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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 //// //// /////////////////////////////////////////////////////////////////// #include "../../iverilog/vpi_user.h" //#include <vpi_user.h> #include <iostream> #include <random> s_vpi_value v_generate; s_vpi_value v_ecb; s_vpi_time t_ecb; s_vpi_value v_wr; s_vpi_time t_wr; s_vpi_value v_reset; s_vpi_time t_reset; s_vpi_value v_initial; s_vpi_time t_initial; unsigned long int a; unsigned long int b; unsigned long int c; unsigned long int d; int type_bfm; int STATE; int STATE_RESET; int counter; int flag; int reset_counter; int counter_reset_enter; int counter_reset_wait; int FIPS_ENABLE; int RESET_GENERATED; int PACKETS_GENERATED; int counter_write; int counter_read; int counter_wait; /*AES REGISTERS*/ #define ADDR_AES_CR 0 #define ADDR_AES_SR 4 #define ADDR_AES_DINR 8 #define ADDR_AES_DOUTR 12 #define ADDR_AES_KEYR0 16 #define ADDR_AES_KEYR1 20 #define ADDR_AES_KEYR2 24 #define ADDR_AES_KEYR3 28 #define ADDR_AES_IVR0 32 #define ADDR_AES_IVR1 36 #define ADDR_AES_IVR2 40 #define ADDR_AES_IVR3 44 int vector_address[11]; /*STATE MACHINE TO WORK WITH BFM*/ #define IDLE 0 #define WRITE 1 #define WAIT 2 #define READ_RESULTS 3 #define WRITE_DINR 4 #define READ_DOUTR 5 #define WAIT_SR 6 #define RESET_SR 7 #define READ_KEY_GEN 8 /*STATE MACHINE TO WORK WITH BFM RESET*/ #define ENTER_RESET 9 #define WAIT_RESET 10 #define GET_OUT_RESET 11 #define AES_WR_ONLY 99 #define AES_WR_ERROR_DINR_ONLY 100 #define AES_WR_ERROR_DOUTR_ONLY 100 /*TEST USING NAMES TO ENABLE BFMs*/ #define ECB_ENCRYPTION 1 #define ECB_DECRYPTION 2 #define ECB_KEY_GEN 3 #define ECB_DERIVATION_DECRYPTION 4 #define ECB_ENCRYPTION_DMA 5 #define ECB_DECRYPTION_DMA 6 #define ECB_KEY_GEN_DMA 7 #define ECB_DERIVATION_DECRYPTION_DMA 8 #define ECB_ENCRYPTION_CCFIE 9 #define ECB_DECRYPTION_CCFIE 10 #define ECB_DERIVATION_DECRYPTION_CCFIE 11 #define ECB_KEY_GEN_CCFIE 12 /*TEST USING CBC*/ #define CBC_ENCRYPTION 13 #define CBC_DECRYPTION 14 #define CBC_KEY_GEN 15 #define CBC_DERIVATION_DECRYPTION 16 #define CBC_ENCRYPTION_DMA 17 #define CBC_DECRYPTION_DMA 18 #define CBC_KEY_GEN_DMA 19 #define CBC_DERIVATION_DECRYPTION_DMA 20 #define CBC_ENCRYPTION_CCFIE 21 #define CBC_DECRYPTION_CCFIE 22 #define CBC_DERIVATION_DECRYPTION_CCFIE 23 #define CBC_KEY_GEN_CCFIE 24 /*TEST USING CTR*/ #define CTR_ENCRYPTION 25 #define CTR_DECRYPTION 26 #define CTR_KEY_GEN 27 #define CTR_DERIVATION_DECRYPTION 28 #define CTR_ENCRYPTION_DMA 29 #define CTR_DECRYPTION_DMA 30 #define CTR_KEY_GEN_DMA 31 #define CTR_DERIVATION_DECRYPTION_DMA 32 #define CTR_ENCRYPTION_CCFIE 33 #define CTR_DECRYPTION_CCFIE 34 #define CTR_DERIVATION_DECRYPTION_CCFIE 35 #define CTR_KEY_GEN_CCFIE 36 /*TYPE CONFIGURATION USED TO INSERT DATA ON DUT*/ #define FIPS 0 #define RANDOM_DATA 1 /*MAX PACKETS GENERATION*/ #define MAX_ITERATIONS 17 /*MAX RESET GENERATION */ #define MAX_RESET_TIMES 4 /*THIS INCLUDE IS USED TO GENERATE DATA DO BE INSERTED ON DUT*/ unsigned char TEXT_FIPS_NOT_DERIVATED[] = {0x00,0x11,0x22,0x33,0x44,0x55,0x66,0x77,0x88,0x99,0xAA,0xBB,0xCC,0xDD,0xEE,0xFF}; unsigned char KEY_FIPS_NOT_DERIVATED[] = {0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0A,0x0B,0x0C,0x0D,0x0E,0x0F}; unsigned char TEXT_FIPS_DERIVATED[] = {0x69,0xC4,0xE0,0xD8,0x6A,0x7B,0x04,0x30,0xD8,0xCD,0xB7,0x80,0x70,0xB4,0xC5,0x5A}; unsigned char KEY_FIPS_DERIVATED[] = {0x13,0x11,0x1D,0x7F,0xE3,0x94,0x4A,0x17,0xF3,0x07,0xA7,0x8B,0x4D,0x2B,0x30,0xC5}; unsigned char KEY_FIPS_CBC_NOT_DERIVATED[] = {0x2B,0x7E,0x15,0x16,0x28,0xAE,0xD2,0xA6,0xAB,0xF7,0x15,0x88,0x09,0xCF,0x4F,0x3C}; unsigned char IV_FIPS_CBC_NOT_DERIVATED[] = {0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0A,0x0B,0x0C,0x0D,0x0E,0x0F}; unsigned char TEXT_FIPS_CBC_NOT_DERIVATED[] = {0x6B,0xC1,0xBE,0xE2,0x2E,0x40,0x9F,0x96,0xE9,0x3D,0x7E,0x11,0x73,0x93,0x17,0x2A}; unsigned char TEXT_CBC_FIPS_DERIVATED[] = {0x76,0x49,0xAB,0xAC,0x81,0x19,0xB2,0x46,0xCE,0xE9,0x8E,0x9B,0x12,0xE9,0x19,0x7D}; unsigned char KEY_FIPS_CTR_NOT_DERIVATED[] = {0x2B,0x7E,0x15,0x16,0x28,0xAE,0xD2,0xA6,0xAB,0xF7,0x15,0x88,0x09,0xCF,0x4F,0x3C}; unsigned char IV_FIPS_CTR_NOT_DERIVATED[] = {0xF0,0xF1,0xF2,0xF3,0xF4,0xF5,0xF6,0xF7,0xF8,0xF9,0xFA,0xFB,0xFC,0xFD,0xFE,0xFF}; unsigned char