mirror of
https://github.com/Proxmark/proxmark3.git
synced 2025-08-20 21:33:19 -07:00
Deduplicate mfkey32 and mfkey64
- rename client/nonce2key.[ch] to mfkey.[ch] - leave only main() wrapper in tools/mfkey - add mfkey32 and mfkey64 to .gitignore
This commit is contained in:
pwpiwi
parent
bd2797de15
commit
4cb4b588c2
11 changed files with 193 additions and 170 deletions
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@ -1,10 +1,10 @@
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VPATH = ../../common/crapto1
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VPATH = ../../common/crapto1 ../../client
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CC = gcc
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LD = gcc
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CFLAGS = -I../../common -Wall -O4
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CFLAGS = -I../../common -I../../client -Wall -O4
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LDFLAGS =
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OBJS = crypto1.o crapto1.o
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OBJS = crypto1.o crapto1.o util.o mfkey.o
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EXES = mfkey32 mfkey64
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WINEXES = $(patsubst %, %.exe, $(EXES))
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@ -13,7 +13,7 @@ all: $(OBJS) $(EXES)
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%.o : %.c
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$(CC) $(CFLAGS) -c -o $@ $<
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% : %.c
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% : %.c $(OBJS)
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$(CC) $(CFLAGS) $(LDFLAGS) -o $@ $(OBJS) $<
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clean:
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@ -1,67 +1,77 @@
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#include <inttypes.h>
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#include "crapto1/crapto1.h"
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#include <stdbool.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include "crapto1/crapto1.h"
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#include "mfkey.h"
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#include "util.h"
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// 32 bit recover key from 2 nonces
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#include <stdio.h>
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int main (int argc, char *argv[]) {
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struct Crypto1State *s,*t;
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uint64_t key; // recovered key
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uint32_t uid; // serial number
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uint32_t nt; // tag challenge
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uint32_t nr0_enc; // first encrypted reader challenge
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uint32_t ar0_enc; // first encrypted reader response
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uint32_t nr1_enc; // second encrypted reader challenge
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uint32_t ar1_enc; // second encrypted reader response
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uint32_t ks2; // keystream used to encrypt reader response
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printf("MIFARE Classic key recovery - based 32 bits of keystream\n");
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nonces_t data;
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uint32_t ks2; // keystream used to encrypt reader response
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uint64_t key; // recovered key
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printf("MIFARE Classic key recovery - based on 32 bits of keystream\n");
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printf("Recover key from two 32-bit reader authentication answers only!\n\n");
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if (argc < 7) {
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printf(" syntax: %s <uid> <nt> <{nr_0}> <{ar_0}> <{nr_1}> <{ar_1}>\n\n",argv[0]);
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if (argc != 7 && argc != 8) {
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printf(" syntax: %s <uid> <nt0> <{nr_0}> <{ar_0}> [<nt1>] <{nr_1}> <{ar_1}>\n", argv[0]);
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printf(" (you may omit nt1 if it is equal to nt0)\n\n");
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return 1;
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}
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sscanf(argv[1],"%x",&uid);
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sscanf(argv[2],"%x",&nt);
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sscanf(argv[3],"%x",&nr0_enc);
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sscanf(argv[4],"%x",&ar0_enc);
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sscanf(argv[5],"%x",&nr1_enc);
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sscanf(argv[6],"%x",&ar1_enc);
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bool moebius_attack = (argc == 8);
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sscanf(argv[1],"%x",&data.cuid);
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sscanf(argv[2],"%x",&data.nonce);
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data.nonce2 = data.nonce;
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sscanf(argv[3],"%x",&data.nr);
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sscanf(argv[4],"%x",&data.ar);
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if (moebius_attack) {
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sscanf(argv[5],"%x",&data.nonce2);
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sscanf(argv[6],"%x",&data.nr2);
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sscanf(argv[7],"%x",&data.ar2);
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} else {
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sscanf(argv[5],"%x",&data.nr2);
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sscanf(argv[6],"%x",&data.ar2);
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}
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printf("Recovering key for:\n");
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printf(" uid: %08x\n",uid);
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printf(" nt: %08x\n",nt);
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printf(" {nr_0}: %08x\n",nr0_enc);
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printf(" {ar_0}: %08x\n",ar0_enc);
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printf(" {nr_1}: %08x\n",nr1_enc);
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printf(" {ar_1}: %08x\n",ar1_enc);
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printf(" uid: %08x\n",data.cuid);
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printf(" nt0: %08x\n",data.nonce);
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printf(" {nr_0}: %08x\n",data.nr);
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printf(" {ar_0}: %08x\n",data.ar);
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printf(" nt1: %08x\n",data.nonce2);
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printf(" {nr_1}: %08x\n",data.nr2);
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printf(" {ar_1}: %08x\n",data.ar2);
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uint64_t start_time = msclock();
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// Generate lfsr succesors of the tag challenge
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printf("\nLFSR succesors of the tag challenge:\n");
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printf(" nt': %08x\n",prng_successor(nt, 64));
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printf(" nt'': %08x\n",prng_successor(nt, 96));
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printf(" nt': %08x\n",prng_successor(data.nonce, 64));
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printf(" nt'': %08x\n",prng_successor(data.nonce, 96));
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// Extract the keystream from the messages
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printf("\nKeystream used to generate {ar} and {at}:\n");
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ks2 = ar0_enc ^ prng_successor(nt, 64);
