/* * $Source$ * $Author$ * * Copyright 1988 by the Massachusetts Institute of Technology. * * For copying and distribution information, please see the file * . * * Program to test the correctness of the DES library * implementation. * * exit returns 0 ==> success * -1 ==> error */ #ifndef lint static char rcsid_verify_c[] = "$Id$"; #endif #include #include #include #include extern char *errmsg(); extern int errno; extern int des_string_to_key(); extern int des_key_sched(); extern int des_ecb_encrypt(); extern int des_cbc_encrypt(); extern exit(); char *progname; int nflag = 2; int vflag; int mflag; int zflag; int pid; int des_debug; des_key_schedule KS; unsigned char cipher_text[64]; unsigned char clear_text[64] = "Now is the time for all " ; unsigned char clear_text2[64] = "7654321 Now is the time for "; unsigned char clear_text3[64] = {2,0,0,0, 1,0,0,0}; unsigned char output[64]; unsigned char zero_text[8] = {0x0,0,0,0,0,0,0,0}; unsigned char msb_text[8] = {0x0,0,0,0, 0,0,0,0x40}; /* to ANSI MSB */ unsigned char *input; /* 0x0123456789abcdef */ unsigned char default_key[8] = { 0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef }; unsigned char key2[8] = { 0x08,0x19,0x2a,0x3b,0x4c,0x5d,0x6e,0x7f }; unsigned char key3[8] = { 0x80,1,1,1,1,1,1,1 }; des_cblock s_key; unsigned char default_ivec[8] = { 0x12,0x34,0x56,0x78,0x90,0xab,0xcd,0xef }; unsigned char *ivec; unsigned char zero_key[8] = {1,1,1,1,1,1,1,1}; /* just parity bits */ int i,j; /* * Can also add : * plaintext = 0, key = 0, cipher = 0x8ca64de9c1b123a7 (or is it a 1?) */ main(argc,argv) int argc; char *argv[]; { /* Local Declarations */ long in_length; progname=argv[0]; /* salt away invoking program */ /* Assume a u_int32 is four bytes */ if (sizeof(u_int32) != 4) { printf("\nERROR, size of long is %d",sizeof(u_int32)); exit(-1); } while (--argc > 0 && (*++argv)[0] == '-') for (i=1; argv[0][i] != '\0'; i++) { switch (argv[0][i]) { /* debug flag */ case 'd': des_debug=3; continue; case 'z': zflag = 1; continue; case 'm': mflag = 1; continue; default: printf("%s: illegal flag \"%c\" ", progname,argv[0][i]); exit(1); } }; if (argc) { fprintf(stderr, "Usage: %s [-dmz]\n", progname); exit(1); } /* use known input and key */ /* ECB zero text zero key */ if (zflag) { input = zero_text; des_key_sched(zero_key,KS); printf("plaintext = key = 0, cipher = 0x8ca64de9c1b123a7\n"); do_encrypt(input,cipher_text); printf("\tcipher = (low to high bytes)\n\t\t"); for (j = 0; j<=7; j++) printf("%02x ",cipher_text[j]); printf("\n"); do_decrypt(output,cipher_text); return(0); } if (mflag) { input = msb_text; des_key_sched(key3,KS); printf("plaintext = 0x00 00 00 00 00 00 00 40, "); printf("key = 0, cipher = 0x??\n"); do_encrypt(input,cipher_text); printf("\tcipher = (low to high bytes)\n\t\t"); for (j = 0; j<=7; j++) { printf("%02x ",cipher_text[j]); } printf("\n"); do_decrypt(output,cipher_text); return(0); } /* ECB mode Davies and Price */ { input = zero_text; des_key_sched(key2,KS); printf("Examples per FIPS publication 81, keys ivs and cipher\n"); printf("in hex. These are the correct answers, see below for\n"); printf("the actual answers.