lf ask consolidation

[proxmark3-svn] / client / cmdlft55xx.c

//-----------------------------------------------------------------------------
//
// This code is licensed to you under the terms of the GNU GPL, version 2 or,
// at your option, any later version. See the LICENSE.txt file for the text of
// the license.
//-----------------------------------------------------------------------------
// Low frequency T55xx commands
//-----------------------------------------------------------------------------

#include <stdio.h>
#include <string.h>
#include <inttypes.h>
#include <time.h>
#include "proxmark3.h"
#include "ui.h"
#include "graph.h"
#include "cmdmain.h"
#include "cmdparser.h"
#include "cmddata.h"
#include "cmdlf.h"
#include "cmdlft55xx.h"
#include "util.h"
#include "data.h"
#include "lfdemod.h"
#include "../common/crc.h"
#include "../common/iso14443crc.h"
#include "cmdhf14a.h"

#define CONFIGURATION_BLOCK 0x00
#define TRACE_BLOCK 0x01

// Default configuration
t55xx_conf_block_t config = { .modulation = DEMOD_ASK, .inverted = FALSE, .offset = 0x00, .block0 = 0x00};

int usage_t55xx_config(){
        PrintAndLog("Usage: lf t55xx config [d <demodulation>] [i 1] [o <offset>]");
        PrintAndLog("Options:        ");
        PrintAndLog("       h                        This help");
        PrintAndLog("       b <8|16|32|40|50|64|100|128>     Set bitrate");
        PrintAndLog("       d <FSK|FSK1|FSK1a|FSK2|FSK2a|ASK|PSK1|PSK2|NZ|BI|BIa>  Set demodulation FSK / ASK / PSK / NZ / Biphase / Biphase A");
        PrintAndLog("       i [1]                            Invert data signal, defaults to normal");
        PrintAndLog("       o [offset]                       Set offset, where data should start decode in bitstream");
        PrintAndLog("");
        PrintAndLog("Examples:");
        PrintAndLog("      lf t55xx config d FSK          - FSK demodulation");
        PrintAndLog("      lf t55xx config d FSK i 1      - FSK demodulation, inverse data");
        PrintAndLog("      lf t55xx config d FSK i 1 o 3  - FSK demodulation, inverse data, offset=3,start from position 3 to decode data");
        PrintAndLog("");
        return 0;
}
int usage_t55xx_read(){
        PrintAndLog("Usage:  lf t55xx read <block> <password>");
    PrintAndLog("     <block>, block number to read. Between 0-7");
    PrintAndLog("     <password>, OPTIONAL password (8 hex characters)");
    PrintAndLog("");
        PrintAndLog("Examples:");
    PrintAndLog("      lf t55xx read 0           - read data from block 0");
        PrintAndLog("      lf t55xx read 0 feedbeef  - read data from block 0 password feedbeef");
        PrintAndLog("");
        return 0;
}
int usage_t55xx_write(){
        PrintAndLog("Usage:  lf t55xx wr <block> <data> [password]");
    PrintAndLog("     <block>, block number to read. Between 0-7");
        PrintAndLog("     <data>,  4 bytes of data to write (8 hex characters)");
    PrintAndLog("     [password], OPTIONAL password 4bytes (8 hex characters)");
    PrintAndLog("");
        PrintAndLog("Examples:");
    PrintAndLog("      lf t55xx wd 3 11223344           - write 11223344 to block 3");
        PrintAndLog("      lf t55xx wd 3 11223344 feedbeef  - write 11223344 to block 3 password feedbeef");
        PrintAndLog("");
        return 0;
}
int usage_t55xx_trace() {
        PrintAndLog("Usage:  lf t55xx trace [1]");
        PrintAndLog("     [graph buffer data], if set, use Graphbuffer otherwise read data from tag.");
        PrintAndLog("");
        PrintAndLog("Examples:");
        PrintAndLog("      lf t55xx trace");
        PrintAndLog("      lf t55xx trace 1");
        PrintAndLog("");
        return 0;
}
int usage_t55xx_info() {
        PrintAndLog("Usage:  lf t55xx info [1]");
        PrintAndLog("     [graph buffer data], if set, use Graphbuffer otherwise read data from tag.");
        PrintAndLog("");
        PrintAndLog("Examples:");
        PrintAndLog("      lf t55xx info");
        PrintAndLog("      lf t55xx info 1");
        PrintAndLog("");
        return 0;
}
int usage_t55xx_dump(){
        PrintAndLog("Usage:  lf t55xx dump <password>");
    PrintAndLog("     <password>, OPTIONAL password 4bytes (8 hex symbols)");
        PrintAndLog("");
        PrintAndLog("Examples:");
        PrintAndLog("      lf t55xx dump");
        PrintAndLog("      lf t55xx dump feedbeef");
        PrintAndLog("");
        return 0;
}
int usage_t55xx_detect(){
        PrintAndLog("Usage:  lf t55xx detect");
        PrintAndLog("");
        PrintAndLog("Examples:");
        PrintAndLog("      lf t55xx detect");
        PrintAndLog("      lf t55xx detect 1");
        PrintAndLog("");
        return 0;
}

static int CmdHelp(const char *Cmd);

