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[/] [apbtoaes128/] [trunk/] [pli/] [aes_init.h] - Rev 18
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////////////////////////////////////////////////////////////////// //// //// //// AES CORE BLOCK //// //// //// //// This file is part of the APB to AES128 project //// //// http://www.opencores.org/cores/apbtoaes128/ //// //// //// //// Description //// //// Implementation of APB IP core according to //// //// aes128_spec IP core specification document. //// //// //// //// To Do: Things are right here but always all block can suffer changes //// //// //// //// //// //// Author(s): - Felipe Fernandes Da Costa, fefe2560@gmail.com //// ///////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2009 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// the original copyright notice and the associated disclaimer. //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source is distributed in the hope that it will be //// //// useful, but WITHOUT ANY WARRANTY; without even the implied //// //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// //// PURPOSE. See the GNU Lesser General Public License for more //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// /////////////////////////////////////////////////////////////////// static int init_calltf(char*user_data) { vpiHandle PRESETn = vpi_handle_by_name("AES_GLADIC_tb.PRESETn", NULL); vpiHandle PWDATA = vpi_handle_by_name("AES_GLADIC_tb.PWDATA", NULL); vpiHandle PENABLE = vpi_handle_by_name("AES_GLADIC_tb.PENABLE", NULL); vpiHandle PSEL = vpi_handle_by_name("AES_GLADIC_tb.PSEL", NULL); vpiHandle PWRITE = vpi_handle_by_name("AES_GLADIC_tb.PWRITE", NULL); vpiHandle PADDR = vpi_handle_by_name("AES_GLADIC_tb.PADDR", NULL); vpiHandle PRDATA = vpi_handle_by_name("AES_GLADIC_tb.PRDATA", NULL); vpiHandle PREADY = vpi_handle_by_name("AES_GLADIC_tb.PREADY", NULL); vpiHandle PSLVERR = vpi_handle_by_name("AES_GLADIC_tb.PSLVERR", NULL); vpiHandle int_ccf = vpi_handle_by_name("AES_GLADIC_tb.int_ccf", NULL); vpiHandle int_err = vpi_handle_by_name("AES_GLADIC_tb.int_err", NULL); vpiHandle dma_req_wr = vpi_handle_by_name("AES_GLADIC_tb.dma_req_wr", NULL); vpiHandle dma_req_rd = vpi_handle_by_name("AES_GLADIC_tb.dma_req_rd", NULL); vpiHandle i = vpi_handle_by_name("AES_GLADIC_tb.i", NULL); STATE = IDLE; counter_write = 0; counter_read = 0; counter_wait = 0; PACKETS_GENERATED = 0; counter = 0; reset_counter = 0; flag = 0; a = 0; b = 0; c = 0; d = 0; v_monitor.value.integer=0; v_monitor_catch.value.integer=0; A=B=C=D=E=F=G=H=I=J=L=M=N=O=0; for(counter_monitor=0;counter_monitor < 16;counter_monitor++) { INPUT_KEYR[counter_monitor] =0x00; OUTPUT_KEYR[counter_monitor]=0x00; INPUT_IVR[counter_monitor] =0x00; OUTPUT_IVR[counter_monitor] =0x00; INPUT_TEXT[counter_monitor]=0x00; OUTPUT_TEXT[counter_monitor]=0x00; } counter_monitor=0; cycle_counter =0; /* ECB ERROR TEST CASES DEFINITIONS */ vector_CR[0]= 1; // ECB ENCRYPTION REGISTER ERROR DATATYPE 0 vector_CR[1]= 3; // ECB ENCRYPTION REGISTER ERROR DATATYPE 1 vector_CR[2]= 5; // ECB ENCRYPTION REGISTER ERROR DATATYPE 2 vector_CR[3]= 7; // ECB ENCRYPTION REGISTER ERROR DATATYPE 3 vector_CR[4]= 1025; // ECB ENCRYPTION INT_ERR DATATYPE 0 vector_CR[5]= 1027; // ECB ENCRYPTION INT_ERR DATATYPE 1 vector_CR[6]= 1029; // ECB ENCRYPTION INT_ERR DATATYPE 2 vector_CR[7]= 1031; // ECB ENCRYPTION INT_ERR DATATYPE 3 vector_CR[8] = 6145; // ECB ENCRYPTION DMA REGISTER ERROR DATATYPE 0 vector_CR[9] = 6147; // ECB ENCRYPTION DMA REGISTER ERROR DATATYPE 1 vector_CR[10]= 6149; // ECB ENCRYPTION DMA REGISTER ERROR DATATYPE 2 vector_CR[11]= 6151; // ECB ENCRYPTION DMA REGISTER ERROR DATATYPE 3 vector_CR[12]= 7169; // ECB ENCRYPTION DMA INT_ERR DATATYPE 0 vector_CR[13]= 7171; // ECB ENCRYPTION DMA INT_ERR DATATYPE 1 vector_CR[14]= 7173; // ECB ENCRYPTION DMA INT_ERR DATATYPE 2 vector_CR[15]= 7175; // ECB ENCRYPTION DMA INT_ERR DATATYPE 3 vector_CR[16]= 513; // ECB ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 0 vector_CR[17]= 515; // ECB ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 1 vector_CR[18]= 517; // ECB ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 2 vector_CR[19]= 519; // ECB ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 3 vector_CR[20]= 1537; // ECB ENCRYPTION INT_CCF INT_ERR DATATYPE 0 vector_CR[21]= 1539; // ECB ENCRYPTION INT_CCF INT_ERR DATATYPE 1 vector_CR[22]= 1541; // ECB ENCRYPTION INT_CCF INT_ERR DATATYPE 2 vector_CR[23]= 1543; // ECB ENCRYPTION INT_CCF INT_ERR DATATYPE 3 vector_CR[24]= 17; // ECB DECRYPTION REGISTER ERROR DATATYPE 0 vector_CR[25]= 19; // ECB DECRYPTION REGISTER ERROR DATATYPE 1 vector_CR[26]= 21; // ECB DECRYPTION REGISTER ERROR DATATYPE 2 vector_CR[27]= 23; // ECB DECRYPTION REGISTER ERROR DATATYPE 3 vector_CR[28]= 1041; // ECB DECRYPTION INT_ERR DATATYPE 0 vector_CR[29]= 1043; // ECB DECRYPTION INT_ERR DATATYPE 1 vector_CR[30]= 1045; // ECB DECRYPTION INT_ERR DATATYPE 2 vector_CR[31]= 1047; // ECB DECRYPTION INT_ERR DATATYPE 3 vector_CR[32]= 6161; // ECB DECRYPTION DMA REGISTER ERROR DATATYPE 0 vector_CR[33]= 6163; // ECB DECRYPTION DMA REGISTER ERROR DATATYPE 1 vector_CR[34]= 6165; // ECB DECRYPTION DMA REGISTER ERROR DATATYPE 2 vector_CR[35]= 6167; // ECB DECRYPTION DMA REGISTER ERROR DATATYPE 3 vector_CR[36]= 7185; // ECB DECRYPTION DMA INT_ERR DATATYPE 0 vector_CR[37]= 7187; // ECB DECRYPTION DMA INT_ERR DATATYPE 1 vector_CR[38]= 7189; // ECB DECRYPTION DMA INT_ERR DATATYPE 2 vector_CR[39]= 7191; // ECB DECRYPTION DMA INT_ERR DATATYPE 3 vector_CR[40]= 529; // ECB DECRYPTION INT CCF REGISTER ERROR DATATYPE 0 vector_CR[41]= 531; // ECB DECRYPTION INT CCF REGISTER ERROR DATATYPE 1 vector_CR[42]= 533; // ECB DECRYPTION INT CCF REGISTER ERROR DATATYPE 2 vector_CR[43]= 