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[/] [apbtoaes128/] [trunk/] [pli/] [bfm_ecb/] [aes_bfm_key_generation_ccfie_ecb.h] - Blame information for rev 12

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1 4 redbear
//////////////////////////////////////////////////////////////////
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////
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////
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////    AES CORE BLOCK
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////
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////
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////
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//// This file is part of the APB to AES128 project
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////
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//// http://www.opencores.org/cores/apbtoaes128/
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////
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////
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////
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//// Description
15
////
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//// Implementation of APB IP core according to
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////
18
//// aes128_spec IP core specification document.
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////
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////
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////
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//// To Do: Things are right here but always all block can suffer changes
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////
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////
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////
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////
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////
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//// Author(s): - Felipe Fernandes Da Costa, fefe2560@gmail.com
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////
30
///////////////////////////////////////////////////////////////// 
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////
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////
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//// Copyright (C) 2009 Authors and OPENCORES.ORG
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////
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////
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////
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//// This source file may be used and distributed without
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////
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//// restriction provided that this copyright statement is not
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////
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//// removed from the file and that any derivative work contains
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//// the original copyright notice and the associated disclaimer.
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////
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////
45
//// This source file is free software; you can redistribute it
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////
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//// and/or modify it under the terms of the GNU Lesser General
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////
49
//// Public License as published by the Free Software Foundation;
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//// either version 2.1 of the License, or (at your option) any
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////
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//// later version.
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////
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////
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////
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//// This source is distributed in the hope that it will be
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////
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//// useful, but WITHOUT ANY WARRANTY; without even the implied
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////
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//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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////
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//// PURPOSE. See the GNU Lesser General Public License for more
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//// details.
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////
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////
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////
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//// You should have received a copy of the GNU Lesser General
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////
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//// Public License along with this source; if not, download it
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////
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//// from http://www.opencores.org/lgpl.shtml
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////
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////
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///////////////////////////////////////////////////////////////////
75
static int aes_bfm_key_generation_ccfie_ecb_calltf(char*user_data)
76
{
77
 
78
        vpiHandle PRESETn = vpi_handle_by_name("AES_GLADIC_tb.PRESETn", NULL);
79
        vpiHandle PWDATA = vpi_handle_by_name("AES_GLADIC_tb.PWDATA", NULL);
80
        vpiHandle PENABLE = vpi_handle_by_name("AES_GLADIC_tb.PENABLE", NULL);
81
        vpiHandle PSEL = vpi_handle_by_name("AES_GLADIC_tb.PSEL", NULL);
82
        vpiHandle PWRITE = vpi_handle_by_name("AES_GLADIC_tb.PWRITE", NULL);
83
        vpiHandle PADDR = vpi_handle_by_name("AES_GLADIC_tb.PADDR", NULL);
84
        vpiHandle PRDATA = vpi_handle_by_name("AES_GLADIC_tb.PRDATA", NULL);
85
        vpiHandle PREADY = vpi_handle_by_name("AES_GLADIC_tb.PREADY", NULL);
86
        vpiHandle PSLVERR = vpi_handle_by_name("AES_GLADIC_tb.PSLVERR", NULL);
87
        vpiHandle int_ccf = vpi_handle_by_name("AES_GLADIC_tb.int_ccf", NULL);
88
        vpiHandle int_err = vpi_handle_by_name("AES_GLADIC_tb.int_err", NULL);
89
        vpiHandle dma_req_wr = vpi_handle_by_name("AES_GLADIC_tb.dma_req_wr", NULL);
90
        vpiHandle dma_req_rd = vpi_handle_by_name("AES_GLADIC_tb.dma_req_rd", NULL);
91
 
92
        std::random_device rd;
93
        std::uniform_int_distribution<long int> data_in(0,4294967295);
94
 
95
        v_ecb.format=vpiIntVal;
96
 
97
        vpi_get_value(PRESETn, &v_ecb);
98
 
99
 
100
        //printf("%i\n",STATE);
101
 
102
 
103
        if(type_bfm == ECB_KEY_GEN_CCFIE && v_ecb.value.integer == 1)
104
        {
105
 