int CmdT55xxSetConfig(const char *Cmd) {

        uint8_t offset = 0;
        bool errors = FALSE;
        uint8_t cmdp = 0;
        char modulation[5] = {0x00};
        char tmp = 0x00;
        uint8_t bitRate = 0;
        uint8_t rates[9] = {8,16,32,40,50,64,100,128,0};
        while(param_getchar(Cmd, cmdp) != 0x00 && !errors)
        {
                tmp = param_getchar(Cmd, cmdp);
                switch(tmp)
                {
                case 'h':
                case 'H':
                        return usage_t55xx_config();
                case 'b':
                        errors |= param_getdec(Cmd, cmdp+1, &bitRate);
                        if ( !errors){
                                uint8_t i = 0;
                                for (; i < 9; i++){
                                        if (rates[i]==bitRate) {
                                                config.bitrate = i;
                                                break;
                                        }
                                }
                                if (i==9) errors = TRUE;
                        }
                        cmdp+=2;
                        break;
                case 'd':
                        param_getstr(Cmd, cmdp+1, modulation);
                        cmdp += 2;

                        if ( strcmp(modulation, "FSK" ) == 0) {
                                config.modulation = DEMOD_FSK;
                        } else if ( strcmp(modulation, "FSK1" ) == 0) {
                                config.modulation = DEMOD_FSK1;
                                config.inverted=1;
                        } else if ( strcmp(modulation, "FSK1a" ) == 0) {
                                config.modulation = DEMOD_FSK1a;
                                config.inverted=0;
                        } else if ( strcmp(modulation, "FSK2" ) == 0) {
                                config.modulation = DEMOD_FSK2;
                                config.inverted=0;
                        } else if ( strcmp(modulation, "FSK2a" ) == 0) {
                                config.modulation = DEMOD_FSK2a;
                                config.inverted=1;
                        } else if ( strcmp(modulation, "ASK" ) == 0) {
                                config.modulation = DEMOD_ASK;
                        } else if ( strcmp(modulation, "NRZ" ) == 0) {
                                config.modulation = DEMOD_NRZ;
                        } else if ( strcmp(modulation, "PSK1" ) == 0) {
                                config.modulation = DEMOD_PSK1;
                        } else if ( strcmp(modulation, "PSK2" ) == 0) {
                                config.modulation = DEMOD_PSK2;
                        } else if ( strcmp(modulation, "PSK3" ) == 0) {
                                config.modulation = DEMOD_PSK3;
                        } else if ( strcmp(modulation, "BIa" ) == 0) {
                                config.modulation = DEMOD_BIa;
                                config.inverted=1;
                        } else if ( strcmp(modulation, "BI" ) == 0) {
                                config.modulation = DEMOD_BI;
                                config.inverted=0;
                        } else {
                                PrintAndLog("Unknown modulation '%s'", modulation);
                                errors = TRUE;
                        }
                        break;
                case 'i':
                        config.inverted = param_getchar(Cmd,cmdp+1) == '1';
                        cmdp+=2;
                        break;
                case 'o':
                        errors |= param_getdec(Cmd, cmdp+1, &offset);
                        if ( !errors )
                                config.offset = offset;
                        cmdp+=2;
                        break;
                default:
                        PrintAndLog("Unknown parameter '%c'", param_getchar(Cmd, cmdp));
                        errors = TRUE;
                        break;
                }
        }

        // No args
        if (cmdp == 0) {
                printConfiguration( config );
                return 0;
        }
        //Validations
        if (errors)
                return usage_t55xx_config();

        config.block0 = 0;
        printConfiguration ( config );
        return 0;
}

int CmdT55xxReadBlock(const char *Cmd) {
        int block = -1;
        int password = 0xFFFFFFFF; //default to blank Block 7

        char cmdp = param_getchar(Cmd, 0);
        if (cmdp == 'h' || cmdp == 'H')
                return usage_t55xx_read();

        int res = sscanf(Cmd, "%d %x", &block, &password);

        if ( res < 1 || res > 2 )
                return usage_t55xx_read();

        
        if ((block < 0) | (block > 7)) {
                PrintAndLog("Block must be between 0 and 7");
                return 1;
        }       

        UsbCommand c = {CMD_T55XX_READ_BLOCK, {0, block, 0}};
        c.d.asBytes[0] = 0x0; 

        //Password mode
        if ( res == 2 ) {
                c.arg[2] = password;
                c.d.asBytes[0] = 0x1; 
        }

        SendCommand(&c);
        if ( !WaitForResponseTimeout(CMD_ACK,NULL,2500) ) {
                PrintAndLog("command execution time out");
                return 2;
        }
        
        uint8_t got[12000];
        GetFromBigBuf(got,sizeof(got),0);
        WaitForResponse(CMD_ACK,NULL);
        setGraphBuf(got, 12000);
        DemodBufferLen=0;
        if (!DecodeT55xxBlock()) return 3;
        char blk[10]={0};
        sprintf(blk,"%d", block);
        printT55xxBlock(blk);
        return 0;
}

bool DecodeT55xxBlock(){
        
        char buf[30] = {0x00};
        char *cmdStr = buf;
        int ans = 0;
        uint8_t bitRate[8] = {8,16,32,40,50,64,100,128};
        DemodBufferLen = 0x00;