535; // ECB DECRYPTION INT CCF REGISTER ERROR DATATYPE 3 vector_CR[44]= 1553; // ECB DECRYPTION INT CCF INT_ERR DATATYPE 0 vector_CR[45]= 1555; // ECB DECRYPTION INT CCF INT_ERR DATATYPE 1 vector_CR[46]= 1557; // ECB DECRYPTION INT CCF INT_ERR DATATYPE 2 vector_CR[47]= 1559; // ECB DECRYPTION INT CCF INT_ERR DATATYPE 3 vector_CR[48]= 25; // ECB DECRYPTION DERIVATION REGISTER ERROR DATATYPE 0 vector_CR[49]= 27; // ECB DECRYPTION DERIVATION REGISTER ERROR DATATYPE 1 vector_CR[50]= 29; // ECB DECRYPTION DERIVATION REGISTER ERROR DATATYPE 2 vector_CR[51]= 31; // ECB DECRYPTION DERIVATION REGISTER ERROR DATATYPE 3 vector_CR[52]= 1049; // ECB DECRYPTION DERIVATION INT_ERR DATATYPE 0 vector_CR[53]= 1051; // ECB DECRYPTION DERIVATION INT_ERR DATATYPE 1 vector_CR[54]= 1053; // ECB DECRYPTION DERIVATION INT_ERR DATATYPE 2 vector_CR[55]= 1055; // ECB DECRYPTION DERIVATION INT_ERR DATATYPE 3 vector_CR[56]= 6169; // ECB DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 0 vector_CR[57]= 6171; // ECB DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 1 vector_CR[58]= 6173; // ECB DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 2 vector_CR[59]= 6175; // ECB DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 3 vector_CR[60]= 7193; // ECB DECRYPTION DERIVATION DMA INT_ERR DATATYPE 0 vector_CR[61]= 7195; // ECB DECRYPTION DERIVATION DMA INT_ERR DATATYPE 1 vector_CR[62]= 7197; // ECB DECRYPTION DERIVATION DMA INT_ERR DATATYPE 2 vector_CR[63]= 7199; // ECB DECRYPTION DERIVATION DMA INT_ERR DATATYPE 3 vector_CR[64]= 537; // ECB DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 0 vector_CR[65]= 539; // ECB DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 1 vector_CR[66]= 541; // ECB DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 2 vector_CR[67]= 543; // ECB DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 3 vector_CR[68]= 1561; // ECB DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 0 vector_CR[69]= 1563; // ECB DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 1 vector_CR[70]= 1565; // ECB DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 2 vector_CR[71]= 1567; // ECB DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 3 vector_CR[72]= 9; // ECB KEY GENERATION REGISTER ERROR vector_CR[73]= 1033; // ECB KEY GENERATION INT_ERR vector_CR[74]= 6153; // ECB KEY GENERATION DMA REGISTER ERROR vector_CR[75]= 7177; // ECB KEY GENERATION DMA INT_ERR vector_CR[76]= 521; // ECB DECRYPTION DERIVATION INT CCF REGISTER ERROR vector_CR[77]= 1545; // ECB DECRYPTION DERIVATION INT CCF INT_ERR /* CBC ERROR TEST CASES DEFINITIONS */ vector_CR[78]= 33; // CBC ENCRYPTION REGISTER ERROR DATATYPE 0 vector_CR[79]= 35; // CBC ENCRYPTION REGISTER ERROR DATATYPE 1 vector_CR[80]= 37; // CBC ENCRYPTION REGISTER ERROR DATATYPE 2 vector_CR[81]= 39; // CBC ENCRYPTION REGISTER ERROR DATATYPE 3 vector_CR[82]= 1057; // CBC