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https://github.com/Proxmark/proxmark3.git
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803674b2d6
Personalize MifarePlus EV1 cards
341 lines
11 KiB
Lua
341 lines
11 KiB
Lua
local cmds = require('commands')
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local lib14a = require('read14a')
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getopt = require('getopt') -- Used to get command line arguments
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example = "script run mifarePlus"
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author = "Dominic Celiano"
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desc =
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[[
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Purpose: Lua script to communicate with the Mifare Plus EV1, including personalization (setting the keys) and proximity check. Manually edit the file to add to the commands you can send the card.
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Please read the NXP manual before running this script to prevent making irreversible changes. Also note:
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- The Mifare Plus must start in SL0 for personalization. Card can then be moved to SL1 or SL3.
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- The keys are hardcoded in the script to "00...". Unless you change this, only use this script for testing purposes.
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- Make sure you choose your card size correctly (2kB or 4kB).
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Small changes can be to made this script to communicate with the Mifare Plus S, X, or SE.
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Arguments:
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-h : this help
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]]
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SIXTEEN_BYTES_ZEROS = "00000000000000000000000000000000"
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GETVERS_INIT = "0360" -- Begins the GetVersion command
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GETVERS_CONT = "03AF" -- Continues the GetVersion command
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POWEROFF = "OFF"
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WRITEPERSO = "03A8"
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COMMITPERSO = "03AA"
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AUTH_FIRST = "0370"
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AUTH_CONT = "0372"
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AUTH_NONFIRST = "0376"
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PREPAREPC = "03F0"
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PROXIMITYCHECK = "03F2"
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VERIFYPC = "03FD"
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READPLAINNOMACUNMACED = "0336"
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---
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-- This is only meant to be used when errors occur
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function oops(err)
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print("ERROR: ",err)
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end
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---
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-- Usage help
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function help()
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print(desc)
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print("Example usage")
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print(example)
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end
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---
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-- Used to send raw data to the firmware to subsequently forward the data to the card.
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function sendRaw(rawdata, crc, power)
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print(("<sent>: %s"):format(rawdata))
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local flags = lib14a.ISO14A_COMMAND.ISO14A_RAW
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if crc then
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flags = flags + lib14a.ISO14A_COMMAND.ISO14A_APPEND_CRC
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end
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if power then
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flags = flags + lib14a.ISO14A_COMMAND.ISO14A_NO_DISCONNECT
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end
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local command = Command:new{cmd = cmds.CMD_READER_ISO_14443a,
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arg1 = flags, -- Send raw
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arg2 = string.len(rawdata) / 2, -- arg2 contains the length, which is half the length of the ASCII-string rawdata
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data = rawdata}
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local ignore_response = false
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local result, err = lib14a.sendToDevice(command, ignore_response)
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if result then
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--unpack the first 4 parts of the result as longs, and the last as an extremely long string to later be cut down based on arg1, the number of bytes returned
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local count,cmd,arg1,arg2,arg3,data = bin.unpack('LLLLH512',result)
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returned_bytes = string.sub(data, 1, arg1 * 2)
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if returned_bytes ~= "" then
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print(("<recvd>: %s"):format(returned_bytes)) -- need to multiply by 2 because the hex digits are actually two bytes when they are strings
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end
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return returned_bytes
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else
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err = "Error sending the card raw data."
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oops(err)
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end
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end
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function writePerso()
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-- Used to write any data, including the keys (Key A and Key B), for all the sectors.
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-- writePerso() command parameters:
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-- 1 byte - 0xA8 - Command Code
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-- 2 bytes - Address of the first block or key to be written to (40 blocks are numbered from 0x0000 to 0x00FF)
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-- X bytes - The data bytes to be written, starting from the first block. Amount of data sent can be from 16 to 240 bytes in 16 byte increments. This allows
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-- up to 15 blocks to be written at once.