\n\n"); printf("Examples per Davies and Price.\n\n"); printf("EXAMPLE ECB\tkey = 08192a3b4c5d6e7f\n"); printf("\tclear = 0\n"); printf("\tcipher = 25 dd ac 3e 96 17 64 67\n"); printf("ACTUAL ECB\n"); printf("\tclear \"%s\"\n", input); do_encrypt(input,cipher_text); printf("\tcipher = (low to high bytes)\n\t\t"); for (j = 0; j<=7; j++) printf("%02x ",cipher_text[j]); printf("\n\n"); do_decrypt(output,cipher_text); } /* ECB mode */ { des_key_sched(default_key,KS); input = clear_text; ivec = default_ivec; printf("EXAMPLE ECB\tkey = 0123456789abcdef\n"); printf("\tclear = \"Now is the time for all \"\n"); printf("\tcipher = 3f a4 0e 8a 98 4d 48 15 ...\n"); printf("ACTUAL ECB\n\tclear \"%s\"",input); do_encrypt(input,cipher_text); printf("\n\tcipher = (low to high bytes)\n\t\t"); for (j = 0; j<=7; j++) { printf("%02x ",cipher_text[j]); } printf("\n\n"); do_decrypt(output,cipher_text); } /* CBC mode */ printf("EXAMPLE CBC\tkey = 0123456789abcdef"); printf("\tiv = 1234567890abcdef\n"); printf("\tclear = \"Now is the time for all \"\n"); printf("\tcipher =\te5 c7 cd de 87 2b f2 7c\n"); printf("\t\t\t43 e9 34 00 8c 38 9c 0f\n"); printf("\t\t\t68 37 88 49 9a 7c 05 f6\n"); printf("ACTUAL CBC\n\tclear \"%s\"\n",input); in_length = strlen(input); des_cbc_encrypt(input,cipher_text,(long) in_length,KS,ivec,1); printf("\tciphertext = (low to high bytes)\n"); for (i = 0; i <= 7; i++) { printf("\t\t"); for (j = 0; j <= 7; j++) { printf("%02x ",cipher_text[i*8+j]); } printf("\n"); } des_cbc_encrypt(cipher_text,clear_text,(long) in_length,KS,ivec,0); printf("\tdecrypted clear_text = \"%s\"\n",clear_text); printf("EXAMPLE CBC checksum"); printf("\tkey = 0123456789abcdef\tiv = 1234567890abcdef\n"); printf("\tclear =\t\t\"7654321 Now is the time for \"\n"); printf("\tchecksum\t58 d2 e7 7e 86 06 27 33, "); printf("or some part thereof\n"); input = clear_text2; des_cbc_cksum(input,cipher_text,(long) strlen(input),KS,ivec,1); printf("ACTUAL CBC checksum\n"); printf("\t\tencrypted cksum = (low to high bytes)\n\t\t"); for (j = 0; j<=7; j++) printf("%02x ",cipher_text[j]); printf("\n\n"); exit(0); } flip(array) char *array; { register int old,new,i,j; /* flips the bit order within each byte from 0 lsb to 0 msb */ for (i = 0; i<=7; i++) { old = *array; new = 0; for (j = 0; j<=7; j++) { if (old & 01) new = new | 01; if (j < 7) { old = old >> 1; new = new << 1; } } *array = new; array++; } } do_encrypt(in,out) char *in; char *out; { for (i =1; i<=nflag; i++) { des_ecb_encrypt(in,out,KS,1); if (des_debug) { printf("\nclear %s\n",in); for (j = 0; j<=7; j++) printf("%02X ",in[j] & 0xff); printf("\tcipher "); for (j = 0; j<=7; j++) printf("%02X ",out[j] & 0xff); } } } do_decrypt(in,out) char *out; char *in; /* try to invert it */ { for (i =1; i<=nflag; i++) { des_ecb_encrypt(out,in,KS,0); if (des_debug) { printf("clear %s\n",in); for (j = 0; j<=7; j++) printf("%02X ",in[j] & 0xff); printf("\tcipher "); for (j = 0; j<=7; j++) printf("%02X ",out[j] & 0xff); } } }