ENCRYPTION INT_ERR DATATYPE 0 vector_CR[83]= 1059; // CBC ENCRYPTION INT_ERR DATATYPE 1 vector_CR[84]= 1061; // CBC ENCRYPTION INT_ERR DATATYPE 2 vector_CR[85]= 1063; // CBC ENCRYPTION INT_ERR DATATYPE 3 vector_CR[86]= 6177; // CBC ENCRYPTION DMA REGISTER ERROR DATATYPE 0 vector_CR[87]= 6179; // CBC ENCRYPTION DMA REGISTER ERROR DATATYPE 1 vector_CR[88]= 6181; // CBC ENCRYPTION DMA REGISTER ERROR DATATYPE 2 vector_CR[89]= 6183; // CBC ENCRYPTION DMA REGISTER ERROR DATATYPE 3 vector_CR[90]= 7201; // CBC ENCRYPTION DMA INT_ERR DATATYPE 0 vector_CR[91]= 7203; // CBC ENCRYPTION DMA INT_ERR DATATYPE 1 vector_CR[92]= 7205; // CBC ENCRYPTION DMA INT_ERR DATATYPE 2 vector_CR[92]= 7207; // CBC ENCRYPTION DMA INT_ERR DATATYPE 3 vector_CR[93]= 545; // CBC ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 0 vector_CR[94]= 547; // CBC ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 1 vector_CR[95]= 549; // CBC ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 2 vector_CR[96]= 551; // CBC ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 3 vector_CR[97]= 1569; // CBC ENCRYPTION INT_CCF INT_ERR DATATYPE 0 vector_CR[98]= 1571; // CBC ENCRYPTION INT_CCF INT_ERR DATATYPE 1 vector_CR[99]= 1573; // CBC ENCRYPTION INT_CCF INT_ERR DATATYPE 2 vector_CR[100]= 1575; // CBC ENCRYPTION INT_CCF INT_ERR DATATYPE 3 vector_CR[101]= 49; // CBC DECRYPTION REGISTER ERROR DATATYPE 0 vector_CR[102]= 51; // CBC DECRYPTION REGISTER ERROR DATATYPE 1 vector_CR[103]= 53; // CBC DECRYPTION REGISTER ERROR DATATYPE 2 vector_CR[104]= 55; // CBC DECRYPTION REGISTER ERROR DATATYPE 3 vector_CR[105]= 1073; // CBC DECRYPTION INT_ERR DATATYPE 0 vector_CR[106]= 1075; // CBC DECRYPTION INT_ERR DATATYPE 1 vector_CR[107]= 1077; // CBC DECRYPTION INT_ERR DATATYPE 2 vector_CR[108]= 1079; // CBC DECRYPTION INT_ERR DATATYPE 3 vector_CR[109]= 6193; // CBC DECRYPTION DMA REGISTER ERROR DATATYPE 0 vector_CR[110]= 6195; // CBC DECRYPTION DMA REGISTER ERROR DATATYPE 1 vector_CR[111]= 6197; // CBC DECRYPTION DMA REGISTER ERROR DATATYPE 2 vector_CR[112]= 6199; // CBC DECRYPTION DMA REGISTER ERROR DATATYPE 3 vector_CR[113]= 7217; // CBC DECRYPTION DMA INT_ERR DATATYPE 0 vector_CR[114]= 7219; // CBC DECRYPTION DMA INT_ERR DATATYPE 1 vector_CR[115]= 7221; // CBC DECRYPTION DMA INT_ERR DATATYPE 2 vector_CR[116]= 7223; // CBC DECRYPTION DMA INT_ERR DATATYPE 3 vector_CR[117]= 561; // CBC DECRYPTION INT CCF REGISTER ERROR DATATYPE 0 vector_CR[118]= 563; // CBC DECRYPTION INT CCF REGISTER ERROR DATATYPE 1 vector_CR[119]= 565; // CBC DECRYPTION INT CCF REGISTER ERROR DATATYPE 2 vector_CR[120]= 567; // CBC DECRYPTION INT CCF REGISTER ERROR DATATYPE 3 vector_CR[121]= 1585; // CBC DECRYPTION INT CCF INT_ERR DATATYPE 0 vector_CR[122]= 1587; // CBC DECRYPTION INT CCF INT_ERR DATATYPE 1 vector_CR[123]= 1589; // CBC DECRYPTION INT CCF INT_ERR DATATYPE 2 vector_CR[124]= 1591; // CBC DECRYPTION INT CCF