/* nessie_mac_test.c */
/*
- This file is part of the Crypto-avr-lib/microcrypt-lib.
+ This file is part of the AVR-Crypto-Lib.
Copyright (C) 2008 Daniel Otte (daniel.otte@rub.de)
This program is free software: you can redistribute it and/or modify
uint8_t mac[MACSIZE_B];
uint16_t sl;
- uart_putstr_P(PSTR("\r\n message="));
- uart_putstr(desc);
+ NESSIE_PUTSTR_P(PSTR("\r\n message="));
+ NESSIE_PUTSTR(desc);
PRINTKEY;
nessie_mac_ctx.mac_init(key, nessie_mac_ctx.keysize_b, ctx);
sl = strlen(data);
uint8_t mac[MACSIZE_B];
uint8_t block[nessie_mac_ctx.blocksize_B];
uint32_t n=1000000LL;
+ uint16_t i=0;
- uart_putstr_P(PSTR("\r\n message="));
- uart_putstr_P(PSTR("1 million times \"a\""));
+ NESSIE_PUTSTR_P(PSTR("\r\n message="));
+ NESSIE_PUTSTR_P(PSTR("1 million times \"a\""));
PRINTKEY;
memset(block, 'a', nessie_mac_ctx.blocksize_B);
while(n>nessie_mac_ctx.blocksize_B){
nessie_mac_ctx.mac_next(block, ctx);
n -= nessie_mac_ctx.blocksize_B;
+ NESSIE_SEND_ALIVE_A(i++);
}
nessie_mac_ctx.mac_last(block, n*8, key, nessie_mac_ctx.keysize_b, ctx);
nessie_mac_ctx.mac_conv(mac, ctx);
uint8_t mac[MACSIZE_B];
uint8_t block[nessie_mac_ctx.blocksize_B];
- uart_putstr_P(PSTR("\r\n message="));
+ NESSIE_PUTSTR_P(PSTR("\r\n message="));
if(n>=10000)
- uart_putc('0'+n/10000);
+ NESSIE_PUTC('0'+n/10000);
if(n>=1000)
- uart_putc('0'+(n/1000)%10);
+ NESSIE_PUTC('0'+(n/1000)%10);
if(n>=100)
- uart_putc('0'+(n/100)%10);
+ NESSIE_PUTC('0'+(n/100)%10);
if(n>=10)
- uart_putc('0'+(n/10)%10);
- uart_putc('0'+n%10);
- uart_putstr_P(PSTR(" zero bits"));
+ NESSIE_PUTC('0'+(n/10)%10);
+ NESSIE_PUTC('0'+n%10);
+ NESSIE_PUTSTR_P(PSTR(" zero bits"));
PRINTKEY;
memset(block, 0, nessie_mac_ctx.blocksize_B);
"08", "04", "02", "01" };
pos&=511;
- uart_putstr_P(PSTR("\r\n message="));
- uart_putstr_P(PSTR("512-bit string: "));
+ NESSIE_PUTSTR_P(PSTR("\r\n message="));
+ NESSIE_PUTSTR_P(PSTR("512-bit string: "));
if((pos/8) >=10){
- uart_putc('0'+(pos/8/10)%10);
+ NESSIE_PUTC('0'+(pos/8/10)%10);
} else {
- uart_putc(' ');
+ NESSIE_PUTC(' ');
}
- uart_putc('0'+(pos/8)%10);
- uart_putstr_P(PSTR("*00,"));
- uart_putstr(tab[pos&7]);
- uart_putc(',');
+ NESSIE_PUTC('0'+(pos/8)%10);
+ NESSIE_PUTSTR_P(PSTR("*00,"));
+ NESSIE_PUTSTR(tab[pos&7]);
+ NESSIE_PUTC(',');
if(63-(pos/8) >=10){
- uart_putc('0'+((63-pos/8)/10)%10);
+ NESSIE_PUTC('0'+((63-pos/8)/10)%10);
} else {
- uart_putc(' ');
+ NESSIE_PUTC(' ');
}
- uart_putc('0'+(63-pos/8)%10);
- uart_putstr_P(PSTR("*00"));
+ NESSIE_PUTC('0'+(63-pos/8)%10);
+ NESSIE_PUTSTR_P(PSTR("*00"));
PRINTKEY;
/* now the real stuff */
uint16_t n=256;
uint32_t i;
- uart_putstr_P(PSTR("\r\n message="));
- uart_putstr(PSTR("256 zero bits"));
+ NESSIE_PUTSTR_P(PSTR("\r\n message="));
+ NESSIE_PUTSTR(PSTR("256 zero bits"));
memset(block, 0, 256/8);
nessie_mac_ctx.mac_init(key, nessie_mac_ctx.keysize_b, ctx);;
nessie_mac_ctx.mac_init(key, nessie_mac_ctx.keysize_b, ctx);;
nessie_mac_ctx.mac_last(mac, nessie_mac_ctx.macsize_b, key, nessie_mac_ctx.keysize_b, ctx);
nessie_mac_ctx.mac_conv(mac, ctx);
+ NESSIE_SEND_ALIVE_A(i);
}
nessie_print_item("iterated 100000 times", mac, MACSIZE_B);
}