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-- response from PICC:
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-- 0x90 - OK
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-- 0x09 - targeted block is invalid for writes, i.e. block 0, which contains manufacturer data
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-- 0x0B - command invalid
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-- 0x0C - unexpected command length
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cardsize = 4 --need to set to 4 for 4k or 2 for 2k
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if(cardsize == 4) then
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numsectors = 39
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elseif(cardsize == 2) then
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numsectors = 31
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else
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oops("Invalid card size")
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end
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-- Write to the AES sector keys
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print("Setting AES Sector keys")
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for i=0,numsectors do --for each sector number
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local keyA_block = "40" .. string.format("%02x", i * 2)
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local keyB_block = "40" .. string.format("%02x", (i * 2) + 1)
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--Can also calculate the keys fancily to make them unique, if desired
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keyA = SIXTEEN_BYTES_ZEROS
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keyB = SIXTEEN_BYTES_ZEROS
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writeBlock(keyA_block, keyA)
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writeBlock(keyB_block, keyB)
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end
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print("Finished setting AES Sector keys")
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print("Setting misc keys which haven't been set yet.")
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--CardMasterKey
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blocknum = "9000"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--CardConfigurationKey
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blocknum = "9001"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--L3SwitchKey
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blocknum = "9003"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--SL1CardAuthKey
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blocknum = "9004"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--L3SectorSwitchKey
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blocknum = "9006"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--L1L3MixSectorSwitchKey
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blocknum = "9007"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--VC Keys
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--VCProximityKey
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blocknum = "A001"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--VCSelectENCKey
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blocknum = "A080"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--VCSelectMACKey
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blocknum = "A081"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--TransactionMACKey1
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blocknum = "C000"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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--TransactionMACConfKey1
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blocknum = "C001"
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writeBlock(blocknum, SIXTEEN_BYTES_ZEROS)
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print("Finished setting misc keys.")
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print("WritePerso finished! Card is ready to move into new security level.")
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end
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function writeBlock(blocknum, data)
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-- Method writes 16 bytes of the string sent (data) to the specified block number
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-- The block numbers sent to the card need to be in little endian format (i.e. block 0x0001 is sent as 0x1000)
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blocknum_little_endian = string.sub(blocknum, 3, 4) .. string.sub(blocknum, 1, 2)
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commandString = WRITEPERSO .. blocknum_little_endian .. data --Write 16 bytes (32 hex chars).
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response = sendRaw(commandString, true, true) --0x90 is returned upon success
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if string.sub(response, 3, 4) ~= "90" then
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oops(("error occurred while trying to write to block %s"):format(blocknum))
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end
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end
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function authenticateAES()
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-- Used to try to authenticate with the AES keys we programmed into the card, to ensure the authentication works correctly.
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commandString = AUTH_FIRST
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commandString = commandString .. ""
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end
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function getVersion()
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sendRaw(GETVERS_INIT, true, true)
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sendRaw(GETVERS_CONT, true, true)
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sendRaw(GETVERS_CONT, true, true)
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end
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function commitPerso(SL)
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--pass SL as "01" to move to SL1 or "03" to move to SL3.
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commandString = COMMITPERSO .. SL
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response = sendRaw(commandString, true, true) --0x90 is returned upon success
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if string.sub(response, 3, 4) ~= "90" then
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oops("error occurred while trying to switch security level")
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end
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end
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function calculateMAC(MAC_input)
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-- Pad the input if it is not a multiple of 16 bytes (32 nibbles).
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if(string.len(MAC_input) % 32 ~= 0) then
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MAC_input = MAC_input .. "80"
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end
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while(string.len(MAC_input) % 32 ~= 0) do
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MAC_input = MAC_input .. "0"
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end
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print("Padded MAC Input = " .. MAC_input .. ", length (bytes) = " .. string.len(MAC_input) / 2)
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--The MAC would actually be calculated here, and the output stored in raw_output
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raw_output = "00010203040506070001020304050607" -- Dummy filler for now of 16-byte output. To be filled with actual MAC for testing purposes.
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-- The final 8-byte MAC output is a concatenation of every 2nd byte starting from the second MSB.
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final_output = ""
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j = 3
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for i = 1,8 do
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final_output = final_output .. string.sub(RndR, j, j + 1) .. string.sub(RndC, j, j + 1)
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j = j + 4
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end
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return final_output
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end
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function proximityCheck()
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--PreparePC--
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commandString = PREPAREPC
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response = sendRaw(commandString, true, true)
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if(response == "") then
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print("ERROR: This card does not support the Proximity Check command.")