INT_ERR DATATYPE 3 vector_CR[125]= 57; // CBC DECRYPTION DERIVATION REGISTER ERROR DATATYPE 0 vector_CR[126]= 59; // CBC DECRYPTION DERIVATION REGISTER ERROR DATATYPE 1 vector_CR[127]= 61; // CBC DECRYPTION DERIVATION REGISTER ERROR DATATYPE 2 vector_CR[128]= 63; // CBC DECRYPTION DERIVATION REGISTER ERROR DATATYPE 3 vector_CR[129]= 1081; // CBC DECRYPTION DERIVATION INT_ERR DATATYPE 0 vector_CR[130]= 1083; // CBC DECRYPTION DERIVATION INT_ERR DATATYPE 1 vector_CR[131]= 1085; // CBC DECRYPTION DERIVATION INT_ERR DATATYPE 2 vector_CR[132]= 1087; // CBC DECRYPTION DERIVATION INT_ERR DATATYPE 3 vector_CR[133]= 6201; // CBC DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 0 vector_CR[134]= 6203; // CBC DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 1 vector_CR[135]= 6205; // CBC DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 2 vector_CR[136]= 6207; // CBC DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 3 vector_CR[137]= 7225; // CBC DECRYPTION DERIVATION DMA INT_ERR DATATYPE 0 vector_CR[138]= 7227; // CBC DECRYPTION DERIVATION DMA INT_ERR DATATYPE 1 vector_CR[139]= 7229; // CBC DECRYPTION DERIVATION DMA INT_ERR DATATYPE 2 vector_CR[140]= 7231; // CBC DECRYPTION DERIVATION DMA INT_ERR DATATYPE 3 vector_CR[141]= 569; // CBC DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 0 vector_CR[142]= 571; // CBC DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 1 vector_CR[143]= 573; // CBC DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 2 vector_CR[144]= 575; // CBC DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 3 vector_CR[145]= 1593; // CBC DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 0 vector_CR[146]= 1595; // CBC DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 1 vector_CR[147]= 1597; // CBC DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 2 vector_CR[148]= 1599; // CBC DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 3 vector_CR[149]= 41; // CBC KEY GENERATION REGISTER ERROR vector_CR[150]= 1065; // CBC KEY GENERATION INT_ERR vector_CR[151]= 6185; // CBC KEY GENERATION DMA REGISTER ERROR vector_CR[152]= 7209; // CBC KEY GENERATION DMA INT_ERR vector_CR[153]= 553; // CBC DECRYPTION DERIVATION INT CCF REGISTER ERROR vector_CR[154]= 1577; // CBC DECRYPTION DERIVATION INT CCF INT_ERR /* CTR ERROR TEST CASES DEFINITIONS */ vector_CR[155]= 65; // CTR ENCRYPTION REGISTER ERROR DATATYPE 0 vector_CR[156]= 67; // CTR ENCRYPTION REGISTER ERROR DATATYPE 1 vector_CR[157]= 69; // CTR ENCRYPTION REGISTER ERROR DATATYPE 2 vector_CR[158]= 71; // CTR ENCRYPTION REGISTER ERROR DATATYPE 3 vector_CR[159]= 1089; // CTR ENCRYPTION INT_ERR DATATYPE 0 vector_CR[160]= 1091; // CTR ENCRYPTION INT_ERR DATATYPE 1 vector_CR[161]= 1093; // CTR ENCRYPTION INT_ERR DATATYPE 2 vector_CR[162]= 1095; // CTR ENCRYPTION INT_ERR DATATYPE 3 vector_CR[163]= 6209; // CTR ENCRYPTION DMA REGISTER ERROR