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245 lines
11 KiB
C
245 lines
11 KiB
C
//-----------------------------------------------------------------------------
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// Jonathan Westhues, Aug 2005
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// Gerhard de Koning Gans, April 2008, May 2011
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//
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// This code is licensed to you under the terms of the GNU GPL, version 2 or,
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// at your option, any later version. See the LICENSE.txt file for the text of
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// the license.
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//-----------------------------------------------------------------------------
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// Definitions internal to the app source.
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//-----------------------------------------------------------------------------
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#ifndef __APPS_H
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#define __APPS_H
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <stdlib.h>
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#include <stdarg.h>
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#include "common.h"
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#include "usb_cdc.h"
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#include "crc32.h"
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#include "lfdemod.h"
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#include "BigBuf.h"
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#include "fpgaloader.h"
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#include "hitag2.h"
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#include "hitagS.h"
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#include "mifare.h"
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#include "pcf7931.h"
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#include "desfire.h"
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#include "iso14443b.h"
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#include "Standalone/standalone.h"
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#include "flashmem.h"
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extern const uint8_t OddByteParity[256];
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extern int rsamples; // = 0;
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extern uint8_t trigger;
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// This may be used (sparingly) to declare a function to be copied to
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// and executed from RAM
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#define RAMFUNC __attribute((long_call, section(".ramfunc")))
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/// appmain.h
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void ReadMem(int addr);
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void __attribute__((noreturn)) AppMain(void);
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//void DbpIntegers(int a, int b, int c);
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void DbpString(char *str);
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void DbpStringEx(uint32_t cmd, char *str);
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void Dbprintf(const char *fmt, ...);
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void DbprintfEx(uint32_t cmd, const char *fmt, ...);
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void Dbhexdump(int len, uint8_t *d, bool bAsci);
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// ADC Vref = 3300mV, and an (10M+1M):1M voltage divider on the HF input can measure voltages up to 36300 mV
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#define MAX_ADC_HF_VOLTAGE 36300
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// ADC Vref = 3300mV, (240k-10M):240k voltage divider, 140800 mV
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#define MAX_ADC_HF_VOLTAGE_RDV40 140800
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// ADC Vref = 3300mV, and an (10000k+240k):240k voltage divider on the LF input can measure voltages up to 140800 mV
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#define MAX_ADC_LF_VOLTAGE 140800
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uint16_t AvgAdc(int ch);
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void print_result(char *name, uint8_t *buf, size_t len);
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//void PrintToSendBuffer(void);
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void ToSendStuffBit(int b);
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void ToSendReset(void);
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void ListenReaderField(int limit);
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extern int ToSendMax;
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extern uint8_t ToSend[];
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void StandAloneMode(void);
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void printStandAloneModes(void);
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/// lfops.h
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extern uint8_t decimation;
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extern uint8_t bits_per_sample ;
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extern bool averaging;
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void AcquireRawAdcSamples125k(int divisor);
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void ModThenAcquireRawAdcSamples125k(uint32_t delay_off, uint32_t period_0, uint32_t period_1, uint8_t *command);
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void ReadTItag(void);
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void WriteTItag(uint32_t idhi, uint32_t idlo, uint16_t crc);
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void AcquireTiType(void);
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void AcquireRawBitsTI(void);
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void SimulateTagLowFrequencyEx(int period, int gap, int ledcontrol, int numcycles);
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void SimulateTagLowFrequency(int period, int gap, int ledcontrol);
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void SimulateTagLowFrequencyBidir(int divisor, int max_bitlen);
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void CmdHIDsimTAGEx(uint32_t hi, uint32_t lo, int ledcontrol, int numcycles);
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void CmdHIDsimTAG(uint32_t hi, uint32_t lo, int ledcontrol);
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void CmdFSKsimTAG(uint16_t arg1, uint16_t arg2, size_t size, uint8_t *bits, int ledcontrol);
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void CmdASKsimTag(uint16_t arg1, uint16_t arg2, size_t size, uint8_t *bits, int ledcontrol);
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void CmdPSKsimTag(uint16_t arg1, uint16_t arg2, size_t size, uint8_t *bits, int ledcontrol);
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void CmdHIDdemodFSK(int findone, uint32_t *high, uint32_t *low, int ledcontrol);
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void CmdAWIDdemodFSK(int findone, uint32_t *high, uint32_t *low, int ledcontrol); // Realtime demodulation mode for AWID26
