | 502 { |
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503 const s32 mask = input[9] >> 31; |
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504 const s32 carry = -((input[9] & mask) >> 25); |
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505 input[9] = input[9] + (carry << 25); |
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506 input[0] = input[0] - (carry * 19); |
848 | 507 } |
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508 |
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509 /* After the first iteration, input[1..9] are non-negative and fit within |
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510 * 25 or 26 bits, depending on position. However, input[0] may be |
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511 * negative. */ |
848 | 512 } |
513 | |
514 /* The first borrow-propagation pass above ended with every limb | |
515 except (possibly) input[0] non-negative. | |
516 | |
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517 If input[0] was negative after the first pass, then it was because of a |
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518 carry from input[9]. On entry, input[9] < 2^26 so the carry was, at most, |
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519 one, since (2**26-1) >> 25 = 1. Thus input[0] >= -19. |
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520 |
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521 In the second pass, each limb is decreased by at most one. Thus the second |
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522 borrow-propagation pass could only have wrapped around to decrease |
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523 input[0] again if the first pass left input[0] negative *and* input[1] |
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524 through input[9] were all zero. In that case, input[1] is now 2^25 - 1, |
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525 and this last borrow-propagation step will leave input[1] non-negative. */ |
848 | 526 { |
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527 const s32 mask = input[0] >> 31; |
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528 const s32 carry = -((input[0] & mask) >> 26); |
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529 input[0] = input[0] + (carry << 26); |
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530 input[1] = input[1] - carry; |
848 | 531 } |
532 | |
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533 /* All input[i] are now non-negative. However, there might be values between |
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534 * 2^25 and 2^26 in a limb which is, nominally, 25 bits wide. */ |
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535 for (j = 0; j < 2; j++) { |
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536 for (i = 0; i < 9; i++) { |
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537 if ((i & 1) == 1) { |
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538 const s32 carry = input[i] >> 25; |
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539 input[i] &= 0x1ffffff; |
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540 input[i+1] += carry; |
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541 } else { |
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542 const s32 carry = input[i] >> 26; |
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543 input[i] &= 0x3ffffff; |
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544 input[i+1] += carry; |
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545 } |
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546 } |
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547 |
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548 { |
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549 const s32 carry = input[9] >> 25; |
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550 input[9] &= 0x1ffffff; |
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551 input[0] += 19*carry; |
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552 } |
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553 } |
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554 |
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555 /* If the first carry-chain pass, just above, ended up with a carry from |
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556 * input[9], and that caused input[0] to be out-of-bounds, then input[0] was |
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557 * < 2^26 + 2*19, because the carry was, at most, two. |
