X-Git-Url: http://cvs.zerfleddert.de/cgi-bin/gitweb.cgi/proxmark3-svn/blobdiff_plain/0aed2199a4ed53289dd51393e5afc6f65b06811a..14d7657703c3396da37f2c0e56c871d2a13bb17f:/common/lfdemod.c diff --git a/common/lfdemod.c b/common/lfdemod.c index f81ac236..880e2c2b 100644 --- a/common/lfdemod.c +++ b/common/lfdemod.c @@ -505,13 +505,14 @@ int DetectASKClock(uint8_t dest[], size_t size, int *clock, int maxErr) { return bestStart[best]; } -int DetectStrongNRZClk(uint8_t *dest, size_t size, int peak, int low){ +int DetectStrongNRZClk(uint8_t *dest, size_t size, int peak, int low, bool *strong) { //find shortest transition from high to low + *strong = false; size_t i = 0; size_t transition1 = 0; int lowestTransition = 255; bool lastWasHigh = false; - + size_t transitionSampleCount = 0; //find first valid beginning of a high or low wave while ((dest[i] >= peak || dest[i] <= low) && (i < size)) ++i; @@ -527,10 +528,17 @@ int DetectStrongNRZClk(uint8_t *dest, size_t size, int peak, int low){ lastWasHigh = (dest[i] >= peak); if (i-transition1 < lowestTransition) lowestTransition = i-transition1; transition1 = i; + } else if (dest[i] < peak && dest[i] > low) { + transitionSampleCount++; } } if (lowestTransition == 255) lowestTransition = 0; if (g_debugMode==2) prnt("DEBUG NRZ: detectstrongNRZclk smallest wave: %d",lowestTransition); + // if less than 10% of the samples were not peaks (or 90% were peaks) then we have a strong wave + if (transitionSampleCount / size < 10) { + *strong = true; + lowestTransition = getClosestClock(lowestTransition); + } return lowestTransition; } @@ -550,7 +558,9 @@ int DetectNRZClock(uint8_t dest[], size_t size, int clock, size_t *clockStartIdx int peak, low; if (getHiLo(dest, loopCnt, &peak, &low, 90, 90) < 1) return 0; - int lowestTransition = DetectStrongNRZClk(dest, size-20, peak, low); + bool strong = false; + int lowestTransition = DetectStrongNRZClk(dest, size-20, peak, low, &strong); + if (strong) return lowestTransition; size_t ii; uint8_t clkCnt; uint8_t tol = 0; @@ -833,15 +843,9 @@ int DetectPSKClock(uint8_t dest[], size_t size, int clock, size_t *firstPhaseShi return clk[best]; } -//int DetectPSKClock(uint8_t dest[], size_t size, int clock) { -// size_t firstPhaseShift = 0; -// uint8_t curPhase = 0; -// return DetectPSKClock_ext(dest, size, clock, &firstPhaseShift, &curPhase); -//} - //by marshmellow //detects the bit clock for FSK given the high and low Field Clocks -uint8_t detectFSKClk_ext(uint8_t *BitStream, size_t size, uint8_t fcHigh, uint8_t fcLow, int *firstClockEdge) { +uint8_t detectFSKClk(uint8_t *BitStream, size_t size, uint8_t fcHigh, uint8_t fcLow, int *firstClockEdge) { uint8_t clk[] = {8,16,32,40,50,64,100,128,0}; uint16_t rfLens[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; uint8_t rfCnts[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; @@ -947,11 +951,6 @@ uint8_t detectFSKClk_ext(uint8_t *BitStream, size_t size, uint8_t fcHigh, uint8_ return clk[ii]; } -uint8_t detectFSKClk(uint8_t *BitStream, size_t size, uint8_t fcHigh, uint8_t fcLow) { - int firstClockEdge = 0; - return detectFSKClk_ext(BitStream, size, fcHigh, fcLow, &firstClockEdge); -} - //********************************************************************************************** //--------------------Modulation