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586 lines
20 KiB
C
586 lines
20 KiB
C
//-----------------------------------------------------------------------------
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// Frederik Möllers - August 2012
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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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// Routines to support the German electronic "Personalausweis" (ID card)
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// Note that the functions which do not implement USB commands do NOT initialize
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// the card (with iso14443a_select_card etc.). If You want to use these
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// functions, You need to do the setup before calling them!
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//-----------------------------------------------------------------------------
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#include "epa.h"
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#include "cmd.h"
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#include "fpgaloader.h"
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#include "iso14443a.h"
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#include "iso14443b.h"
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#include "string.h"
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#include "util.h"
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#include "dbprint.h"
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#include "commonutil.h"
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#include "ticks.h"
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#ifdef WITH_ISO14443a
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// Protocol and Parameter Selection Request for ISO 14443 type A cards
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// use regular (1x) speed in both directions
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// CRC is already included
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static const uint8_t pps[] = {0xD0, 0x11, 0x00, 0x52, 0xA6};
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#endif
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// APDUs for communication with German Identification Card
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// General Authenticate (request encrypted nonce) WITHOUT the Le at the end
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static const uint8_t apdu_general_authenticate_pace_get_nonce[] = {
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0x10, // CLA
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0x86, // INS
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0x00, // P1
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0x00, // P2
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0x02, // Lc
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0x7C, // Type: Dynamic Authentication Data
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0x00, // Length: 0 bytes
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};
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// MSE: Set AT (only CLA, INS, P1 and P2)
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static const uint8_t apdu_mse_set_at_start[] = {
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0x00, // CLA
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0x22, // INS
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0xC1, // P1
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0xA4, // P2
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};
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// SELECT BINARY with the ID for EF.CardAccess
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static const uint8_t apdu_select_binary_cardaccess[] = {
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0x00, // CLA
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0xA4, // INS
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0x02, // P1
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0x0C, // P2
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0x02, // Lc
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0x01, // ID
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0x1C // ID
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};
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// READ BINARY
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static const uint8_t apdu_read_binary[] = {
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0x00, // CLA
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0xB0, // INS
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0x00, // P1
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0x00, // P2
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0x38 // Le
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};
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// the leading bytes of a PACE OID
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static const uint8_t oid_pace_start[] = {
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0x04, // itu-t, identified-organization
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0x00, // etsi
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0x7F, // reserved
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0x00, // etsi-identified-organization
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0x07, // bsi-de
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0x02, // protocols
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0x02, // smartcard
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0x04 // id-PACE
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};
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// APDUs for replaying:
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// MSE: Set AT (initiate PACE)
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static uint8_t apdu_replay_mse_set_at_pace[41];
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// General Authenticate (Get Nonce)
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static uint8_t apdu_replay_general_authenticate_pace_get_nonce[8];
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// General Authenticate (Map Nonce)
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static uint8_t apdu_replay_general_authenticate_pace_map_nonce[75];
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// General Authenticate (Mutual Authenticate)
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static uint8_t apdu_replay_general_authenticate_pace_mutual_authenticate[75];
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// General Authenticate (Perform Key Agreement)
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static uint8_t apdu_replay_general_authenticate_pace_perform_key_agreement[18];
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// pointers to the APDUs (for iterations)
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static struct {
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uint8_t len;
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uint8_t *data;
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} const apdus_replay[] = {
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{sizeof(apdu_replay_mse_set_at_pace), apdu_replay_mse_set_at_pace},
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{sizeof(apdu_replay_general_authenticate_pace_get_nonce), apdu_replay_general_authenticate_pace_get_nonce},
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{sizeof(apdu_replay_general_authenticate_pace_map_nonce), apdu_replay_general_authenticate_pace_map_nonce},
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{sizeof(apdu_replay_general_authenticate_pace_mutual_authenticate), apdu_replay_general_authenticate_pace_mutual_authenticate},
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{sizeof(apdu_replay_general_authenticate_pace_perform_key_agreement), apdu_replay_general_authenticate_pace_perform_key_agreement}
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};
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// lengths of the replay APDUs
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static uint8_t apdu_lengths_replay[5];
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// type of card (ISO 14443 A or B)
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static char iso_type = 0;
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//-----------------------------------------------------------------------------
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// Wrapper for sending APDUs to type A and B cards
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//-----------------------------------------------------------------------------
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static int EPA_APDU(uint8_t *apdu, size_t length, uint8_t *response, uint16_t respmaxlen) {
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switch (iso_type) {
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case 'a':
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#ifdef WITH_ISO14443a
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return iso14_apdu(apdu, (uint16_t) length, false, response, NULL);
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#else
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(void) apdu;
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(void) length;
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(void) response;
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(void) respmaxlen;
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return PM3_ENOTIMPL;
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#endif
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case 'b':
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#ifdef WITH_ISO14443b
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return iso14443b_apdu(apdu, length, false, response, respmaxlen, NULL);
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#else
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(void) apdu;
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(void) length;
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(void) response;
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(void) respmaxlen;
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return PM3_ENOTIMPL;
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#endif
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default:
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return 0;
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}
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}
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//-----------------------------------------------------------------------------
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// Closes the communication channel and turns off the field
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//-----------------------------------------------------------------------------
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void EPA_Finish(void) {
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FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
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LEDsoff();
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iso_type = 0;
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}
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//-----------------------------------------------------------------------------
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// Parses DER encoded data, e.g. from EF.CardAccess and fills out the given
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// structs. If a pointer is 0, it is ignored.