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void CmdEM410xdemod(int findone, uint32_t *high, uint64_t *low, int ledcontrol);
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void CmdIOdemodFSK(int findone, uint32_t *high, uint32_t *low, int ledcontrol);
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void CopyIOtoT55x7(uint32_t hi, uint32_t lo); // Clone an ioProx card to T5557/T5567
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void CopyHIDtoT55x7(uint32_t hi2, uint32_t hi, uint32_t lo, uint8_t longFMT); // Clone an HID card to T5557/T5567
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void CopyVikingtoT55xx(uint32_t block1, uint32_t block2, uint8_t Q5);
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void WriteEM410x(uint32_t card, uint32_t id_hi, uint32_t id_lo);
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void CopyIndala64toT55x7(uint32_t hi, uint32_t lo); // Clone Indala 64-bit tag by UID to T55x7
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void CopyIndala224toT55x7(uint32_t uid1, uint32_t uid2, uint32_t uid3, uint32_t uid4, uint32_t uid5, uint32_t uid6, uint32_t uid7); // Clone Indala 224-bit tag by UID to T55x7
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void T55xxResetRead(void);
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void T55xxWriteBlock(uint32_t Data, uint8_t Block, uint32_t Pwd, uint8_t arg);
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void T55xxWriteBlockExt(uint32_t Data, uint8_t Block, uint32_t Pwd, uint8_t arg);
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void T55xxReadBlock(uint16_t arg0, uint8_t Block, uint32_t Pwd);
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void T55xxWakeUp(uint32_t Pwd);
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void T55xx_ChkPwds(void);
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void TurnReadLFOn(uint32_t delay);
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void EM4xReadWord(uint8_t addr, uint32_t pwd, uint8_t usepwd);
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void EM4xWriteWord(uint32_t flag, uint32_t data, uint32_t pwd);
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void Cotag(uint32_t arg0);
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void setT55xxConfig(uint8_t arg0, t55xx_config *c);
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t55xx_config *getT55xxConfig(void);
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void printT55xxConfig(void);
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void loadT55xxConfig(void);
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/// iso14443b.h
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void SimulateIso14443bTag(uint32_t pupi);
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void AcquireRawAdcSamplesIso14443b(uint32_t parameter);
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void ReadSTMemoryIso14443b(uint8_t numofblocks);
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void RAMFUNC SniffIso14443b(void);
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void SendRawCommand14443B(uint32_t, uint32_t, uint8_t, uint8_t[]);
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void SendRawCommand14443B_Ex(PacketCommandNG *c);
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void ClearFpgaShiftingRegisters(void);
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// iso14443a.h
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void RAMFUNC SniffIso14443a(uint8_t param);
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void SimulateIso14443aTag(int tagType, int flags, uint8_t *data);
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void ReaderIso14443a(PacketCommandNG *c);
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// Also used in iclass.c
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//bool RAMFUNC LogTrace(const uint8_t *btBytes, uint16_t len, uint32_t timestamp_start, uint32_t timestamp_end, uint8_t *parity, bool readerToTag);
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void GetParity(const uint8_t *pbtCmd, uint16_t len, uint8_t *par);
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void iso14a_set_trigger(bool enable);
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// also used in emv
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//bool prepare_allocated_tag_modulation(tag_response_info_t *response_info);
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//int GetIso14443aCommandFromReader(uint8_t *received, uint8_t *parity, int *len);
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// epa.h
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void EPA_PACE_Collect_Nonce(PacketCommandNG *c);
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void EPA_PACE_Replay(PacketCommandNG *c);
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// mifarecmd.h
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void MifareReadBlock(uint8_t arg0, uint8_t arg1, uint8_t arg2, uint8_t *datain);
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void MifareUReadBlock(uint8_t arg0, uint8_t arg1, uint8_t *datain);
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void MifareUC_Auth(uint8_t arg0, uint8_t *keybytes);
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void MifareUReadCard(uint8_t arg0, uint16_t arg1, uint8_t arg2, uint8_t *datain);
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void MifareReadSector(uint8_t arg0, uint8_t arg1, uint8_t arg2, uint8_t *datain);
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void MifareWriteBlock(uint8_t arg0, uint8_t arg1, uint8_t arg2, uint8_t *datain);
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//void MifareUWriteBlockCompat(uint8_t arg0,uint8_t *datain);
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void MifareUWriteBlock(uint8_t arg0, uint8_t arg1, uint8_t *datain);
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void MifareNested(uint32_t arg0, uint32_t arg1, uint32_t arg2, uint8_t *datain);
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void MifareAcquireEncryptedNonces(uint32_t arg0, uint32_t arg1, uint32_t flags, uint8_t *datain);
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void MifareAcquireNonces(uint32_t arg0, uint32_t arg1, uint32_t flags, uint8_t *datain);
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void MifareChkKeys(uint16_t arg0, uint8_t arg1, uint8_t arg2, uint8_t *datain, bool ng);
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void MifareChkKeys_fast(uint32_t arg0, uint32_t arg1, uint32_t arg2, uint8_t *datain);
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void MifareSetDbgLvl(uint16_t arg0);
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void MifareEMemClr(uint32_t arg0, uint32_t arg1, uint32_t arg2, uint8_t *datain);
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void MifareEMemSet(uint32_t arg0, uint32_t arg1, uint32_t arg2, uint8_t *datain);
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void MifareEMemGet(uint32_t arg0, uint32_t arg1, uint32_t arg2, uint8_t *datain);
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void MifareECardLoad(uint32_t arg0, uint32_t arg1, uint32_t arg2, uint8_t *datain);
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void MifareCSetBlock(uint32_t arg0, uint32_t arg1, uint8_t *datain); // Work with "magic Chinese" card
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void MifareCGetBlock(uint32_t arg0, uint32_t arg1, uint8_t *datain);
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void MifareCIdent(); // is "magic chinese" card?
