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avr-crypto-lib/nessie_common.c

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/**
*
* author: Daniel Otte
* email: daniel.otte@rub.de
* license: GPLv3
*
* common function for nessie-tests
*
* */
#include <string.h>
#include <stdint.h>
#include <avr/pgmspace.h>
#include <stdlib.h> /* utoa() */
#include "uart.h"
void nessie_print_block(uint8_t* block, uint16_t blocksize_bit){
char tab [] = {'0', '1', '2', '3',
'4', '5', '6', '7',
'8', '9', 'A', 'B',
'C', 'D', 'E', 'F'};
uint16_t i;
for(i=0; i<(blocksize_bit+7)/8; ++i){
uart_putc(tab[(block[i])>>4]);
uart_putc(tab[(block[i])&0xf]);
}
}
#define SPACES 31
#define BYTESPERLINE 16
void nessie_print_item(char* name, uint8_t* buffer, uint16_t size_B){
uint8_t name_len;
uint8_t i;
name_len=strlen(name);
if(name_len>SPACES-1){
uart_putstr_P(PSTR("\r\n!!! formatting error !!!\r\n"));
return;
}
uart_putstr_P(PSTR("\r\n"));
for(i=0; i<SPACES-name_len-1; ++i){
uart_putc(' ');
}
uart_putstr(name);
uart_putc('=');
/* now the data printing begins */
if(size_B<=BYTESPERLINE){
/* one line seems sufficient */
nessie_print_block(buffer, size_B*8);
} else {
/* we need more lines */
nessie_print_block(buffer, BYTESPERLINE*8); /* first line */
int16_t toprint = size_B - BYTESPERLINE;
buffer += BYTESPERLINE;
while(toprint > 0){
uart_putstr_P(PSTR("\r\n"));
for(i=0; i<SPACES; ++i){
uart_putc(' ');
}
nessie_print_block(buffer, ((toprint>BYTESPERLINE)?BYTESPERLINE:toprint)*8);
buffer += BYTESPERLINE;
toprint -= BYTESPERLINE;
}
}
}
void nessie_print_set_vector(uint8_t set, uint16_t vector){
uart_putstr_P(PSTR("\r\n\r\nSet "));
uart_putc('0'+set%10);
uart_putstr_P(PSTR(", vector#"));
uart_putc((vector<100)?' ':'0'+vector/100);
uart_putc((vector<10 )?' ':'0'+(vector/10)%10);
uart_putc('0'+vector%10);
uart_putc(':');
}
/* example:
Test vectors -- set 3
=====================
*/
void nessie_print_setheader(uint8_t set){
uart_putstr_P(PSTR("\r\n\r\nTest vectors -- set "));
uart_putc('0'+set%10);
uart_putstr_P(PSTR("\r\n====================="));
}
/* example:
********************************************************************************
*Project NESSIE - New European Schemes for Signature, Integrity, and Encryption*
********************************************************************************
Primitive Name: Serpent
=======================
Key size: 256 bits
Block size: 128 bits
*/
void nessie_print_header(char* name,
uint16_t keysize_b,
uint16_t blocksize_b,
uint16_t hashsize_b,
uint16_t macsize_b,
uint16_t ivsize_b ){
uint16_t i;
uart_putstr_P(PSTR("\r\n\r\n"
"********************************************************************************\r\n"
"* micro-crypt - crypto primitives for microcontrolles by Daniel Otte *\r\n"
"********************************************************************************\r\n"
"\r\n"));
uart_putstr_P(PSTR("Primitive Name: "));
uart_putstr(name);
uart_putstr_P(PSTR("\r\n"));
/* underline */
for(i=0; i<16+strlen(name); ++i){
uart_putc('=');
}
char str[6]; /* must catch numbers up to 65535 + terminatin \0 */
if(keysize_b){
uart_putstr_P(PSTR("\r\nKey size: "));
utoa(keysize_b, str, 10);
uart_putstr(str);
uart_putstr_P(PSTR(" bits"));
}
if(blocksize_b){
uart_putstr_P(PSTR("\r\nBlock size: "));
utoa(blocksize_b, str, 10);
uart_putstr(str);
uart_putstr_P(PSTR(" bits"));
}
if(hashsize_b){
uart_putstr_P(PSTR("\r\nHash size: "));
utoa(hashsize_b, str, 10);
uart_putstr(str);
uart_putstr_P(PSTR(" bits"));
}
if(macsize_b){
uart_putstr_P(PSTR("\r\nMac size: "));
utoa(macsize_b, str, 10);
uart_putstr(str);
uart_putstr_P(PSTR(" bits"));
}
if(ivsize_b){
if(ivsize_b==(uint16_t)-1){
uart_putstr_P(PSTR("\r\nNo initial value (IV) mode"));
}
{
uart_putstr_P(PSTR("\r\nIV size: "));
utoa(ivsize_b, str, 10);
uart_putstr(str);
uart_putstr_P(PSTR(" bits"));
}
}
uart_putstr_P(PSTR("\r\n"));
}
void nessie_print_footer(void){
uart_putstr_P(PSTR("\r\n\r\n\r\n\r\nEnd of test vectors\r\n\r\n"));
}
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