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return
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end
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OPT = string.sub(response, 5, 6)
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if(tonumber(OPT) == 1) then
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pps_present = true
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else
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pps_present = false
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end
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pubRespTime = string.sub(response, 7, 10)
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if(pps_present == true) then
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pps = string.sub(response, 11, 12)
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else
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pps = nil
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end
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print("OPT = " .. OPT .. " pubRespTime = " .. pubRespTime .. " pps = " .. pps)
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--PC--
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RndC = "0001020304050607" --Random Challenge
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num_rounds = 8 --Needs to be 1, 2, 4, or 8
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part_len = 8 / num_rounds
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j = 1
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RndR = ""
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for i = 1,num_rounds do
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pRndC = ""
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for q = 1,(part_len*2) do
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pRndC = pRndC .. string.sub(RndC,j,j)
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j = j + 1
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end
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commandString = PROXIMITYCHECK .. "0" .. tostring(part_len) .. pRndC
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pRndR = string.sub(sendRaw(commandString, true, true), 3, 3+part_len)
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RndR = RndR .. pRndR
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end
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print("RndC = " .. RndC .. " RndR = " .. RndR)
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--VerifyPC--
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MAC_input = "FD" .. OPT .. pubRespTime
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if(pps_present == true) then
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MAC_input = MAC_input .. pps
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end
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rnum_concat = ""
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rnum_concat = RndR .. RndC --temporary (only works for when a single random challenge (8 bytes) is sent)
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-- j = 1
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-- for i = 1,8 do
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-- rnum_concat = rnum_concat .. string.sub(RndR, j, j + 1) .. string.sub(RndC, j, j + 1)
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-- j = j + 2
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-- end
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MAC_input = MAC_input .. rnum_concat
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print("Concatenation of random numbers = " .. rnum_concat)
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print("Final PCD concatenation before input into MAC function = " .. MAC_input)
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MAC_tag = calculateMAC(MAC_input)
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print("8-byte PCD MAC_tag (placeholder - currently incorrect) = " .. MAC_tag)
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commandString = VERIFYPC .. MAC_tag
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response = sendRaw(commandString, true, true)
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print(response)
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PICC_MAC = string.sub(response, 5, 20)
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print("8-byte MAC returned by PICC = " .. PICC_MAC)
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MAC_input = "90" .. string.sub(MAC_input, 3)
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print("Final PICC concatenation before input into MAC function = " .. MAC_input)
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MAC_tag = calculateMAC(MAC_input)
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print("8-byte PICC MAC_tag (placeholder - currently incorrect) = " .. MAC_tag)
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end
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---
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-- The main entry point
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function main(args)
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print("") -- Print a blank line to make things look cleaner
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for o, a in getopt.getopt(args, 'h') do -- Populate command line arguments
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if o == "h" then help() return end
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end
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-- Initialize the card using the already-present read14a library
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info,err = lib14a.read14443a(true, false)
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--Perform RATS and PPS (Protocol and Parameter Selection) check to finish the ISO 14443-4 protocol.
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response = sendRaw("e050", true, true)
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if(response == "") then
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print("No response from RATS.")
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end
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response = sendRaw("D01100", true, true)
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if(response == "") then
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print("No response from PPS check.")
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end
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if err then
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oops(err)
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sendRaw(POWEROFF, false, false)
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return
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else
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print(("Connected to card with a UID of %s."):format(info.uid))
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end
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-- Now, the card is initialized and we can do more interesting things.
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--writePerso()
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--commitPerso("03") --move to SL3
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--getVersion()
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proximityCheck()
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--commandString = VERIFYPC .. "186EFDE8DDC7D30B"
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-- MAC = f5180d6e 40fdeae8 e9dd6ac7 bcd3350b
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-- response = sendRaw(commandString, true, true)
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-- attempt to read VCProximityKey at block A001
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-- commandString = READPLAINNOMACUNMACED .. "01A0" .. "01"
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-- response = sendRaw(commandString, true, true)
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-- authenticate with CardConfigurationKey
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-- commandString = AUTH_FIRST .. "0190" .. "00"
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-- response = sendRaw(commandString, true, true)
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-- Power off the Proxmark
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sendRaw(POWEROFF, false, false)
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end
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main(args) -- Call the main function
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