TEXT_FIPS_CTR_NOT_DERIVATED[] = {0x6B,0xC1,0xBE,0xE2,0x2E,0x40,0x9F,0x96,0xE9,0x3D,0x7E,0x11,0x73,0x93,0x17,0x2A}; unsigned char TEXT_CTR_FIPS_DERIVATED[] = {0x87,0x4D,0x61,0x91,0xB6,0x20,0xE3,0x26,0x1B,0xEF,0x68,0x64,0x99,0x0D,0xB6,0xCE}; /*BFM CONTROL FLOW*/ #include "aes_bfm_generate.h" /*BASIC TEST WRITE READ*/ #include "aes_bfm_wr.h" #include "bfm_error/aes_bfm_wr_error_dinr.h" #include "bfm_error/aes_bfm_wr_error_doutr.h" /*ECB TEST CASES*/ #include "bfm_ecb/aes_bfm_encryption_ecb.h" #include "bfm_ecb/aes_bfm_decryption_ecb.h" #include "bfm_ecb/aes_bfm_derivation_decryption_ecb.h" #include "bfm_ecb/aes_bfm_key_generation_ecb.h" #include "bfm_ecb/aes_bfm_decryption_dma_ecb.h" #include "bfm_ecb/aes_bfm_encryption_dma_ecb.h" #include "bfm_ecb/aes_bfm_key_generation_dma_ecb.h" #include "bfm_ecb/aes_bfm_derivation_decryption_dma_ecb.h" #include "bfm_ecb/aes_bfm_encryption_ccfie_ecb.h" #include "bfm_ecb/aes_bfm_decryption_ccfie_ecb.h" #include "bfm_ecb/aes_bfm_derivation_decryption_ccfie_ecb.h" #include "bfm_ecb/aes_bfm_key_generation_ccfie_ecb.h" /*CBC TEST CASES*/ #include "bfm_cbc/aes_bfm_encryption_cbc.h" #include "bfm_cbc/aes_bfm_decryption_cbc.h" #include "bfm_cbc/aes_bfm_derivation_decryption_cbc.h" #include "bfm_cbc/aes_bfm_key_generation_cbc.h" #include "bfm_cbc/aes_bfm_encryption_dma_cbc.h" #include "bfm_cbc/aes_bfm_decryption_dma_cbc.h" #include "bfm_cbc/aes_bfm_derivation_decryption_dma_cbc.h" #include "bfm_cbc/aes_bfm_key_generation_dma_cbc.h" #include "bfm_cbc/aes_bfm_encryption_ccfie_cbc.h" #include "bfm_cbc/aes_bfm_decryption_ccfie_cbc.h" #include "bfm_cbc/aes_bfm_derivation_decryption_ccfie_cbc.h" #include "bfm_cbc/aes_bfm_key_generation_ccfie_cbc.h" /*CTR TEST CASES*/ #include "bfm_ctr/aes_bfm_encryption_ctr.h" #include "bfm_ctr/aes_bfm_decryption_ctr.h" #include "bfm_ctr/aes_bfm_key_generation_ctr.h" #include "bfm_ctr/aes_bfm_derivation_decryption_ctr.h" #include "bfm_ctr/aes_bfm_encryption_dma_ctr.h" #include "bfm_ctr/aes_bfm_decryption_dma_ctr.h" #include "bfm_ctr/aes_bfm_key_generation_dma_ctr.h" #include "bfm_ctr/aes_bfm_derivation_decryption_dma_ctr.h" #include "bfm_ctr/aes_bfm_encryption_ccfie_ctr.h" #include "bfm_ctr/aes_bfm_decryption_ccfie_ctr.h" #include "bfm_ctr/aes_bfm_key_generation_ccfie_ctr.h" #include "bfm_ctr/aes_bfm_derivation_decryption_ccfie_ctr.h" /*ENV CONFIG */ #include "aes_init.h" #include "aes_monitor.h" #include "aes_bfm_reset.h" #include "aes_init_reset.h" void AES_GLADIC_register() { s_vpi_systf_data tf_data; tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_generate_type"; tf_data.calltf = aes_bfm_generate_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_wr_aes128"; tf_data.calltf = aes_bfm_wr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //DMA WITH ERROR tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_wr_error_dinr_aes128"; tf_data.calltf = aes_bfm_wr_error_dinr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_wr_error_doutr_aes128"; tf_data.calltf = aes_bfm_wr_error_doutr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //ECB ENCRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_ecb_aes128"; tf_data.calltf = aes_bfm_encryption_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_ecb_dma_aes128"; tf_data.calltf = aes_bfm_encryption_ecb_dma_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_ccfie_ecb_aes128"; tf_data.calltf = aes_bfm_encryption_ccfie_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CBC ENCRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_cbc_aes128"; tf_data.calltf = aes_bfm_encryption_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_cbc_dma_aes128"; tf_data.calltf = aes_bfm_encryption_cbc_dma_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_ccfie_cbc_aes128"; tf_data.calltf = aes_bfm_encryption_ccfie_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CTR ENCRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_ctr_aes128"; tf_data.calltf = aes_bfm_encryption_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_ctr_dma_aes128"; tf_data.calltf = aes_bfm_encryption_ctr_dma_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_encryption_ccfie_ctr_aes128"; tf_data.calltf = aes_bfm_encryption_ccfie_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //ECB DECRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_ecb_aes128"; tf_data.calltf = aes_bfm_decryption_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_ecb_dma_aes128"; tf_data.calltf = aes_bfm_decryption_ecb_dma_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_ccfie_ecb_aes128"; tf_data.calltf = aes_bfm_decryption_ccfie_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CBC DECRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_cbc_aes128"; tf_data.calltf = aes_bfm_decryption_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_cbc_dma_aes128"; tf_data.calltf = aes_bfm_decryption_cbc_dma_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_ccfie_cbc_aes128"; tf_data.calltf = aes_bfm_decryption_ccfie_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CTR DECRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_ctr_aes128"; tf_data.calltf = aes_bfm_decryption_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_ctr_dma_aes128"; tf_data.calltf = aes_bfm_decryption_ctr_dma_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_decryption_ccfie_ctr_aes128"; tf_data.calltf = aes_bfm_decryption_ccfie_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //ECB DERIVATION DECRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_ecb_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_dma_ecb_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_dma_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_ccfie_ecb_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_ccfie_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CBC DERIVATION DECRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_cbc_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_dma_cbc_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_dma_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_ccfie_cbc_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_ccfie_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CTR DERIVATION DECRYPTION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_ctr_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_dma_ctr_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_dma_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_derivation_decryption_ccfie_ctr_aes128"; tf_data.calltf = aes_bfm_derivation_decryption_ccfie_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //KEY DERIVATION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_ecb_aes128"; tf_data.calltf = aes_bfm_key_generation_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_dma_ecb_aes128"; tf_data.calltf = aes_bfm_key_generation_dma_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_ccfie_ecb_aes128"; tf_data.calltf = aes_bfm_key_generation_ccfie_ecb_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CBC DERIVATION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_cbc_aes128"; tf_data.calltf = aes_bfm_key_generation_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_dma_cbc_aes128"; tf_data.calltf = aes_bfm_key_generation_dma_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_ccfie_cbc_aes128"; tf_data.calltf = aes_bfm_key_generation_ccfie_cbc_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //CTR DERIVATION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_ctr_aes128"; tf_data.calltf = aes_bfm_key_generation_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_dma_ctr_aes128"; tf_data.calltf = aes_bfm_key_generation_dma_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$bfm_key_generation_ccfie_ctr_aes128"; tf_data.calltf = aes_bfm_key_generation_ccfie_ctr_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); // RESET BFM tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$reset_aes128"; tf_data.calltf = aes_reset_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); //ENV CONFIGURATION tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$init"; tf_data.calltf = init_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$init_reset"; tf_data.calltf = init_reset_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); tf_data.type = vpiSysTask; tf_data.sysfunctype = 0; tf_data.tfname = "$monitor_aes"; tf_data.calltf = mon_calltf; tf_data.compiletf = 0; tf_data.sizetf = 0; tf_data.user_data = 0; vpi_register_systf(&tf_data); } void (*vlog_startup_routines[])() = { AES_GLADIC_register, 0 };
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