#include "uart_lowlevel.h"
void rsa_enc(bigint_t* data, rsa_publickey_t* key){
+/*
cli_putstr("\r\n -->rsa_enc()\r\n m = ");
bigint_print_hex(data);
cli_putstr("\r\n e = ");
bigint_print_hex(key->exponent);
cli_putstr("\r\n n = ");
bigint_print_hex(key->modulus);
+*/
bigint_expmod_u(data, data, key->exponent, key->modulus);
}
uint8_t rsa_dec_crt_mono(bigint_t* data, rsa_privatekey_t* key){
bigint_t m1, m2;
- cli_putstr("\r\n --> rsa_dec_crt_mono()");
- uart_flush(0);
m1.wordv = malloc(key->components[0]->length_B * sizeof(bigint_word_t));
m2.wordv = malloc(key->components[1]->length_B * sizeof(bigint_word_t));
if(!m1.wordv || !m2.wordv){
free(m2.wordv);
return 1;
}
- cli_putc('a'); uart_flush(0);
bigint_expmod_u(&m1, data, key->components[2], key->components[0]);
- cli_putc('f'); uart_flush(0);
bigint_expmod_u(&m2, data, key->components[3], key->components[1]);
- cli_putc('b'); uart_flush(0);
bigint_sub_s(&m1, &m1, &m2);
while(BIGINT_NEG_MASK & m1.info){
bigint_add_s(&m1, &m1, key->components[0]);
}
- cli_putc('c'); uart_flush(0);
bigint_reduce(&m1, key->components[0]);
bigint_mul_u(data, &m1, key->components[4]);
- cli_putc('d'); uart_flush(0);
bigint_reduce(data, key->components[0]);
bigint_mul_u(data, data, key->components[1]);
bigint_add_u(data, data, &m2);
- cli_putc('e'); uart_flush(0);
free(m1.wordv);
free(m2.wordv);
return 0;