106
                switch(STATE)
107
                {
108
 
109
                  case IDLE:
110
 
111
                                if(PACKETS_GENERATED >= MAX_ITERATIONS)
112
                                {
113
 
114
                                        STATE = IDLE;
115
                                        type_bfm = 0;
116
 
117
                                }else
118
                                {
119
                                        STATE = WRITE;
120
 
121
                                        counter = 0;
122
 
123
 
124
                                        v_ecb.value.integer = 0;
125
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
126
 
127
                                        v_ecb.value.integer = vector_address[0];
128
                                        vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
129
 
130
                                        v_ecb.value.integer = 0;
131
                                        vpi_put_value(PWDATA, &v_ecb, NULL, vpiNoDelay);
132
 
133
                                        v_ecb.value.integer = 1;
134
                                        vpi_put_value(PWRITE, &v_ecb, NULL, vpiNoDelay);
135
 
136
                                        v_ecb.value.integer = 1;
137
                                        vpi_put_value(PSEL, &v_ecb, NULL, vpiNoDelay);
138
                                }
139
 
140
                  break;
141
 
142
                  case WRITE:
143
                                if(counter == 0)
144
                                {
145
 
146
 
147
                                        counter_write++;
148
                                        counter++;
149
 
150
                                        v_ecb.value.integer = 1;
151
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
152
 
153
 
154
                                }else if(counter == 1)
155
                                {
156
 
157
                                        v_ecb.value.integer = 0;
158
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
159
 
160
 
161
 
162
                                        if(counter_write < 9)
163
                                        {
164
 
165
                                                v_ecb.value.integer = vector_address[counter_write];
166
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
167
 
168
                                                t_ecb.type = vpiScaledRealTime;
169
                                                t_ecb.real = 0;
170
                                                v_ecb.format=vpiIntVal;
171
 
172
                                                if(FIPS_ENABLE == FIPS)
173
                                                {
174
 
175
                                                        if(vector_address[counter_write] == ADDR_AES_KEYR3 || vector_address[counter_write] == ADDR_AES_IVR3)
176
                                                        {
177
                                                                a = a | KEY_FIPS_NOT_DERIVATED[0];
178
                                                                a = a << 8;
179
                                                                a = a | KEY_FIPS_NOT_DERIVATED[1];
180
                                                                a = a << 8;
181
                                                                a = a | KEY_FIPS_NOT_DERIVATED[2];
182
                                                                a = a << 8;
183
                                                                a = a | KEY_FIPS_NOT_DERIVATED[3];
184
                                                                v_ecb.value.integer = a;
185
                                                        }
186
 
187
 
188
                                                        if(vector_address[counter_write] == ADDR_AES_KEYR2 || vector_address[counter_write] == ADDR_AES_IVR2)
189
                                                        {
190
                                                                b = b | KEY_FIPS_NOT_DERIVATED[4];
191
                                                                b = b << 8;
192
                                                                b = b | KEY_FIPS_NOT_DERIVATED[5];
193
                                                                b = b << 8;
194
                                                                b = b | KEY_FIPS_NOT_DERIVATED[6];
195
                                                                b = b << 8;
196
                                                                b = b | KEY_FIPS_NOT_DERIVATED[7];
197
                                                                v_ecb.value.integer = b;
198
                                                        }
199
 
200
                                                        if(vector_address[counter_write] == ADDR_AES_KEYR1 || vector_address[counter_write] == ADDR_AES_IVR1)
201
                                                        {
202
 
203
                                                                c = c | KEY_FIPS_NOT_DERIVATED[8];
204
                                                                c = c << 8;
205
                                                                c = c | KEY_FIPS_NOT_DERIVATED[9];
206
                                                                c = c << 8;
207
                                                                c = c | KEY_FIPS_NOT_DERIVATED[10];
208
                                                                c = c << 8;
209
                                                                c = c | KEY_FIPS_NOT_DERIVATED[11];
210
                                                                v_ecb.value.integer = c;
211
 