        //trim 1/2 a clock from beginning
        snprintf(cmdStr, sizeof(buf),"%d", bitRate[config.bitrate]/2 );
        CmdLtrim(cmdStr);

        switch( config.modulation ){
                case DEMOD_FSK:
                        snprintf(cmdStr, sizeof(buf),"%d %d", bitRate[config.bitrate], config.inverted );
                        ans = FSKrawDemod(cmdStr, FALSE);
                        break;
                case DEMOD_FSK1:
                case DEMOD_FSK1a:
                        snprintf(cmdStr, sizeof(buf),"%d %d 8 5", bitRate[config.bitrate], config.inverted );
                        ans = FSKrawDemod(cmdStr, FALSE);
                        break;
                case DEMOD_FSK2:
                case DEMOD_FSK2a:
                        snprintf(cmdStr, sizeof(buf),"%d %d 10 8", bitRate[config.bitrate], config.inverted );
                        ans = FSKrawDemod(cmdStr, FALSE);
                        break;
                case DEMOD_ASK:
                        snprintf(cmdStr, sizeof(buf),"%d %d 0", bitRate[config.bitrate], config.inverted );
                        ans = ASKDemod(cmdStr, FALSE, FALSE, 1);
                        break;
                case DEMOD_PSK1:
                        snprintf(cmdStr, sizeof(buf),"%d %d 0", bitRate[config.bitrate], config.inverted );
                        ans = PSKDemod(cmdStr, FALSE);
                        break;
                case DEMOD_PSK2: //inverted won't affect this
                case DEMOD_PSK3: //not fully implemented
                        snprintf(cmdStr, sizeof(buf),"%d 0 1", bitRate[config.bitrate] );
                        ans = PSKDemod(cmdStr, FALSE);
                        psk1TOpsk2(DemodBuffer, DemodBufferLen);
                        break;
                case DEMOD_NRZ:
                        snprintf(cmdStr, sizeof(buf),"%d %d 1", bitRate[config.bitrate], config.inverted );
                        ans = NRZrawDemod(cmdStr, FALSE);
                        break;
                case DEMOD_BI:
                case DEMOD_BIa:
                        snprintf(cmdStr, sizeof(buf),"0 %d %d 0", bitRate[config.bitrate], config.inverted );
                        ans = ASKbiphaseDemod(cmdStr, FALSE);
                        break;
                default:
                        return FALSE;
        }
        return (bool) ans;
}

int CmdT55xxDetect(const char *Cmd){

        char cmdp = param_getchar(Cmd, 0);
        if (strlen(Cmd) > 1 || cmdp == 'h' || cmdp == 'H')
                return usage_t55xx_detect();
        
        if (strlen(Cmd)==0)
                AquireData( CONFIGURATION_BLOCK );

        if ( !tryDetectModulation() )
                PrintAndLog("Could not detect modulation automatically. Try setting it manually with \'lf t55xx config\'");

        return 0;
}

// detect configuration?
bool tryDetectModulation(){
        char cmdStr[8] = {0};
        uint8_t hits = 0;
        t55xx_conf_block_t tests[15];
        int bitRate=0;
        if (GetFskClock("", FALSE, FALSE)){ 
                uint8_t fc1 = 0, fc2 = 0, clk=0;
                fskClocks(&fc1, &fc2, &clk, FALSE);
                sprintf(cmdStr,"%d", clk/2);
                CmdLtrim(cmdStr);
                if ( FSKrawDemod("0 0", FALSE) && test(DEMOD_FSK, &tests[hits].offset, &bitRate)){
                        tests[hits].modulation = DEMOD_FSK;
                        if (fc1==8 && fc2 == 5)
                                tests[hits].modulation = DEMOD_FSK1a;
                        else if (fc1==10 && fc2 == 8)
                                tests[hits].modulation = DEMOD_FSK2;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = FALSE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }
                if ( FSKrawDemod("0 1", FALSE) && test(DEMOD_FSK, &tests[hits].offset, &bitRate)) {
                        tests[hits].modulation = DEMOD_FSK;
                        if (fc1 == 8 && fc2 == 5)
                                tests[hits].modulation = DEMOD_FSK1;
                        else if (fc1 == 10 && fc2 == 8)
                                tests[hits].modulation = DEMOD_FSK2a;

                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = TRUE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }
        } else {
                if ( ASKDemod("0 0 1", FALSE, FALSE, 1) && test(DEMOD_ASK, &tests[hits].offset, &bitRate)) {
                        tests[hits].modulation = DEMOD_ASK;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = FALSE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }

                if ( ASKDemod("0 1 1", FALSE, FALSE, 1)  && test(DEMOD_ASK, &tests[hits].offset, &bitRate)) {
                        tests[hits].modulation = DEMOD_ASK;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = TRUE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }
                
                if ( NRZrawDemod("0 0 1", FALSE)  && test(DEMOD_NRZ, &tests[hits].offset, &bitRate)) {
                        tests[hits].modulation = DEMOD_NRZ;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = FALSE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }

                if ( NRZrawDemod("0 1 1", FALSE)  && test(DEMOD_NRZ, &tests[hits].offset, &bitRate)) {
                        tests[hits].modulation = DEMOD_NRZ;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = TRUE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }
                
                if ( PSKDemod("0 0 1", FALSE) && test(DEMOD_PSK1, &tests[hits].offset, &bitRate)) {
                        tests[hits].modulation = DEMOD_PSK1;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = FALSE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }
                
                if ( PSKDemod("0 1 1", FALSE) && test(DEMOD_PSK1, &tests[hits].offset, &bitRate)) {
                        tests[hits].modulation = DEMOD_PSK1;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = TRUE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }

                // PSK2 - needs a call to psk1TOpsk2.
                if ( PSKDemod("0 0 1", FALSE)) {
                        psk1TOpsk2(DemodBuffer, DemodBufferLen);
                        if (test(DEMOD_PSK2, &tests[hits].offset, &bitRate)){
                                tests[hits].modulation = DEMOD_PSK2;
                                tests[hits].bitrate = bitRate;
                                tests[hits].inverted = FALSE;
                                tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                                ++hits;
                        }
                } // inverse waves does not affect this demod

                // PSK3 - needs a call to psk1TOpsk2.
                if ( PSKDemod("0 0 1", FALSE)) {
                        psk1TOpsk2(DemodBuffer, DemodBufferLen);
                        if (test(DEMOD_PSK3, &tests[hits].offset, &bitRate)){
                                tests[hits].modulation = DEMOD_PSK3;
                                tests[hits].bitrate = bitRate;
                                tests[hits].inverted = FALSE;
                                tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                                ++hits;
                        }
                } // inverse waves does not affect this demod
        
                if ( ASKbiphaseDemod("0 0 0 1", FALSE) && test(DEMOD_BI, &tests[hits].offset, &bitRate) ) {
                        tests[hits].modulation = DEMOD_BI;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = FALSE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }
                if ( ASKbiphaseDemod("0 0 1 1", FALSE) && test(DEMOD_BIa, &tests[hits].offset, &bitRate) ) {
                        tests[hits].modulation = DEMOD_BIa;
                        tests[hits].bitrate = bitRate;
                        tests[hits].inverted = TRUE;
                        tests[hits].block0 = PackBits(tests[hits].offset, 32, DemodBuffer);
                        ++hits;
                }
        }               
        if ( hits == 1) {
                config.modulation = tests[0].modulation;
                config.bitrate = tests[0].bitrate;
                config.inverted = tests[0].inverted;
                config.offset = tests[0].offset;
                config.block0 = tests[0].block0;
                printConfiguration( config );
                return TRUE;
        }
        
        if ( hits > 1) {
                PrintAndLog("Found [%d] possible matches for modulation.",hits);
                for(int i=0; i<hits; ++i){
                        PrintAndLog("--[%d]---------------", i+1);
                        printConfiguration( tests[i] );
                }
        }
        return FALSE;
}

bool testModulation(uint8_t mode, uint8_t modread){
        switch( mode ){
                case DEMOD_FSK:
                        if (modread > 3 && modread < 8) return TRUE;
                        break;
                case DEMOD_ASK:
                        if (modread == DEMOD_ASK) return TRUE;
                        break;
                case DEMOD_PSK1:
                        if (modread == DEMOD_PSK1) return TRUE;
                        break;
                case DEMOD_PSK2:
                        if (modread == DEMOD_PSK2) return TRUE;
                        break;
                case DEMOD_PSK3:
                        if (modread == DEMOD_PSK3) return TRUE;
                        break;
                case DEMOD_NRZ:
                        if (modread == DEMOD_NRZ) return TRUE;
                        break;
                case DEMOD_BI:
                        if (modread == DEMOD_BI) return TRUE;
                        break;
                case DEMOD_BIa:
                        if (modread == DEMOD_BIa) return TRUE;
                        break;          
                default:
                        return FALSE;
        }
        return FALSE;
}

bool testBitRate(uint8_t readRate, uint8_t mod){
        uint8_t expected[8] = {8, 16, 32, 40, 50, 64, 100, 128};
        uint8_t detRate = 0;
        switch( mod ){
                case DEMOD_FSK:
                case DEMOD_FSK1:
                case DEMOD_FSK1a:
                case DEMOD_FSK2:
                case DEMOD_FSK2a:
                        detRate = GetFskClock("",FALSE, FALSE); 
                        if (expected[readRate] == detRate) 
                                return TRUE;
                        break;
                case DEMOD_ASK:
                case DEMOD_BI:
                case DEMOD_BIa:
                        detRate = GetAskClock("",FALSE, FALSE); 
                        if (expected[readRate] == detRate) 
                                return TRUE;
                        break;
                case DEMOD_PSK1:
                case DEMOD_PSK2:
                case DEMOD_PSK3:
                        detRate = GetPskClock("",FALSE, FALSE); 
                        if (expected[readRate] == detRate)
                                return TRUE;
                        break;
                case DEMOD_NRZ:
                        detRate = GetNrzClock("",FALSE, FALSE); 
                        if (expected[readRate] == detRate)
                                return TRUE;
                        break;
                default:
                        return FALSE;
        }
        return FALSE;
}

bool test(uint8_t mode, uint8_t *offset, int *fndBitRate){

        if ( DemodBufferLen < 64 ) return FALSE;
        uint8_t si = 0;
        for (uint8_t idx = 0; idx < 64; idx++){
                si = idx;
                if ( PackBits(si, 32, DemodBuffer) == 0x00 ) continue;