DATATYPE 0 vector_CR[164]= 6211; // CTR ENCRYPTION DMA REGISTER ERROR DATATYPE 1 vector_CR[165]= 6213; // CTR ENCRYPTION DMA REGISTER ERROR DATATYPE 2 vector_CR[166]= 6215; // CTR ENCRYPTION DMA REGISTER ERROR DATATYPE 3 vector_CR[167]= 7233; // CTR ENCRYPTION DMA INT_ERR DATATYPE 0 vector_CR[168]= 7235; // CTR ENCRYPTION DMA INT_ERR DATATYPE 1 vector_CR[169]= 7237; // CTR ENCRYPTION DMA INT_ERR DATATYPE 2 vector_CR[170]= 7239; // CTR ENCRYPTION DMA INT_ERR DATATYPE 3 vector_CR[171]= 577; // CTR ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 0 vector_CR[172]= 579; // CTR ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 1 vector_CR[173]= 581; // CTR ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 2 vector_CR[174]= 583; // CTR ENCRYPTION INT_CCF REGISTER ERROR DATATYPE 3 vector_CR[175]= 1601; // CTR ENCRYPTION INT_CCF INT_ERR DATATYPE 0 vector_CR[176]= 1603; // CTR ENCRYPTION INT_CCF INT_ERR DATATYPE 1 vector_CR[177]= 1605; // CTR ENCRYPTION INT_CCF INT_ERR DATATYPE 2 vector_CR[178]= 1607; // CTR ENCRYPTION INT_CCF INT_ERR DATATYPE 3 vector_CR[179]= 81; // CTR DECRYPTION REGISTER ERROR DATATYPE 0 vector_CR[180]= 83; // CTR DECRYPTION REGISTER ERROR DATATYPE 1 vector_CR[181]= 85; // CTR DECRYPTION REGISTER ERROR DATATYPE 2 vector_CR[182]= 87; // CTR DECRYPTION REGISTER ERROR DATATYPE 3 vector_CR[183]= 1105; // CTR DECRYPTION INT_ERR DATATYPE 0 vector_CR[184]= 1107; // CTR DECRYPTION INT_ERR DATATYPE 1 vector_CR[185]= 1109; // CTR DECRYPTION INT_ERR DATATYPE 2 vector_CR[186]= 1111; // CTR DECRYPTION INT_ERR DATATYPE 3 vector_CR[187]= 6225; // CTR DECRYPTION DMA REGISTER ERROR DATATYPE 0 vector_CR[188]= 6227; // CTR DECRYPTION DMA REGISTER ERROR DATATYPE 1 vector_CR[189]= 6229; // CTR DECRYPTION DMA REGISTER ERROR DATATYPE 2 vector_CR[190]= 6231; // CTR DECRYPTION DMA REGISTER ERROR DATATYPE 3 vector_CR[191]= 7249; // CTR DECRYPTION DMA INT_ERR DATATYPE 0 vector_CR[192]= 7251; // CTR DECRYPTION DMA INT_ERR DATATYPE 1 vector_CR[193]= 7253; // CTR DECRYPTION DMA INT_ERR DATATYPE 2 vector_CR[194]= 7255; // CTR DECRYPTION DMA INT_ERR DATATYPE 3 vector_CR[195]= 593; // CTR DECRYPTION INT CCF REGISTER ERROR DATATYPE 0 vector_CR[196]= 595; // CTR DECRYPTION INT CCF REGISTER ERROR DATATYPE 1 vector_CR[197]= 597; // CTR DECRYPTION INT CCF REGISTER ERROR DATATYPE 2 vector_CR[198]= 599; // CTR DECRYPTION INT CCF REGISTER ERROR DATATYPE 3 vector_CR[199]= 1617; // CTR DECRYPTION INT CCF INT_ERR DATATYPE 0 vector_CR[200]= 1619; // CTR DECRYPTION INT CCF INT_ERR DATATYPE 1 vector_CR[201]= 1621; // CTR DECRYPTION INT CCF INT_ERR DATATYPE 2 vector_CR[202]= 1623; // CTR DECRYPTION INT CCF INT_ERR DATATYPE 3 vector_CR[203]= 89; // CTR DECRYPTION DERIVATION REGISTER ERROR DATATYPE 0 vector_CR[204]= 91; // CTR DECRYPTION DERIVATION REGISTER ERROR DATATYPE 1 vector_CR[205]= 93; // CTR DECRYPTION DERIVATION REGISTER ERROR DATATYPE 2 vector_CR[206]= 