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558 * |
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559 * If the second pass carried from input[9] again then input[0] is < 2*19 and |
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560 * the input[9] -> input[0] carry didn't push input[0] out of bounds. */ |
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561 |
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562 /* It still remains the case that input might be between 2^255-19 and 2^255. |
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563 * In this case, input[1..9] must take their maximum value and input[0] must |
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564 * be >= (2^255-19) & 0x3ffffff, which is 0x3ffffed. */ |
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565 mask = s32_gte(input[0], 0x3ffffed); |
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566 for (i = 1; i < 10; i++) { |
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567 if ((i & 1) == 1) { |
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568 mask &= s32_eq(input[i], 0x1ffffff); |
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569 } else { |
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570 mask &= s32_eq(input[i], 0x3ffffff); |
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571 } |
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572 } |
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573 |
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574 /* mask is either 0xffffffff (if input >= 2^255-19) and zero otherwise. Thus |
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575 * this conditionally subtracts 2^255-19. */ |
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576 input[0] -= mask & 0x3ffffed; |
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577 |
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578 for (i = 1; i < 10; i++) { |
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579 if ((i & 1) == 1) { |
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580 input[i] -= mask & 0x1ffffff; |
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581 } else { |
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582 input[i] -= mask & 0x3ffffff; |
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583 } |
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584 } |
848 | 585 |
586 input[1] <<= 2; | |
587 input[2] <<= 3; | |
588 input[3] <<= 5; | |
589 input[4] <<= 6; | |
590 input[6] <<= 1; | |
591 input[7] <<= 3; | |
592 input[8] <<= 4; | |
593 input[9] <<= 6; | |
594 #define F(i, s) \ | |
595 output[s+0] |= input[i] & 0xff; \ | |
596 output[s+1] = (input[i] >> 8) & 0xff; \ | |
597 output[s+2] = (input[i] >> 16) & 0xff; \ | |
598 output[s+3] = (input[i] >> 24) & 0xff; | |
599 output[0] = 0; | |
600 output[16] = 0; | |
601 F(0,0); | |
602 F(1,3); | |
603 F(2,6); | |
604 F(3,9); | |
605 F(4,12); | |
606 F(5,16); | |
607 F(6,19); | |
608 F(7,22); | |
609 F(8,25); | |
610 F(9,28); | |
611 #undef F | |
612 } | |
613 | |
614 /* Input: Q, Q', Q-Q' | |
615 * Output: 2Q, Q+Q' | |
616 * | |
617 * x2 z3: long form | |
618 * x3 z3: long form | |
619 * x z: short form, destroyed | |
620 * xprime zprime: short form, destroyed | |
621 * qmqp: short form, preserved | |
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622 * |
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623 * On entry and exit, the absolute value of the limbs of all inputs and outputs |
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624 * are < 2^26. */ |
848 | 625 static void fmonty(limb *x2, limb *z2, /* output 2Q */ |
626 limb *x3, limb *z3, /* output Q + Q' */ | |
627 limb *x, limb *z, /* input Q */ | |
628 limb *xprime, limb *zprime, /* input Q' */ | |
629 const limb *qmqp /* input Q - Q' */) { | |
630 limb origx[10], origxprime[10], zzz[19], xx[19], zz[19], xxprime[19], | |
631 zzprime[19], zzzprime[19], xxxprime[19]; | |
632 | |
633 memcpy(origx, x, 10 * sizeof(limb)); | |
634 fsum(x, z); | |
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635 /* |x[i]| < 2^27 */ |
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636 fdifference(z, origx); /* does x - z */ |
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637 /* |z[i]| < 2^27 */ |
848 | 638 |
639 memcpy(origxprime, xprime, sizeof(limb) * 10); | |
640 fsum(xprime, zprime); | |
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641 /* |xprime[i]| < 2^27 */ |
848 | 642 fdifference(zprime, origxprime); |
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643 /* |zprime[i]| < 2^27 */ |
848 | 644 fproduct(xxprime, xprime, z); |