                uint8_t safer    = PackBits(si, 4, DemodBuffer); si += 4;     //master key
                uint8_t resv     = PackBits(si, 4, DemodBuffer); si += 4;     //was 7 & +=7+3 //should be only 4 bits if extended mode
                // 2nibble must be zeroed.
                // moved test to here, since this gets most faults first.
                if ( resv > 0x00) continue;

                uint8_t xtRate   = PackBits(si, 3, DemodBuffer); si += 3;     //extended mode part of rate
                int bitRate  = PackBits(si, 3, DemodBuffer); si += 3;     //bit rate
                if (bitRate > 7) continue;
                uint8_t extend   = PackBits(si, 1, DemodBuffer); si += 1;     //bit 15 extended mode
                uint8_t modread  = PackBits(si, 5, DemodBuffer); si += 5+2+1; 
                //uint8_t pskcr   = PackBits(si, 2, DemodBuffer); si += 2+1;  //could check psk cr
                uint8_t nml01    = PackBits(si, 1, DemodBuffer); si += 1+5;   //bit 24, 30, 31 could be tested for 0 if not extended mode
                uint8_t nml02    = PackBits(si, 2, DemodBuffer); si += 2;
                
                //if extended mode
                bool extMode =( (safer == 0x6 || safer == 0x9) && extend) ? TRUE : FALSE;

                if (!extMode){
                        if (nml01 || nml02 || xtRate) continue;
                }
                //test modulation
                if (!testModulation(mode, modread)) continue;
                if (!testBitRate(bitRate, mode)) continue;
                *fndBitRate = bitRate;
                *offset = idx;
                return TRUE;
        }
        return FALSE;
}

void printT55xxBlock(const char *blockNum){
        
        uint8_t i = config.offset;
        uint8_t endpos = 32 + i;
        uint32_t blockData = 0;
        uint8_t bits[64] = {0x00};

        if ( !DemodBufferLen) return;

        if ( endpos > DemodBufferLen){
                PrintAndLog("The configured offset %d is too big. Possible offset: %d)", i, DemodBufferLen-32);
                return;
        }

        for (; i < endpos; ++i)
                bits[i - config.offset]=DemodBuffer[i];

        blockData = PackBits(0, 32, bits);
        PrintAndLog("[%s] 0x%08X  %s", blockNum, blockData, sprint_bin(bits,32));
}

int special(const char *Cmd) {
        uint32_t blockData = 0;
        uint8_t bits[32] = {0x00};

        PrintAndLog("[OFFSET] [DATA] [BINARY]");
        PrintAndLog("----------------------------------------------------");
        int i,j = 0;
        for (; j < 64; ++j){
                
                for (i = 0; i < 32; ++i)
                        bits[i]=DemodBuffer[j+i];
        
                blockData = PackBits(0, 32, bits);
                
                PrintAndLog("[%02d] 0x%08X  %s",j , blockData, sprint_bin(bits,32));    
        }
        return 0;
}

void printConfiguration( t55xx_conf_block_t b){
        PrintAndLog("Modulation : %s", GetSelectedModulationStr(b.modulation) );
        PrintAndLog("Bit Rate   : %s", GetBitRateStr(b.bitrate) );
        PrintAndLog("Inverted   : %s", (b.inverted) ? "Yes" : "No" );
        PrintAndLog("Offset     : %d", b.offset);
        PrintAndLog("Block0     : 0x%08X", b.block0);
        PrintAndLog("");
}

int CmdT55xxWriteBlock(const char *Cmd)
{
        int block = 8; //default to invalid block
        int data = 0xFFFFFFFF; //default to blank Block 
        int password = 0xFFFFFFFF; //default to blank Block 7
        
        char cmdp = param_getchar(Cmd, 0);
        if (cmdp == 'h' || cmdp == 'H') {
                usage_t55xx_write();
                return 0;
        }
  
        int res = sscanf(Cmd, "%d %x %x",&block, &data, &password);
        
        if ( res < 2 || res > 3) {
                usage_t55xx_write();
                return 1;
        }

        if (block > 7) {
                PrintAndLog("Block number must be between 0 and 7");
                return 1;
        }
        
        UsbCommand c = {CMD_T55XX_WRITE_BLOCK, {data, block, 0}};
        c.d.asBytes[0] = 0x0; 

        PrintAndLog("Writing to block: %d  data  : 0x%08X", block, data);

        //Password mode
        if (res == 3) {
                c.arg[2] = password;
                c.d.asBytes[0] = 0x1; 
                PrintAndLog("pwd   : 0x%08X", password);
        }
        SendCommand(&c);
        return 0;
}

int CmdT55xxReadTrace(const char *Cmd)
{
        char cmdp = param_getchar(Cmd, 0);
        
        if (strlen(Cmd) > 1 || cmdp == 'h' || cmdp == 'H') 
                return usage_t55xx_trace();

        if (strlen(Cmd)==0)
                AquireData( TRACE_BLOCK );
        
        if (!DecodeT55xxBlock()) return 1;

        if ( !DemodBufferLen) return 1;
        
