proxmark3/armsrc/iso14443a.h

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//-----------------------------------------------------------------------------
// Merlok - June 2011
// Gerhard de Koning Gans - May 2008
// Hagen Fritsch - June 2010
//
// 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.
//-----------------------------------------------------------------------------
// Routines to support ISO 14443 type A.
//-----------------------------------------------------------------------------
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#ifndef __ISO14443A_H
#define __ISO14443A_H
#ifdef __cplusplus
extern "C" {
#endif
#include "usb_cmd.h"
#include "cmd.h"
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#include "apps.h"
#include "util.h"
#include "string.h"
#include "crc16.h"
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#include "mifaresniff.h"
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#include "crapto1/crapto1.h"
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#include "mifareutil.h"
#include "parity.h"
#include "mifare.h" // structs
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// When the PM acts as tag and is receiving it takes
// 2 ticks delay in the RF part (for the first falling edge),
// 3 ticks for the A/D conversion,
// 8 ticks on average until the start of the SSC transfer,
// 8 ticks until the SSC samples the first data
// 7*16 ticks to complete the transfer from FPGA to ARM
// 8 ticks until the next ssp_clk rising edge
// 4*16 ticks until we measure the time
// - 8*16 ticks because we measure the time of the previous transfer
#define DELAY_AIR2ARM_AS_TAG (2 + 3 + 8 + 8 + 7*16 + 8 + 4*16 - 8*16)
typedef struct {
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enum {
DEMOD_UNSYNCD,
// DEMOD_HALF_SYNCD,
// DEMOD_MOD_FIRST_HALF,
// DEMOD_NOMOD_FIRST_HALF,
DEMOD_MANCHESTER_DATA
} state;
uint16_t twoBits;
uint16_t highCnt;
uint16_t bitCount;
uint16_t collisionPos;
uint16_t syncBit;
uint8_t parityBits;
uint8_t parityLen;
uint16_t shiftReg;
uint16_t samples;
uint16_t len;
uint32_t startTime, endTime;
uint8_t *output;
uint8_t *parity;
} tDemod;
/*
typedef enum {
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MOD_NOMOD = 0,
MOD_SECOND_HALF,
MOD_FIRST_HALF,
MOD_BOTH_HALVES
} Modulation_t;
*/
typedef struct {
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enum {
STATE_UNSYNCD,
STATE_START_OF_COMMUNICATION,
STATE_MILLER_X,
STATE_MILLER_Y,
STATE_MILLER_Z,
// DROP_NONE,
// DROP_FIRST_HALF,
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} state;
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uint16_t shiftReg;
int16_t bitCount;
uint16_t len;
//uint16_t byteCntMax;
uint16_t posCnt;
uint16_t syncBit;
uint8_t parityBits;
uint8_t parityLen;
uint32_t fourBits;
uint32_t startTime, endTime;
uint8_t *output;
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uint8_t *parity;
} tUart;
#ifndef AddCrc14A
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# define AddCrc14A(data, len) compute_crc(CRC_14443_A, (data), (len), (data)+(len), (data)+(len)+1)
#endif
#ifndef AddCrc14B
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# define AddCrc14B(data, len) compute_crc(CRC_14443_B, (data), (len), (data)+(len), (data)+(len)+1)
#endif
#ifndef CheckCrc14A
# define CheckCrc14A(data, len) check_crc(CRC_14443_A, (data), (len))
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#endif
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void GetParity(const uint8_t *pbtCmd, uint16_t len, uint8_t *par);
tDemod *GetDemod(void);
void DemodReset(void);
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void DemodInit(uint8_t *data, uint8_t *par);
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tUart *GetUart(void);
void UartReset(void);
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void UartInit(uint8_t *data, uint8_t *par);
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RAMFUNC bool MillerDecoding(uint8_t bit, uint32_t non_real_time);
RAMFUNC int ManchesterDecoding(uint8_t bit, uint16_t offset, uint32_t non_real_time);
void RAMFUNC SniffIso14443a(uint8_t param);
void SimulateIso14443aTag(int tagType, int flags, uint8_t *data);
void iso14443a_antifuzz(uint32_t flags);
void ReaderIso14443a(UsbCommand *c);
void ReaderTransmit(uint8_t *frame, uint16_t len, uint32_t *timing);
void ReaderTransmitBitsPar(uint8_t *frame, uint16_t bits, uint8_t *par, uint32_t *timing);
void ReaderTransmitPar(uint8_t *frame, uint16_t len, uint8_t *par, uint32_t *timing);
int ReaderReceive(uint8_t *receivedAnswer, uint8_t *par);
void iso14443a_setup(uint8_t fpga_minor_mode);
int iso14_apdu(uint8_t *cmd, uint16_t cmd_len, bool send_chaining, void *data, uint8_t *res);
int iso14443a_select_card(uint8_t *uid_ptr, iso14a_card_select_t *p_card, uint32_t *cuid_ptr, bool anticollision, uint8_t num_cascades, bool no_rats);
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int iso14443a_fast_select_card(uint8_t *uid_ptr, uint8_t num_cascades);
void iso14a_set_trigger(bool enable);
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int EmSendPrecompiledCmd(tag_response_info_t *response_info);
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int EmSendCmd14443aRaw(uint8_t *resp, uint16_t respLen);
int EmSend4bit(uint8_t resp);
int EmSendCmd(uint8_t *resp, uint16_t respLen);
int EmSendCmdEx(uint8_t *resp, uint16_t respLen, bool collision);
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int EmGetCmd(uint8_t *received, uint16_t *len, uint8_t *par);
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int EmSendCmdPar(uint8_t *resp, uint16_t respLen, uint8_t *par);
int EmSendCmdParEx(uint8_t *resp, uint16_t respLen, uint8_t *par, bool collision);
int EmSendPrecompiledCmd(tag_response_info_t *response_info);
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void EmLogTraceReader(void);
bool prepare_allocated_tag_modulation(tag_response_info_t *response_info, uint8_t **buffer, size_t *max_buffer_size);
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bool EmLogTrace(uint8_t *reader_data, uint16_t reader_len, uint32_t reader_StartTime, uint32_t reader_EndTime, uint8_t *reader_Parity,
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uint8_t *tag_data, uint16_t tag_len, uint32_t tag_StartTime, uint32_t tag_EndTime, uint8_t *tag_Parity);
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void ReaderMifare(bool first_try, uint8_t block, uint8_t keytype);
void DetectNACKbug();
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void AppendCrc14443a(uint8_t *data, int len);
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#ifdef __cplusplus
}
#endif
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#endif /* __ISO14443A_H */