Demods &/or Decoding Section----------------------------------- //********************************************************************************************** @@ -977,7 +976,7 @@ bool findST(int *stStopLoc, int *stStartIdx, int lowToLowWaveLen[], int highToLo } //by marshmellow //attempt to identify a Sequence Terminator in ASK modulated raw wave -bool DetectST_ext(uint8_t buffer[], size_t *size, int *foundclock, size_t *ststart, size_t *stend) { +bool DetectST(uint8_t buffer[], size_t *size, int *foundclock, size_t *ststart, size_t *stend) { size_t bufsize = *size; //need to loop through all samples and identify our clock, look for the ST pattern int clk = 0; @@ -1098,10 +1097,6 @@ bool DetectST_ext(uint8_t buffer[], size_t *size, int *foundclock, size_t *ststa *size = newloc; return true; } -bool DetectST(uint8_t buffer[], size_t *size, int *foundclock) { - size_t ststart = 0, stend = 0; - return DetectST_ext(buffer, size, foundclock, &ststart, &stend); -} //by marshmellow //take 11 10 01 11 00 and make 01100 ... miller decoding @@ -1145,10 +1140,10 @@ int millerRawDecode(uint8_t *BitStream, size_t *size, int invert) { //take 01 or 10 = 1 and 11 or 00 = 0 //check for phase errors - should never have 111 or 000 should be 01001011 or 10110100 for 1010 //decodes biphase or if inverted it is AKA conditional dephase encoding AKA differential manchester encoding -int BiphaseRawDecode(uint8_t *BitStream, size_t *size, int offset, int invert) { +int BiphaseRawDecode(uint8_t *BitStream, size_t *size, int *offset, int invert) { uint16_t bitnum = 0; uint16_t errCnt = 0; - size_t i = offset; + size_t i = *offset; uint16_t MaxBits=512; //if not enough samples - error if (*size < 51) return -1; @@ -1158,8 +1153,8 @@ int BiphaseRawDecode(uint8_t *BitStream, size_t *size, int offset, int invert) { if (BitStream[i+1]==BitStream[i+2]) offsetA=0; if (BitStream[i+2]==BitStream[i+3]) offsetB=0; } - if (!offsetA && offsetB) offset++; - for (i=offset; i<*size-3; i+=2){ + if (!offsetA && offsetB) *offset+=1; + for (i=*offset; i<*size-3; i+=2){ //check for phase error if (BitStream[i+1]==BitStream[i+2]) { BitStream[bitnum++]=7; @@ -1504,18 +1499,14 @@ size_t aggregate_bits(uint8_t *dest, size_t size, uint8_t rfLen, uint8_t invert, //by marshmellow (from holiman's base) // full fsk demod from GraphBuffer wave to decoded 1s and 0s (no mandemod) -int fskdemod_ext(uint8_t *dest, size_t size, uint8_t rfLen, uint8_t invert, uint8_t fchigh, uint8_t fclow, int *startIdx) { +int fskdemod(uint8_t *dest, size_t size, uint8_t rfLen, uint8_t invert, uint8_t fchigh, uint8_t fclow, int *startIdx) { + if (justNoise(dest, size)) return 0; // FSK demodulator size = fsk_wave_demod(dest, size, fchigh, fclow, startIdx); size = aggregate_bits(dest, size, rfLen, invert, fchigh, fclow, startIdx); return size; } -int fskdemod(uint8_t *dest, size_t size, uint8_t rfLen, uint8_t invert, uint8_t fchigh, uint8_t fclow) { - int startIdx=0; - return fskdemod_ext(dest, size, rfLen, invert, fchigh, fclow, &startIdx); -} - // by marshmellow // convert psk1 demod to psk2 demod // only transition waves are 1s @@ -1642,14 +1633,12 @@ int pskRawDemod(uint8_t dest[], size_t *size, int *clock, int *invert) { // by marshmellow // FSK Demod then try to locate an AWID ID -int AWIDdemodFSK(uint8_t *dest, size_t *size) { +int AWIDdemodFSK(uint8_t *dest, size_t *size, int *waveStartIdx) { //make sure buffer has enough data if (*size < 96*50) return -1; - if (justNoise(dest, *size)) return -2; - // FSK demodulator - *size = fskdemod(dest, *size, 50, 1, 10, 8); // fsk2a RF/50 + *size = fskdemod(dest, *size, 50, 1, 10, 8, waveStartIdx); // fsk2a RF/50 if (*size < 96) return -3; //did we get a good demod? uint8_t preamble[] = {0,0,0,0,0,0,0,1}; @@ -1731,12 +1720,10 @@ int gProxII_Demod(uint8_t BitStream[], size_t *size) { } // loop to get raw HID waveform then FSK demodulate the TAG ID from it -int HIDdemodFSK(uint8_t *dest, size_t *size, uint32_t *hi2, uint32_t *hi, uint32_t *lo) { - if (justNoise(dest, *size)) return -1; - +int HIDdemodFSK(uint8_t *dest, size_t *size, uint32_t *hi2, uint32_t *hi, uint32_t *lo, int *waveStartIdx) { size_t numStart=0, size2=*size, startIdx=0; - // FSK demodulator - *size = fskdemod(dest, size2,50,1,10,8); //fsk2a + // FSK demodulator fsk2a so invert and fc/10/8 + *size = fskdemod(dest, size2, 50, 1, 10, 8, waveStartIdx); if (*size < 96*2) return -2; // 00011101 bit pattern represent start of frame, 01 pattern represents a 0 and 10 represents a 1 uint8_t preamble[] = {0,0,0,1,1,1,0,1}; @@ -1761,12 +1748,11 @@ int HIDdemodFSK(uint8_t *dest, size_t *size, uint32_t *hi2, uint32_t *hi, uint32 return (int)startIdx; } -int IOdemodFSK(uint8_t *dest, size_t size) { - if (justNoise(dest, size)) return -1; +int IOdemodFSK(uint8_t *dest, size_t size, int *waveStartIdx) { //make sure buffer has data if (size < 66*64) return -2; - // FSK demodulator - size = fskdemod(dest, size, 64, 1, 10, 8); // FSK2a RF/64 + // FSK demodulator RF/64, fsk2a so invert, and fc/10/8 + size = fskdemod(dest, size, 64, 1, 10, 8, waveStartIdx); if (size < 65) return -3; //did we get a good demod? //Index map //0 10 20 30 40 50 60 @@ -1811,12 +1797,10 @@ int indala26decode(uint8_t *bitStream, size_t *size, uint8_t *invert) { } // loop to get raw paradox waveform then FSK demodulate the TAG ID from it -int ParadoxdemodFSK(uint8_t *dest, size_t *size, uint32_t *hi2, uint32_t *hi, uint32_t *lo) { - if (justNoise(dest, *size)) return -1; - +int ParadoxdemodFSK(uint8_t *dest, size_t *size, uint32_t *hi2, uint32_t *hi, uint32_t *lo, int *waveStartIdx) { size_t numStart=0, size2=*size, startIdx=0; // FSK demodulator - *size = fskdemod(dest, size2,50,1,10,8); //fsk2a + *size = fskdemod(dest, size2,50,1,10,8,waveStartIdx); //fsk2a if (*size < 96) return -2; // 00001111 bit pattern represent start of frame, 01 pattern represents a 0 and 10 represents a 1 @@ -1856,15 +1840,12 @@ int PrescoDemod(uint8_t *dest, size_t *size) { // by marshmellow // FSK Demod then try to locate a Farpointe Data (pyramid) ID -int PyramiddemodFSK(uint8_t *dest, size_t *size) { +int PyramiddemodFSK(uint8_t *dest, size_t *size, int *waveStartIdx) { //make sure buffer has data if (*size < 128*50) return -5; - //test samples are not just noise - if (justNoise(dest, *size)) return -1; - // FSK demodulator - *size = fskdemod(dest, *size, 50, 1, 10, 8); // fsk2a RF/50 + *size = fskdemod(dest, *size, 50, 1, 10, 8, waveStartIdx); // fsk2a RF/50 if (*size < 128) return -2; //did we get a good demod? uint8_t preamble[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1};