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void MifareSetMod(uint8_t mod, uint8_t *key);
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void MifareUSetPwd(uint8_t arg0, uint8_t *datain);
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void OnSuccessMagic();
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void OnErrorMagic(uint8_t reason);
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int32_t dist_nt(uint32_t nt1, uint32_t nt2);
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void ReaderMifare(bool first_try, uint8_t block, uint8_t keytype);
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//void RAMFUNC SniffMifare(uint8_t param);
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//desfire
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void Mifare_DES_Auth1(uint8_t arg0, uint8_t *datain);
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void Mifare_DES_Auth2(uint32_t arg0, uint8_t *datain);
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// mifaredesfire.h
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bool InitDesfireCard();
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void MifareSendCommand(uint8_t arg0, uint8_t arg1, uint8_t *datain);
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void MifareDesfireGetInformation();
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void MifareDES_Auth1(uint8_t arg0, uint8_t arg1, uint8_t arg2, uint8_t *datain);
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void ReaderMifareDES(uint32_t param, uint32_t param2, uint8_t *datain);
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int DesfireAPDU(uint8_t *cmd, size_t cmd_len, uint8_t *dataout);
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size_t CreateAPDU(uint8_t *datain, size_t len, uint8_t *dataout);
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void OnSuccess();
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void OnError(uint8_t reason);
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// desfire_crypto.h
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void *mifare_cryto_preprocess_data(desfiretag_t tag, void *data, size_t *nbytes, size_t offset, int communication_settings);
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void *mifare_cryto_postprocess_data(desfiretag_t tag, void *data, size_t *nbytes, int communication_settings);
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void mifare_cypher_single_block(desfirekey_t key, uint8_t *data, uint8_t *ivect, MifareCryptoDirection direction, MifareCryptoOperation operation, size_t block_size);
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void mifare_cypher_blocks_chained(desfiretag_t tag, desfirekey_t key, uint8_t *ivect, uint8_t *data, size_t data_size, MifareCryptoDirection direction, MifareCryptoOperation operation);
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size_t key_block_size(const desfirekey_t key);
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size_t padded_data_length(const size_t nbytes, const size_t block_size);
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size_t maced_data_length(const desfirekey_t key, const size_t nbytes);
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size_t enciphered_data_length(const desfiretag_t tag, const size_t nbytes, int communication_settings);
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void cmac_generate_subkeys(desfirekey_t key);
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void cmac(const desfirekey_t key, uint8_t *ivect, const uint8_t *data, size_t len, uint8_t *cmac);
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// iso15693.h
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void RecordRawAdcSamplesIso15693(void);
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void AcquireRawAdcSamplesIso15693(void);
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void ReaderIso15693(uint32_t parameter); // Simulate an ISO15693 reader - greg
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void SimTagIso15693(uint32_t parameter, uint8_t *uid); // simulate an ISO15693 tag - greg
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void BruteforceIso15693Afi(uint32_t speed); // find an AFI of a tag - atrox
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void DirectTag15693Command(uint32_t datalen, uint32_t speed, uint32_t recv, uint8_t *data); // send arbitrary commands from CLI - atrox
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void Iso15693InitReader(void);
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// iclass.h
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void RAMFUNC SniffIClass(void);
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void SimulateIClass(uint32_t arg0, uint32_t arg1, uint32_t arg2, uint8_t *datain);
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void ReaderIClass(uint8_t arg0);
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void ReaderIClass_Replay(uint8_t arg0, uint8_t *mac);
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void iClass_Authentication(uint8_t *mac);
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void iClass_Authentication_fast(uint64_t arg0, uint64_t arg1, uint8_t *datain);
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void iClass_WriteBlock(uint8_t blockno, uint8_t *data);
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void iClass_ReadBlk(uint8_t blockno);
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bool iClass_ReadBlock(uint8_t blockno, uint8_t *data, uint8_t len);
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void iClass_Dump(uint8_t blockno, uint8_t numblks);
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void iClass_Clone(uint8_t startblock, uint8_t endblock, uint8_t *data);
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void iClass_ReadCheck(uint8_t blockno, uint8_t keytype);
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// cmd.h
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int reply_old(uint64_t cmd, uint64_t arg0, uint64_t arg1, uint64_t arg2, void *data, size_t len);
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int reply_mix(uint64_t cmd, uint64_t arg0, uint64_t arg1, uint64_t arg2, void *data, size_t len);
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int reply_ng(uint16_t cmd, int16_t status, uint8_t *data, size_t len);
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int receive_ng(PacketCommandNG *rx);
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// util.h
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void HfSniff(int, int);
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//felica.c
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void felica_sendraw(PacketCommandNG *c);
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void felica_sniff(uint32_t samplesToSkip, uint32_t triggersToSkip);
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void felica_sim_lite(uint64_t uid);
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void felica_dump_lite_s();
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#ifdef __cplusplus
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}
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#endif
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#endif
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