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645 /* |xxprime[i]| < 14*2^54: the largest product of two limbs will be < |
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646 * 2^(27+27) and fproduct adds together, at most, 14 of those products. |
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647 * (Approximating that to 2^58 doesn't work out.) */ |
848 | 648 fproduct(zzprime, x, zprime); |
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649 /* |zzprime[i]| < 14*2^54 */ |
848 | 650 freduce_degree(xxprime); |
651 freduce_coefficients(xxprime); | |
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652 /* |xxprime[i]| < 2^26 */ |
848 | 653 freduce_degree(zzprime); |
654 freduce_coefficients(zzprime); | |
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655 /* |zzprime[i]| < 2^26 */ |
848 | 656 memcpy(origxprime, xxprime, sizeof(limb) * 10); |
657 fsum(xxprime, zzprime); | |
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658 /* |xxprime[i]| < 2^27 */ |
848 | 659 fdifference(zzprime, origxprime); |
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660 /* |zzprime[i]| < 2^27 */ |
848 | 661 fsquare(xxxprime, xxprime); |
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662 /* |xxxprime[i]| < 2^26 */ |
848 | 663 fsquare(zzzprime, zzprime); |
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664 /* |zzzprime[i]| < 2^26 */ |
848 | 665 fproduct(zzprime, zzzprime, qmqp); |
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666 /* |zzprime[i]| < 14*2^52 */ |
848 | 667 freduce_degree(zzprime); |
668 freduce_coefficients(zzprime); | |
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669 /* |zzprime[i]| < 2^26 */ |
848 | 670 memcpy(x3, xxxprime, sizeof(limb) * 10); |
671 memcpy(z3, zzprime, sizeof(limb) * 10); | |
672 | |
673 fsquare(xx, x); | |
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674 /* |xx[i]| < 2^26 */ |
848 | 675 fsquare(zz, z); |
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676 /* |zz[i]| < 2^26 */ |
848 | 677 fproduct(x2, xx, zz); |
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678 /* |x2[i]| < 14*2^52 */ |
848 | 679 freduce_degree(x2); |
680 freduce_coefficients(x2); | |
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681 /* |x2[i]| < 2^26 */ |
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682 fdifference(zz, xx); /* does zz = xx - zz */ |
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683 /* |zz[i]| < 2^27 */ |
848 | 684 memset(zzz + 10, 0, sizeof(limb) * 9); |
685 fscalar_product(zzz, zz, 121665); | |
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686 /* |zzz[i]| < 2^(27+17) */ |
848 | 687 /* No need to call freduce_degree here: |
688 fscalar_product doesn't increase the degree of its input. */ | |
689 freduce_coefficients(zzz); | |
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690 /* |zzz[i]| < 2^26 */ |
848 | 691 fsum(zzz, xx); |
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692 /* |zzz[i]| < 2^27 */ |
848 | 693 fproduct(z2, zz, zzz); |
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694 /* |z2[i]| < 14*2^(26+27) */ |
848 | 695 freduce_degree(z2); |
696 freduce_coefficients(z2); | |
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697 /* |z2|i| < 2^26 */ |
848 | 698 } |
699 | |
700 /* Conditionally swap two reduced-form limb arrays if 'iswap' is 1, but leave | |
701 * them unchanged if 'iswap' is 0. Runs in data-invariant time to avoid | |
702 * side-channel attacks. | |
703 * | |
704 * NOTE that this function requires that 'iswap' be 1 or 0; other values give | |
705 * wrong results. Also, the two limb arrays must be in reduced-coefficient, | |
706 * reduced-degree form: the values in a[10..19] or b[10..19] aren't swapped, | |
707 * and all all values in a[0..9],b[0..9] must have magnitude less than | |
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708 * INT32_MAX. */ |
848 | 709 static void |
710 swap_conditional(limb a[19], limb b[19], limb iswap) { | |
711 unsigned i; | |
712 const s32 swap = (s32) -iswap; | |
713 | |
714 for (i = 0; i < 10; ++i) { | |
715 const s32 x = swap & ( ((s32)a[i]) ^ ((s32)b[i]) ); | |
716 a[i] = ((s32)a[i]) ^ x; | |
717 b[i] = ((s32)b[i]) ^ x; | |
718 } | |
719 } | |
720 | |
721 /* Calculates nQ where Q is the x-coordinate of a point on the curve | |
722 * | |
723 * resultx/resultz: the x coordinate of the resulting curve point (short form) | |
724 * n: a little endian, 32-byte number | |
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725 * q: a point of the curve (short form) */ |
848 | 726 static void |