212
                                                        }
213
 
214
                                                        if(vector_address[counter_write] == ADDR_AES_KEYR0 || vector_address[counter_write] == ADDR_AES_IVR0)
215
                                                        {
216
                                                                d = d | KEY_FIPS_NOT_DERIVATED[12];
217
                                                                d = d << 8;
218
                                                                d = d | KEY_FIPS_NOT_DERIVATED[13];
219
                                                                d = d << 8;
220
                                                                d = d | KEY_FIPS_NOT_DERIVATED[14];
221
                                                                d = d << 8;
222
                                                                d = d | KEY_FIPS_NOT_DERIVATED[15];
223
                                                                v_ecb.value.integer = d;
224
                                                        }
225
 
226
 
227
 
228
                                                }else if(FIPS_ENABLE == RANDOM_DATA)
229
                                                {
230
                                                        v_ecb.value.integer = data_in(rd);
231
                                                }
232
 
233
                                                //vpi_put_value(PWDATA, &v_ecb, NULL, vpiNoDelay);                                              
234
                                                vpi_put_value(PWDATA, &v_ecb, &t_ecb, vpiTransportDelay);
235
 
236
 
237
                                                a = 0;
238
                                                b = 0;
239
                                                c = 0;
240
                                                d = 0;
241
                                        }
242
 
243
 
244
                                        if(counter_write == 9)
245
                                        {
246
 
247
                                                v_ecb.value.integer = vector_address[counter_write];
248
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
249
 
250
                                                t_ecb.type = vpiScaledRealTime;
251
                                                t_ecb.real = 0;
252
                                                v_ecb.format=vpiIntVal;
253
                                                v_ecb.value.integer = 521;
254
                                                vpi_put_value(PWDATA, &v_ecb, &t_ecb, vpiTransportDelay);
255
 
256
                                        }
257
 
258
 
259
                                        v_ecb.value.integer = 1;
260
                                        vpi_put_value(PSEL, &v_ecb, NULL, vpiNoDelay);
261
 
262
                                        counter=0;
263
                                }
264
 
265
                                if(counter_write == 10)
266
                                {
267
                                        counter_write = 0;
268
                                        counter_read  = 0;
269
 
270
                                        STATE =WAIT_SR;
271
 
272
 
273
                                }
274
 
275
                  break;
276
 
277
                  case WAIT_SR:
278
 
279
                                v_ecb.value.integer = ADDR_AES_SR;
280
                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
281
 
282
                                v_ecb.value.integer = 0;
283
                                vpi_put_value(PWRITE, &v_ecb, NULL, vpiNoDelay);
284
 
285 9 redbear
                                v_ecb.value.integer = 0;
286
                                vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
287
 
288
                                /*
289 4 redbear
                                if(counter == 0)
290
                                {
291
 
292
                                        counter++;
293
 
294
                                        v_ecb.value.integer = 1;
295
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
296
 
297
 
298
                                }else if(counter == 1)
299
                                {
300
                                        v_ecb.value.integer = 0;
301
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
302
 
303
                                        counter=0;
304
                                }
305
 
306 9 redbear
                                */
307
 
308 4 redbear
                                v_ecb.value.integer = 0;
309 9 redbear
                                vpi_get_value(int_ccf,&v_ecb);
310 4 redbear
 
311
                                if(v_ecb.value.integer == 1)
312
                                {
313
                                        STATE = READ_KEY_GEN;
314
 
315 9 redbear
                                        counter=1;
316 4 redbear
                                }
317
 
318
 
319
                  break;
320
 
321
 
322
                 case READ_KEY_GEN:
323
 
324
 
325
 
326
                                if(counter == 0)
327
                                {
328
 
329
                                        v_ecb.value.integer = 1;
330
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
331
 
332
                                        counter_read++;
333
                                        counter++;
334
 