95; // CTR DECRYPTION DERIVATION REGISTER ERROR DATATYPE 3 vector_CR[207]= 1113; // CTR DECRYPTION DERIVATION INT_ERR DATATYPE 0 vector_CR[208]= 1115; // CTR DECRYPTION DERIVATION INT_ERR DATATYPE 1 vector_CR[209]= 1117; // CTR DECRYPTION DERIVATION INT_ERR DATATYPE 2 vector_CR[210]= 1119; // CTR DECRYPTION DERIVATION INT_ERR DATATYPE 3 vector_CR[211]= 6233; // CTR DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 0 vector_CR[212]= 6235; // CTR DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 1 vector_CR[213]= 6237; // CTR DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 2 vector_CR[214]= 6239; // CTR DECRYPTION DERIVATION DMA REGISTER ERROR DATATYPE 3 vector_CR[215]= 7257; // CTR DECRYPTION DERIVATION DMA INT_ERR DATATYPE 0 vector_CR[216]= 7259; // CTR DECRYPTION DERIVATION DMA INT_ERR DATATYPE 1 vector_CR[217]= 7261; // CTR DECRYPTION DERIVATION DMA INT_ERR DATATYPE 2 vector_CR[218]= 7263; // CTR DECRYPTION DERIVATION DMA INT_ERR DATATYPE 3 vector_CR[219]= 601; // CTR DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 0 vector_CR[220]= 603; // CTR DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 1 vector_CR[221]= 605; // CTR DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 2 vector_CR[222]= 607; // CTR DECRYPTION DERIVATION INT CCF REGISTER ERROR DATATYPE 3 vector_CR[223]= 1625; // CTR DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 0 vector_CR[224]= 1627; // CTR DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 1 vector_CR[225]= 1629; // CTR DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 2 vector_CR[226]= 1631; // CTR DECRYPTION DERIVATION INT CCF INT_ERR DATATYPE 3 vector_CR[227]= 73; // CTR KEY GENERATION REGISTER ERROR vector_CR[228]= 1097; // CTR KEY GENERATION INT_ERR vector_CR[229]= 6185; // CTR KEY GENERATION DMA REGISTER ERROR vector_CR[230]= 7209; // CTR KEY GENERATION DMA INT_ERR vector_CR[231]= 553; // CTR DECRYPTION DERIVATION INT CCF REGISTER ERROR vector_CR[232]= 1577; // CTR DECRYPTION DERIVATION INT CCF INT_ERR /* ADDR CASES DEFINITIONS */ vector_address[0]= ADDR_AES_CR; vector_address[1]= ADDR_AES_KEYR3; vector_address[2]= ADDR_AES_KEYR2; vector_address[3]= ADDR_AES_KEYR1; vector_address[4]= ADDR_AES_KEYR0; vector_address[5]= ADDR_AES_IVR3; vector_address[6]= ADDR_AES_IVR2; vector_address[7]= ADDR_AES_IVR1; vector_address[8]= ADDR_AES_IVR0; vector_address[9]= ADDR_AES_SR; /* THIS IS TO BE USED LIKE A BACKUP VALUE FROM LAST CR GENERATED ON SUFLE */ last_cr = 0 ; counter_sufle = 0 ; v_initial.format=vpiIntVal; v_initial.value.integer = 0; vpi_put_value(PENABLE, &v_initial, NULL, vpiNoDelay); vpi_put_value(PSEL , &v_initial, NULL, vpiNoDelay); vpi_put_value(PADDR, &v_initial, NULL, vpiNoDelay); vpi_put_value(i, &v_initial, NULL, vpiNoDelay); vpi_put_value(PWRITE, &v_initial, NULL, vpiNoDelay); vpi_put_value(PWDATA, &v_initial, NULL, vpiNoDelay); return 0; }