        RepaintGraphWindow();
        uint8_t repeat = 0;
        if (config.offset > 5) 
                repeat = 32;
        uint8_t si = config.offset+repeat;
        uint32_t bl0     = PackBits(si, 32, DemodBuffer);
        uint32_t bl1     = PackBits(si+32, 32, DemodBuffer);
        
        uint32_t acl     = PackBits(si, 8,  DemodBuffer); si += 8;
        uint32_t mfc     = PackBits(si, 8,  DemodBuffer); si += 8;
        uint32_t cid     = PackBits(si, 5,  DemodBuffer); si += 5;
        uint32_t icr     = PackBits(si, 3,  DemodBuffer); si += 3;
        uint32_t year    = PackBits(si, 4,  DemodBuffer); si += 4;
        uint32_t quarter = PackBits(si, 2,  DemodBuffer); si += 2;
        uint32_t lotid   = PackBits(si, 14, DemodBuffer); si += 14;
        uint32_t wafer   = PackBits(si, 5,  DemodBuffer); si += 5;
        uint32_t dw      = PackBits(si, 15, DemodBuffer); 
        
        time_t t = time(NULL);
        struct tm tm = *localtime(&t);
        if ( year > tm.tm_year-110)
                year += 2000;
        else
                year += 2010;

        if ( acl != 0xE0 ) {
                PrintAndLog("The modulation is most likely wrong since the ACL is not 0xE0. ");
                return 1;
        }

        PrintAndLog("");
        PrintAndLog("-- T55xx Trace Information ----------------------------------");
        PrintAndLog("-------------------------------------------------------------");
        PrintAndLog(" ACL Allocation class (ISO/IEC 15963-1)  : 0x%02X (%d)", acl, acl);
        PrintAndLog(" MFC Manufacturer ID (ISO/IEC 7816-6)    : 0x%02X (%d) - %s", mfc, mfc, getTagInfo(mfc));
        PrintAndLog(" CID                                     : 0x%02X (%d) - %s", cid, cid, GetModelStrFromCID(cid));
        PrintAndLog(" ICR IC Revision                         : %d",icr );
        PrintAndLog(" Manufactured");
        PrintAndLog("     Year/Quarter : %d/%d",year, quarter);
        PrintAndLog("     Lot ID       : %d", lotid );
        PrintAndLog("     Wafer number : %d", wafer);
        PrintAndLog("     Die Number   : %d", dw);
        PrintAndLog("-------------------------------------------------------------");
        PrintAndLog(" Raw Data - Page 1");
        PrintAndLog("     Block 0  : 0x%08X  %s", bl0, sprint_bin(DemodBuffer+config.offset+repeat,32) );
        PrintAndLog("     Block 1  : 0x%08X  %s", bl1, sprint_bin(DemodBuffer+config.offset+repeat+32,32) );
        PrintAndLog("-------------------------------------------------------------");

        /*
        TRACE - BLOCK O
                Bits    Definition                                                              HEX
                1-8             ACL Allocation class (ISO/IEC 15963-1)  0xE0 
                9-16    MFC Manufacturer ID (ISO/IEC 7816-6)    0x15 Atmel Corporation
                17-21   CID                                                                             0x1 = Atmel ATA5577M1  0x2 = Atmel ATA5577M2 
                22-24   ICR IC revision
                25-28   YEAR (BCD encoded)                                              9 (= 2009)
                29-30   QUARTER                                                                 1,2,3,4 
                31-32   LOT ID
        
        TRACE - BLOCK 1
                1-12    LOT ID  
                13-17   Wafer number
                18-32   DW,  die number sequential
        */
        
  return 0;
}

int CmdT55xxInfo(const char *Cmd){
        /*
                Page 0 Block 0 Configuration data.
                Normal mode
                Extended mode
        */
        char cmdp = param_getchar(Cmd, 0);

        if (strlen(Cmd) > 1 || cmdp == 'h' || cmdp == 'H')
                return usage_t55xx_info();
        
        if (strlen(Cmd)==0)
                AquireData( CONFIGURATION_BLOCK );

        if (!DecodeT55xxBlock()) return 1;

        if ( DemodBufferLen < 32) return 1;

        uint8_t si = config.offset;
        uint32_t bl0      = PackBits(si, 32, DemodBuffer);
        
        uint32_t safer    = PackBits(si, 4, DemodBuffer); si += 4;      
        uint32_t resv     = PackBits(si, 7, DemodBuffer); si += 7;
        uint32_t dbr      = PackBits(si, 3, DemodBuffer); si += 3;
        uint32_t extend   = PackBits(si, 1, DemodBuffer); si += 1;
        uint32_t datamod  = PackBits(si, 5, DemodBuffer); si += 5;
        uint32_t pskcf    = PackBits(si, 2, DemodBuffer); si += 2;
        uint32_t aor      = PackBits(si, 1, DemodBuffer); si += 1;      
        uint32_t otp      = PackBits(si, 1, DemodBuffer); si += 1;      
        uint32_t maxblk   = PackBits(si, 3, DemodBuffer); si += 3;
        uint32_t pwd      = PackBits(si, 1, DemodBuffer); si += 1;      
        uint32_t sst      = PackBits(si, 1, DemodBuffer); si += 1;      
        uint32_t fw       = PackBits(si, 1, DemodBuffer); si += 1;
        uint32_t inv      = PackBits(si, 1, DemodBuffer); si += 1;      
        uint32_t por      = PackBits(si, 1, DemodBuffer); si += 1;
                
