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readMifare.ino
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| /**************************************************************************/ | |
| /*! | |
| This example will wait for any ISO14443A card or tag, and | |
| depending on the size of the UID will attempt to read from it. | |
| If the card has a 4-byte UID it is probably a Mifare | |
| Classic card, and the following steps are taken: | |
| - Authenticate block 4 (the first block of Sector 1) using | |
| the default KEYA of 0XFF 0XFF 0XFF 0XFF 0XFF 0XFF | |
| - If authentication succeeds, we can then read any of the | |
| 4 blocks in that sector (though only block 4 is read here) | |
| If the card has a 7-byte UID it is probably a Mifare | |
| Ultralight card, and the 4 byte pages can be read directly. | |
| Page 4 is read by default since this is the first 'general- | |
| purpose' page on the tags. | |
| To enable debug message, define DEBUG in PN532/PN532_debug.h | |
| */ | |
| /**************************************************************************/ | |
| #include <Wire.h> | |
| #include <PN532_I2C.h> | |
| #include <PN532.h> | |
| PN532_I2C pn532i2c(Wire); | |
| PN532 nfc(pn532i2c); | |
| void setup(void) { | |
| Serial.begin(115200); | |
| Serial.println("Hello!"); | |
| Wire.setClockStretchLimit(2000); | |
| nfc.begin(); | |
| nfc.setPassiveActivationRetries(0x19); | |
| uint32_t versiondata = nfc.getFirmwareVersion(); | |
| if (! versiondata) { | |
| Serial.print("Didn't find PN53x board"); | |
| while (1); // halt | |
| } | |
| // Got ok data, print it out! | |
| Serial.print("Found chip PN5"); Serial.println((versiondata>>24) & 0xFF, HEX); | |
| Serial.print("Firmware ver. "); Serial.print((versiondata>>16) & 0xFF, DEC); | |
| Serial.print('.'); Serial.println((versiondata>>8) & 0xFF, DEC); | |
| // configure board to read RFID tags | |
| nfc.SAMConfig(); | |
| Serial.println("Waiting for an ISO14443A Card ..."); | |
| } | |
| void loop(void) { | |
| uint8_t success; | |
| uint8_t uid[] = { 0, 0, 0, 0, 0, 0, 0 }; // Buffer to store the returned UID | |
| uint8_t uidLength; // Length of the UID (4 or 7 bytes depending on ISO14443A card type) | |
| // Wait for an ISO14443A type cards (Mifare, etc.). When one is found | |
| // 'uid' will be populated with the UID, and uidLength will indicate | |
| // if the uid is 4 bytes (Mifare Classic) or 7 bytes (Mifare Ultralight) | |
| success = nfc.readPassiveTargetID(PN532_MIFARE_ISO14443A, uid, &uidLength); | |
| if (success) { | |
| // Display some basic information about the card | |
| Serial.println("Found an ISO14443A card"); | |
| Serial.print(" UID Length: ");Serial.print(uidLength, DEC);Serial.println(" bytes"); | |
| Serial.print(" UID Value: "); | |
| nfc.PrintHex(uid, uidLength); | |
| Serial.println(""); | |
| if (uidLength == 4) | |
| { | |
| // We probably have a Mifare Classic card ... | |
| Serial.println("Seems to be a Mifare Classic card (4 byte UID)"); | |
| // Now we need to try to authenticate it for read/write access | |
| // Try with the factory default KeyA: 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF | |
| Serial.println("Trying to authenticate block 4 with default KEYA value"); | |
| uint8_t keya[6] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; | |
| // Start with block 4 (the first block of sector 1) since sector 0 | |
| // contains the manufacturer data and it's probably better just | |
| // to leave it alone unless you know what you're doing | |
| success = nfc.mifareclassic_AuthenticateBlock(uid, uidLength, 4, 0, keya); | |
| if (success) | |
| { | |
| Serial.println("Sector 1 (Blocks 4..7) has been authenticated"); | |
| uint8_t data[16]; | |
| // If you want to write something to block 4 to test with, uncomment | |
| // the following line and this text should be read back in a minute | |
| // data = { 'a', 'd', 'a', 'f', 'r', 'u', 'i', 't', '.', 'c', 'o', 'm', 0, 0, 0, 0}; | |
| // success = nfc.mifareclassic_WriteDataBlock (4, data); | |
| // Try to read the contents of block 4 | |
| success = nfc.mifareclassic_ReadDataBlock(4, data); | |
| if (success) | |
| { | |
| // Data seems to have been read ... spit it out | |
| Serial.println("Reading Block 4:"); | |
| nfc.PrintHexChar(data, 16); | |
| Serial.println(""); | |
| // Wait a bit before reading the card again | |
| delay(1000); | |
| } | |
| else | |
| { | |
| Serial.println("Ooops ... unable to read the requested block. Try another key?"); | |
| } | |
| } | |
| else | |
| { | |
| Serial.println("Ooops ... authentication failed: Try another key?"); | |
| } | |
| } | |
| if (uidLength == 7) | |
| { | |
| // We probably have a Mifare Ultralight card ... | |
| Serial.println("Seems to be a Mifare Ultralight tag (7 byte UID)"); | |
| // Try to read the first general-purpose user page (#4) | |
| Serial.println("Reading page 4"); | |
| uint8_t data[32]; | |
| success = nfc.mifareultralight_ReadPage (4, data); | |
| if (success) | |
| { | |
| // Data seems to have been read ... spit it out | |
| nfc.PrintHexChar(data, 4); | |
| Serial.println(""); | |
| // Wait a bit before reading the card again | |
| delay(1000); | |
| } | |
| else | |
| { | |
| Serial.println("Ooops ... unable to read the requested page!?"); | |
| } | |
| } | |
| } | |
| } |
Hello!
Didn't find PN53x board
Soft WDT reset
ctx: cont
sp: 3ffefba0 end: 3ffefd80 offset: 01b0
stack>>>
3ffefd50: 3fffdad0 3ffeeb98 3ffeed34 402020b9
3ffefd60: 3fffdad0 00000000 3ffeed50 40202f6c
3ffefd70: feefeffe feefeffe 3ffeed60 40100718
<<<stack<<<
ets Jan 8 2013,rst cause:2, boot mode:(1,2)
ets Jan 8 2013,rst cause:4, boot mode:(1,2)
wdt reset
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PN532_I2C.cpp
void PN532_I2C::begin()
{
_wire->begin(0, 2);
}