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ks2 = data.ar ^ prng_successor(data.nonce, 64);
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printf(" ks2: %08x\n",ks2);
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s = lfsr_recovery32(ar0_enc ^ prng_successor(nt, 64), 0);
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for(t = s; t->odd | t->even; ++t) {
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lfsr_rollback_word(t, 0, 0);
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lfsr_rollback_word(t, nr0_enc, 1);
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lfsr_rollback_word(t, uid ^ nt, 0);
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crypto1_get_lfsr(t, &key);
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crypto1_word(t, uid ^ nt, 0);
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crypto1_word(t, nr1_enc, 1);
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if (ar1_enc == (crypto1_word(t, 0, 0) ^ prng_successor(nt, 64))) {
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printf("\nFound Key: [%012" PRIx64 "]\n\n",key);
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break;
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}
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bool success;
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if (moebius_attack) {
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success = mfkey32_moebius(data, &key);
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} else {
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success = mfkey32(data, &key);
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}
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if (success) {
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printf("Recovered key: %012" PRIx64 "\n", key);
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} else {
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printf("Couldn't recover key.\n");
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}
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free(s);
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return 0;
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printf("Time spent: %1.2f seconds\n", (float)(msclock() - start_time)/1000.0);
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}
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@ -1,105 +1,101 @@
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#include <stdio.h>
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#include <strings.h>
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#include <inttypes.h>
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#include "crapto1/crapto1.h"
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#include <stdio.h>
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#include <string.h>
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#include "util.h"
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int main (int argc, char *argv[]) {
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struct Crypto1State *revstate;
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uint64_t key; // recovered key
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uint32_t uid; // serial number
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uint32_t nt; // tag challenge
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uint32_t nr_enc; // encrypted reader challenge
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uint32_t ar_enc; // encrypted reader response
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uint32_t at_enc; // encrypted tag response
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uint32_t ks2; // keystream used to encrypt reader response
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uint32_t ks3; // keystream used to encrypt tag response
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int main (int argc, char *argv[])
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{
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uint32_t uid; // serial numDber
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uint32_t nt; // tag challenge
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uint32_t nr_enc; // encrypted reader challenge
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uint32_t ar_enc; // encrypted reader response
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uint32_t at_enc; // encrypted tag response
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uint64_t key = 0; // recovered key
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struct Crypto1State *revstate;
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uint32_t ks2; // keystream used to encrypt reader response
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uint32_t ks3; // keystream used to encrypt tag response
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printf("MIFARE Classic key recovery - based 64 bits of keystream\n");
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printf("Recover key from only one complete authentication!\n\n");
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printf("MIFARE Classic key recovery - based on 64 bits of keystream\n");
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printf("Recover key from only one complete authentication!\n\n");
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if (argc < 6 ) {
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printf(" syntax: %s <uid> <nt> <{nr}> <{ar}> <{at}> [enc] [enc...]\n\n", argv[0]);
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return 1;
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}
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if (argc < 6 ) {
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printf(" syntax: %s <uid> <nt> <{nr}> <{ar}> <{at}> [enc] [enc...]\n\n", argv[0]);
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return 1;
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}
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int encc = argc - 6;
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int enclen[encc];
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uint8_t enc[encc][120];
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int encc = argc - 6;
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int enclen[encc];
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uint8_t enc[encc][120];
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sscanf(argv[1], "%x", &uid);
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sscanf(argv[2], "%x", &nt);
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sscanf(argv[3], "%x", &nr_enc);
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sscanf(argv[4], "%x", &ar_enc);
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sscanf(argv[5], "%x", &at_enc);
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for (int i = 0; i < encc; i++) {
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enclen[i] = strlen(argv[i + 6]) / 2;
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for (int i2 = 0; i2 < enclen[i]; i2++) {
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sscanf(argv[i+6] + i2*2,"%2x", (unsigned int *)&enc[i][i2]);
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}
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}
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printf("Recovering key for:\n");
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sscanf(argv[1], "%x", &uid);
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sscanf(argv[2], "%x", &nt);
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sscanf(argv[3], "%x", &nr_enc);
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sscanf(argv[4], "%x", &ar_enc);
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sscanf(argv[5], "%x", &at_enc);
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for (int i = 0; i < encc; i++) {
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enclen[i] = strlen(argv[i + 6]) / 2;
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for (int i2 = 0; i2 < enclen[i]; i2++) {
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sscanf(argv[i+6] + i2*2,"%2x", (unsigned int*)&enc[i][i2]);
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}
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}
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printf(" uid: %08x\n", uid);
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printf(" nt: %08x\n", nt);
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printf(" {nr}: %08x\n", nr_enc);
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printf(" {ar}: %08x\n", ar_enc);