        PrintAndLog("");
        PrintAndLog("-- T55xx Configuration & Tag Information --------------------");
        PrintAndLog("-------------------------------------------------------------");
        PrintAndLog(" Safer key                 : %s", GetSaferStr(safer));
        PrintAndLog(" reserved                  : %d", resv);
        PrintAndLog(" Data bit rate             : %s", GetBitRateStr(dbr));
        PrintAndLog(" eXtended mode             : %s", (extend) ? "Yes - Warning":"No");
        PrintAndLog(" Modulation                : %s", GetModulationStr(datamod));
        PrintAndLog(" PSK clock frequency       : %d", pskcf);
        PrintAndLog(" AOR - Answer on Request   : %s", (aor) ? "Yes":"No");
        PrintAndLog(" OTP - One Time Pad        : %s", (otp) ? "Yes - Warning":"No" );
        PrintAndLog(" Max block                 : %d", maxblk);
        PrintAndLog(" Password mode             : %s", (pwd) ? "Yes":"No");
        PrintAndLog(" Sequence Start Terminator : %s", (sst) ? "Yes":"No");
        PrintAndLog(" Fast Write                : %s", (fw)  ? "Yes":"No");
        PrintAndLog(" Inverse data              : %s", (inv) ? "Yes":"No");
        PrintAndLog(" POR-Delay                 : %s", (por) ? "Yes":"No");
        PrintAndLog("-------------------------------------------------------------");
        PrintAndLog(" Raw Data - Page 0");
        PrintAndLog("     Block 0  : 0x%08X  %s", bl0, sprint_bin(DemodBuffer+config.offset,32) );
        PrintAndLog("-------------------------------------------------------------");
        
        return 0;
}

int CmdT55xxDump(const char *Cmd){

        char s[20] = {0x00};
        uint8_t pwd[4] = {0x00};

        char cmdp = param_getchar(Cmd, 0);
        if ( cmdp == 'h' || cmdp == 'H') {
                usage_t55xx_dump();
                return 0;
        }

        bool hasPwd = ( strlen(Cmd) > 0);       
        if ( hasPwd ){
                if (param_gethex(Cmd, 0, pwd, 8)) {
                        PrintAndLog("password must include 8 HEX symbols");
                        return 1;
                }
        }
        
        for ( int i = 0; i <8; ++i){
                memset(s,0,sizeof(s));
                if ( hasPwd ) {
                        sprintf(s,"%d %02x%02x%02x%02x", i, pwd[0],pwd[1],pwd[2],pwd[3]);
                } else {
                        sprintf(s,"%d", i);
                }
                CmdT55xxReadBlock(s);
        }
        return 0;
}

int AquireData( uint8_t block ){

        UsbCommand c;
        
        if ( block == CONFIGURATION_BLOCK ) 
                c.cmd = CMD_T55XX_READ_BLOCK;
        else if (block == TRACE_BLOCK )
                c.cmd = CMD_T55XX_READ_TRACE;
                
        c.arg[0] = 0x00;
        c.arg[1] = 0x00;
        c.arg[2] = 0x00;
        c.d.asBytes[0] = 0x0; 

        //Password mode
        // if ( res == 2 ) {
                // c.arg[2] = password;
                // c.d.asBytes[0] = 0x1; 
        // }

        SendCommand(&c);
        if ( !WaitForResponseTimeout(CMD_ACK,NULL,2500) ) {
                PrintAndLog("command execution time out");
                return 1;
        }

        uint8_t got[12000];
        GetFromBigBuf(got,sizeof(got),0);
        WaitForResponse(CMD_ACK,NULL);
        setGraphBuf(got, 12000);
        return 0;
}

char * GetBitRateStr(uint32_t id){
        static char buf[25];

        char *retStr = buf;
                switch (id){
                case 0: 
                        snprintf(retStr,sizeof(buf),"%d - RF/8",id);
                        break;
                case 1:
                        snprintf(retStr,sizeof(buf),"%d - RF/16",id);
                        break;
                case 2:         
                        snprintf(retStr,sizeof(buf),"%d - RF/32",id);
                        break;
                case 3:
                        snprintf(retStr,sizeof(buf),"%d - RF/40",id);
                        break;
                case 4:
                        snprintf(retStr,sizeof(buf),"%d - RF/50",id);
                        break;
                case 5:
                        snprintf(retStr,sizeof(buf),"%d - RF/64",id);
                        break;
                case 6:
                        snprintf(retStr,sizeof(buf),"%d - RF/100",id);
                        break;
                case 7:
                        snprintf(retStr,sizeof(buf),"%d - RF/128",id);
                        break;
                default:
                        snprintf(retStr,sizeof(buf),"%d - (Unknown)",id);
                        break;
                }

        return buf;
}

char * GetSaferStr(uint32_t id){
        static char buf[40];
        char *retStr = buf;
        
        snprintf(retStr,sizeof(buf),"%d",id);
        if (id == 6) {
                snprintf(retStr,sizeof(buf),"%d - passwd",id);
        }
        if (id == 9 ){
                snprintf(retStr,sizeof(buf),"%d - testmode",id);
        }
        
        return buf;
}

char * GetModulationStr( uint32_t id){
        static char buf[60];
        char *retStr = buf;
        