335
 
336
 
337
                                }else if(counter == 1)
338
                                {
339
 
340 9 redbear
                                        v_ecb.value.integer = 0;
341
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
342
 
343
                                        if(counter_read < 4)
344 4 redbear
                                        {
345 9 redbear
                                                v_ecb.value.integer = ADDR_AES_DOUTR;
346
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
347
                                        }
348
 
349
                                        if(counter_read == 4)
350
                                        {
351 4 redbear
                                                v_ecb.value.integer = ADDR_AES_KEYR3;
352 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
353 4 redbear
                                        }
354
 
355 9 redbear
                                        if(counter_read == 5)
356 4 redbear
                                        {
357
                                                v_ecb.value.integer = ADDR_AES_KEYR2;
358 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
359 4 redbear
                                        }
360
 
361
 
362 9 redbear
                                        if(counter_read == 6)
363 4 redbear
                                        {
364
                                                v_ecb.value.integer = ADDR_AES_KEYR1;
365 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
366 4 redbear
                                        }
367
 
368 9 redbear
                                        if(counter_read == 7)
369 4 redbear
                                        {
370
                                                v_ecb.value.integer = ADDR_AES_KEYR0;
371 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
372 4 redbear
                                        }
373 9 redbear
 
374
                                        if(counter_read == 8)
375 5 redbear
                                        {
376
                                                v_ecb.value.integer = ADDR_AES_IVR3;
377 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
378 5 redbear
                                        }
379
 
380 9 redbear
                                        if(counter_read == 9)
381 5 redbear
                                        {
382
                                                v_ecb.value.integer = ADDR_AES_IVR2;
383 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
384 5 redbear
                                        }
385
 
386 9 redbear
                                        if(counter_read == 10)
387 5 redbear
                                        {
388
                                                v_ecb.value.integer = ADDR_AES_IVR1;
389 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
390 5 redbear
                                        }
391
 
392 9 redbear
                                        if(counter_read == 11)
393 5 redbear
                                        {
394
                                                v_ecb.value.integer = ADDR_AES_IVR0;
395 9 redbear
                                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
396 5 redbear
                                        }
397
 
398 4 redbear
                                        counter = 0;
399
                                }
400
 
401 9 redbear
                                if(counter_read == 12)
402 4 redbear
                                {
403
                                        STATE = RESET_SR;
404
                                        counter_write = 0;
405
                                        counter_read  = 0;
406
                                }
407
 
408
                 break;
409
 
410
                case RESET_SR:
411
 
412
                                v_ecb.value.integer = 1;
413
                                vpi_put_value(PWRITE, &v_ecb, NULL, vpiNoDelay);
414
 
415
                                v_ecb.value.integer = 1;
416
                                vpi_put_value(PSEL, &v_ecb, NULL, vpiNoDelay);
417
 
418
                                v_ecb.value.integer = 0;
419
                                vpi_put_value(PADDR, &v_ecb, NULL, vpiNoDelay);
420
 
421
                                v_ecb.value.integer = 128;
422
                                vpi_put_value(PWDATA, &v_ecb, NULL, vpiNoDelay);
423
 
424
 
425
                                if(counter == 0)
426
                                {
427
 
428
                                        counter_write++;
429
                                        counter++;
430
 
431
                                        v_ecb.value.integer = 1;
432
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
433
 
434
                                }else if(counter == 1)
435
                                {
436
 
437
                                        v_ecb.value.integer = 0;
438
                                        vpi_put_value(PENABLE, &v_ecb, NULL, vpiNoDelay);
439
                                        counter=0;
440
 
441
                                }
442
 
443
                                if(counter_write == 1)
444
                                {
445
                                        STATE =IDLE;
446
                                        counter_write = 0;
447
                                        counter=0;
448
                                        PACKETS_GENERATED = PACKETS_GENERATED + 1;
449
                                }
450
 
451
 
452
 
453
                break;
454
 
455
                }
456
 
457
        }
458
 
459
        return 0;
460
}

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