727 cmult(limb *resultx, limb *resultz, const u8 *n, const limb *q) { | |
728 limb a[19] = {0}, b[19] = {1}, c[19] = {1}, d[19] = {0}; | |
729 limb *nqpqx = a, *nqpqz = b, *nqx = c, *nqz = d, *t; | |
730 limb e[19] = {0}, f[19] = {1}, g[19] = {0}, h[19] = {1}; | |
731 limb *nqpqx2 = e, *nqpqz2 = f, *nqx2 = g, *nqz2 = h; | |
732 | |
733 unsigned i, j; | |
734 | |
735 memcpy(nqpqx, q, sizeof(limb) * 10); | |
736 | |
737 for (i = 0; i < 32; ++i) { | |
738 u8 byte = n[31 - i]; | |
739 for (j = 0; j < 8; ++j) { | |
740 const limb bit = byte >> 7; | |
741 | |
742 swap_conditional(nqx, nqpqx, bit); | |
743 swap_conditional(nqz, nqpqz, bit); | |
744 fmonty(nqx2, nqz2, | |
745 nqpqx2, nqpqz2, | |
746 nqx, nqz, | |
747 nqpqx, nqpqz, | |
748 q); | |
749 swap_conditional(nqx2, nqpqx2, bit); | |
750 swap_conditional(nqz2, nqpqz2, bit); | |
751 | |
752 t = nqx; | |
753 nqx = nqx2; | |
754 nqx2 = t; | |
755 t = nqz; | |
756 nqz = nqz2; | |
757 nqz2 = t; | |
758 t = nqpqx; | |
759 nqpqx = nqpqx2; | |
760 nqpqx2 = t; | |
761 t = nqpqz; | |
762 nqpqz = nqpqz2; | |
763 nqpqz2 = t; | |
764 | |
765 byte <<= 1; | |
766 } | |
767 } | |
768 | |
769 memcpy(resultx, nqx, sizeof(limb) * 10); | |
770 memcpy(resultz, nqz, sizeof(limb) * 10); | |
771 } | |
772 | |
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773 /* ----------------------------------------------------------------------------- |
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774 * Shamelessly copied from djb's code |
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775 * ----------------------------------------------------------------------------- */ |
848 | 776 static void |
777 crecip(limb *out, const limb *z) { | |
778 limb z2[10]; | |
779 limb z9[10]; | |
780 limb z11[10]; | |
781 limb z2_5_0[10]; | |
782 limb z2_10_0[10]; | |
783 limb z2_20_0[10]; | |
784 limb z2_50_0[10]; | |
785 limb z2_100_0[10]; | |
786 limb t0[10]; | |
787 limb t1[10]; | |
788 int i; | |
789 | |
790 /* 2 */ fsquare(z2,z); | |
791 /* 4 */ fsquare(t1,z2); | |
792 /* 8 */ fsquare(t0,t1); | |
793 /* 9 */ fmul(z9,t0,z); | |
794 /* 11 */ fmul(z11,z9,z2); | |
795 /* 22 */ fsquare(t0,z11); | |
796 /* 2^5 - 2^0 = 31 */ fmul(z2_5_0,t0,z9); | |
797 | |
798 /* 2^6 - 2^1 */ fsquare(t0,z2_5_0); | |
799 /* 2^7 - 2^2 */ fsquare(t1,t0); | |
800 /* 2^8 - 2^3 */ fsquare(t0,t1); | |
801 /* 2^9 - 2^4 */ fsquare(t1,t0); | |
802 /* 2^10 - 2^5 */ fsquare(t0,t1); | |
803 /* 2^10 - 2^0 */ fmul(z2_10_0,t0,z2_5_0); | |
804 | |
805 /* 2^11 - 2^1 */ fsquare(t0,z2_10_0); | |
806 /* 2^12 - 2^2 */ fsquare(t1,t0); | |
807 /* 2^20 - 2^10 */ for (i = 2;i < 10;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } | |
808 /* 2^20 - 2^0 */ fmul(z2_20_0,t1,z2_10_0); | |
809 | |
810 /* 2^21 - 2^1 */ fsquare(t0,z2_20_0); | |
811 /* 2^22 - 2^2 */ fsquare(t1,t0); | |
812 /* 2^40 - 2^20 */ for (i = 2;i < 20;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } | |
813 /* 2^40 - 2^0 */ fmul(t0,t1,z2_20_0); | |
814 | |
815 /* 2^41 - 2^1 */ fsquare(t1,t0); | |
816 /* 2^42 - 2^2 */ fsquare(t0,t1); | |
817 /* 2^50 - 2^10 */ for (i = 2;i < 10;i += 2) { fsquare(t1,t0); fsquare(t0,t1); } | |
818 /* 2^50 - 2^0 */ fmul(z2_50_0,t0,z2_10_0); | |
819 | |
820 /* 2^51 - 2^1 */ fsquare(t0,z2_50_0); | |
821 /* 2^52 - 2^2 */ fsquare(t1,t0); | |
822 /* 2^100 - 2^50 */ for (i = 2;i < 50;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } | |
823 /* 2^100 - 2^0 */ fmul(z2_100_0,t1,z2_50_0); | |
824 | |
825 /* 2^101 - 2^1 */ fsquare(t1,z2_100_0); | |
826 /* 2^102 - 2^2 */ fsquare(t0,t1); | |
827 /* 2^200 - 2^100 */ for (i = 2;i < 100;i += 2) { fsquare(t1,t0); fsquare(t0,t1); } | |
828 /* 2^200 - 2^0 */ fmul(t1,t0,z2_100_0); | |
829 | |
830 /* 2^201 - 2^1 */ fsquare(t0,t1); | |
831 /* 2^202 - 2^2 */ fsquare(t1,t0); | |
832 /* 2^250 - 2^50 */ for (i = 2;i < 50;i += 2) { fsquare(t0,t1); fsquare(t1,t0); } | |
833 /* 2^250 - 2^0 */ fmul(t0,t1,z2_50_0); | |
834 | |
835 /* 2^251 - 2^1 */ fsquare(t1,t0); | |
836 /* 2^252 - 2^2 */ fsquare(t0,t1); | |
837 /* 2^253 - 2^3 */ fsquare(t1,t0); | |
838 /* 2^254 - 2^4 */ fsquare(t0,t1); | |
839 /* 2^255 - 2^5 */ fsquare(t1,t0); | |
840 /* 2^255 - 21 */ fmul(out,t1,z11); | |
841 } | |
842 | |
843 int | |
844 curve25519_donna(u8 *mypublic, const u8 *secret, const u8 *basepoint) { | |
845 limb bp[10], x[10], z[11], zmone[10]; | |
846 uint8_t e[32]; | |
847 int i; | |
848 | |
849 for (i = 0; i < 32; ++i) e[i] = secret[i]; | |
850 e[0] &= 248; | |
851 e[31] &= 127; | |
852 e[31] |= 64; | |
853 | |
854 fexpand(bp, basepoint); | |
855 cmult(x, z, e, bp); | |
856 crecip(zmone, z); | |
857 fmul(z, x, zmone); | |
858 fcontract(mypublic, z); | |
859 return 0; | |
860 } |