        switch (id){
                case 0: 
                        snprintf(retStr,sizeof(buf),"%d - DIRECT (ASK/NRZ)",id);
                        break;
                case 1:
                        snprintf(retStr,sizeof(buf),"%d - PSK 1 phase change when input changes",id);
                        break;
                case 2:         
                        snprintf(retStr,sizeof(buf),"%d - PSK 2 phase change on bitclk if input high",id);
                        break;
                case 3:
                        snprintf(retStr,sizeof(buf),"%d - PSK 3 phase change on rising edge of input",id);
                        break;
                case 4:
                        snprintf(retStr,sizeof(buf),"%d - FSK 1 RF/8  RF/5",id);
                        break;
                case 5:
                        snprintf(retStr,sizeof(buf),"%d - FSK 2 RF/8  RF/10",id);
                        break;
                case 6:
                        snprintf(retStr,sizeof(buf),"%d - FSK 1a RF/5  RF/8",id);
                        break;
                case 7:
                        snprintf(retStr,sizeof(buf),"%d - FSK 2a RF/10  RF/8",id);
                        break;
                case 8:
                        snprintf(retStr,sizeof(buf),"%d - Manchester",id);
                        break;
                case 16:
                        snprintf(retStr,sizeof(buf),"%d - Biphase",id);
                        break;
                case 0x18:
                        snprintf(retStr,sizeof(buf),"%d - Biphase a - AKA Conditional Dephase Encoding(CDP)",id);
                        break;
                case 17:
                        snprintf(retStr,sizeof(buf),"%d - Reserved",id);
                        break;
                default:
                        snprintf(retStr,sizeof(buf),"0x%02X (Unknown)",id);
                        break;
                }
        return buf;
}

char * GetModelStrFromCID(uint32_t cid){
                
        static char buf[10];
        char *retStr = buf;
        
        if (cid == 1) snprintf(retStr, sizeof(buf),"ATA5577M1");
        if (cid == 2) snprintf(retStr, sizeof(buf),"ATA5577M2");        
        return buf;
}

char * GetSelectedModulationStr( uint8_t id){

        static char buf[20];
        char *retStr = buf;

        switch (id){
                case DEMOD_FSK:
                        snprintf(retStr,sizeof(buf),"FSK");
                        break;
                case DEMOD_FSK1:
                        snprintf(retStr,sizeof(buf),"FSK1");
                        break;
                case DEMOD_FSK1a:
                        snprintf(retStr,sizeof(buf),"FSK1a");
                        break;
                case DEMOD_FSK2:
                        snprintf(retStr,sizeof(buf),"FSK2");
                        break;
                case DEMOD_FSK2a:
                        snprintf(retStr,sizeof(buf),"FSK2a");
                        break;
                case DEMOD_ASK:         
                        snprintf(retStr,sizeof(buf),"ASK");
                        break;
                case DEMOD_NRZ:
                        snprintf(retStr,sizeof(buf),"DIRECT/NRZ");
                        break;
                case DEMOD_PSK1:
                        snprintf(retStr,sizeof(buf),"PSK1");
                        break;
                case DEMOD_PSK2:
                        snprintf(retStr,sizeof(buf),"PSK2");
                        break;
                case DEMOD_PSK3:
                        snprintf(retStr,sizeof(buf),"PSK3");
                        break;
                case DEMOD_BI:
                        snprintf(retStr,sizeof(buf),"BIPHASE");
                        break;
                case DEMOD_BIa:
                        snprintf(retStr,sizeof(buf),"BIPHASEa - (CDP)");
                        break;
                default:
                        snprintf(retStr,sizeof(buf),"(Unknown)");
                        break;
                }
        return buf;
}

uint32_t PackBits(uint8_t start, uint8_t len, uint8_t* bits){
        
        int i = start;
        int j = len-1;

        if (len > 32) return 0;

        uint32_t tmp = 0;
        for (; j >= 0; --j, ++i)
                tmp     |= bits[i] << j;

        return tmp;
}

static command_t CommandTable[] =
{
  {"help",   CmdHelp,           1, "This help"},
  {"config", CmdT55xxSetConfig, 1, "Set/Get T55XX configuration (modulation, inverted, offset, rate)"},
  {"detect", CmdT55xxDetect,    0, "[1] Try detecting the tag modulation from reading the configuration block."},
  {"read",   CmdT55xxReadBlock, 0, "<block> [password] -- Read T55xx block data (page 0) [optional password]"},
  {"write",  CmdT55xxWriteBlock,0, "<block> <data> [password] -- Write T55xx block data (page 0) [optional password]"},
  {"trace",  CmdT55xxReadTrace, 0, "[1] Show T55xx traceability data (page 1/ blk 0-1)"},
  {"info",   CmdT55xxInfo,      0, "[1] Show T55xx configuration data (page 0/ blk 0)"},
  {"dump",   CmdT55xxDump,      0, "[password] Dump T55xx card block 0-7. [optional password]"},
  {"special", special,          0, "Show block changes with 64 different offsets"},
  {NULL, NULL, 0, NULL}
};

int CmdLFT55XX(const char *Cmd)
{
  CmdsParse(CommandTable, Cmd);
  return 0;
}

int CmdHelp(const char *Cmd)
{
  CmdsHelp(CommandTable);
  return 0;
}