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printf(" {at}: %08x\n", at_enc);
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for (int i = 0; i < encc; i++) {
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printf("{enc%d}: ", i);
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for (int i2 = 0; i2 < enclen[i]; i2++) {
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printf("%02x", enc[i][i2]);
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}
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printf("\n");
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}
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printf("Recovering key for:\n");
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printf(" uid: %08x\n", uid);
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printf(" nt: %08x\n", nt);
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printf(" {nr}: %08x\n", nr_enc);
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printf(" {ar}: %08x\n", ar_enc);
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printf(" {at}: %08x\n", at_enc);
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for (int i = 0; i < encc; i++) {
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printf("{enc%d}: ", i);
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for (int i2 = 0; i2 < enclen[i]; i2++) {
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printf("%02x", enc[i][i2]);
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}
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printf("\n");
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}
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printf("\nLFSR successors of the tag challenge:\n");
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printf(" nt' : %08x\n",prng_successor(nt, 64));
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printf(" nt'': %08x\n",prng_successor(nt, 96));
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/*
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uint32_t uid = 0x9c599b32;
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uint32_t tag_challenge = 0x82a4166c;
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uint32_t nr_enc = 0xa1e458ce;
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uint32_t reader_response = 0x6eea41e0;
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uint32_t tag_response = 0x5cadf439;
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*/
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// Generate lfsr succesors of the tag challenge
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printf("\nLFSR succesors of the tag challenge:\n");
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printf(" nt': %08x\n",prng_successor(nt, 64));
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printf(" nt'': %08x\n",prng_successor(nt, 96));
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// Extract the keystream from the messages
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ks2 = ar_enc ^ prng_successor(nt, 64);
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ks3 = at_enc ^ prng_successor(nt, 96);
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uint64_t start_time = msclock();
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revstate = lfsr_recovery64(ks2, ks3);
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uint64_t time_spent = msclock() - start_time;
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printf("Time spent in lfsr_recovery64(): %1.2f seconds\n", (float)time_spent/1000.0);
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printf("\nKeystream used to generate {ar} and {at}:\n");
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printf(" ks2: %08x\n",ks2);
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printf(" ks3: %08x\n",ks3);
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// Extract the keystream from the messages
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printf("\nKeystream used to generate {ar} and {at}:\n");
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ks2 = ar_enc ^ prng_successor(nt, 64);
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ks3 = at_enc ^ prng_successor(nt, 96);
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printf(" ks2: %08x\n",ks2);
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printf(" ks3: %08x\n",ks3);
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// Decrypting communication using keystream if presented
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if (argc > 6 ) {
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printf("\nDecrypted communication:\n");
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uint8_t ks4;
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int rollb = 0;
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for (int i = 0; i < encc; i++) {
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printf("{dec%d}: ", i);
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for (int i2 = 0; i2 < enclen[i]; i2++) {
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ks4 = crypto1_byte(revstate, 0, 0);
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printf("%02x", ks4 ^ enc[i][i2]);
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rollb += 1;
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}
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printf("\n");
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}
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for (int i = 0; i < rollb; i++) {
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lfsr_rollback_byte(revstate, 0, 0);
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}
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}
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revstate = lfsr_recovery64(ks2, ks3);
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lfsr_rollback_word(revstate, 0, 0);
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lfsr_rollback_word(revstate, 0, 0);
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lfsr_rollback_word(revstate, nr_enc, 1);
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lfsr_rollback_word(revstate, uid ^ nt, 0);
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crypto1_get_lfsr(revstate, &key);
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crypto1_destroy(revstate);
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// Decrypting communication using keystream if presented
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if (argc > 6 ) {
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printf("\nDecrypted communication:\n");
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uint8_t ks4;
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int rollb = 0;
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for (int i = 0; i < encc; i++) {
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printf("{dec%d}: ", i);
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for (int i2 = 0; i2 < enclen[i]; i2++) {
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ks4 = crypto1_byte(revstate, 0, 0);
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printf("%02x", ks4 ^ enc[i][i2]);
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rollb += 1;
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}
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printf("\n");
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}
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for (int i = 0; i < rollb; i++) {
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lfsr_rollback_byte(revstate, 0, 0);
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}
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}
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lfsr_rollback_word(revstate, 0, 0);
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lfsr_rollback_word(revstate, 0, 0);
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lfsr_rollback_word(revstate, nr_enc, 1);
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lfsr_rollback_word(revstate, uid ^ nt, 0);
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crypto1_get_lfsr(revstate, &key);
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printf("\nFound Key: [%012" PRIx64"]\n\n",key);
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crypto1_destroy(revstate);
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return 0;
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printf("\nFound Key: [%012" PRIx64"]\n\n",key);
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}
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