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// The function returns 0 on success and if an error occurred, it returns the
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// offset where it occurred.
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//
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// TODO: This function can access memory outside of the given data if the DER
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// encoding is broken
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// TODO: Support skipping elements with a length > 0x7F
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// TODO: Support OIDs with a length > 7F
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// TODO: Support elements with long tags (tag is longer than 1 byte)
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// TODO: Support proprietary PACE domain parameters
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//-----------------------------------------------------------------------------
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size_t EPA_Parse_CardAccess(uint8_t *data, size_t length, pace_version_info_t *pace_info) {
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size_t index = 0;
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while (index <= length - 2) {
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// determine type of element
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// SET or SEQUENCE
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if (data[index] == 0x31 || data[index] == 0x30) {
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// enter the set (skip tag + length)
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index += 2;
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// check for extended length
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if ((data[index - 1] & 0x80) != 0) {
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index += (data[index - 1] & 0x7F);
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}
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}
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// OID
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else if (data[index] == 0x06) {
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// is this a PACE OID?
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if (data[index + 1] == 0x0A // length matches
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&& memcmp(data + index + 2, oid_pace_start, sizeof(oid_pace_start)) == 0 // content matches
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&& pace_info != NULL) {
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// first, clear the pace_info struct
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memset(pace_info, 0, sizeof(pace_version_info_t));
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memcpy(pace_info->oid, data + index + 2, sizeof(pace_info->oid));
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// a PACE OID is followed by the version
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index += data[index + 1] + 2;
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if (data[index] == 02 && data[index + 1] == 01) {
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pace_info->version = data[index + 2];
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index += 3;
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} else {
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return index;
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}
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// after that there might(!) be the parameter ID
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if (data[index] == 02 && data[index + 1] == 01) {
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pace_info->parameter_id = data[index + 2];
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index += 3;
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}
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} else {
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// skip this OID
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index += 2 + data[index + 1];
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}
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}
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// if the length is 0, something is wrong
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// TODO: This needs to be extended to support long tags
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else if (data[index + 1] == 0) {
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return index;
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} else {
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// skip this part
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// TODO: This needs to be extended to support long tags
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// TODO: This needs to be extended to support unknown elements with
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// a size > 0x7F
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index += 2 + data[index + 1];
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}
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}
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// TODO: We should check whether we reached the end in error, but for that
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// we need a better parser (e.g. with states like IN_SET or IN_PACE_INFO)
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return 0;
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}
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//-----------------------------------------------------------------------------
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// Read the file EF.CardAccess and save it into a buffer (at most max_length bytes)
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// Returns -1 on failure or the length of the data on success
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// TODO: for the moment this sends only 1 APDU regardless of the requested length
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//-----------------------------------------------------------------------------
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int EPA_Read_CardAccess(uint8_t *buffer, size_t max_length) {
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// the response APDU of the card
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// since the card doesn't always care for the expected length we send it,
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// we reserve 262 bytes here just to be safe (256-byte APDU + SW + ISO frame)
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uint8_t response_apdu[262];
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// select the file EF.CardAccess
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int rapdu_length = EPA_APDU((uint8_t *)apdu_select_binary_cardaccess,
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sizeof(apdu_select_binary_cardaccess),
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response_apdu,
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sizeof(response_apdu)
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);
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if (rapdu_length < 6
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|| response_apdu[rapdu_length - 4] != 0x90
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|| response_apdu[rapdu_length - 3] != 0x00) {
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DbpString("Failed to select EF.CardAccess!");
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return -1;
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}
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// read the file
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rapdu_length = EPA_APDU((uint8_t *)apdu_read_binary,
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sizeof(apdu_read_binary),
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response_apdu,
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sizeof(response_apdu)
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);
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if (rapdu_length <= 6
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|| response_apdu[rapdu_length - 4] != 0x90
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|| response_apdu[rapdu_length - 3] != 0x00) {
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Dbprintf("Failed to read EF.CardAccess!");
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return -1;
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}
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// copy the content into the buffer
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// length of data available: apdu_length - 4 (ISO frame) - 2 (SW)
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size_t len = rapdu_length - 6;
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len = len < max_length ? len : max_length;
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memcpy(buffer, response_apdu + 2, len);
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return len;
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}
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//-----------------------------------------------------------------------------
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// Abort helper function for EPA_PACE_Collect_Nonce
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// sets relevant data in ack, sends the response
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//-----------------------------------------------------------------------------
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static void EPA_PACE_Collect_Nonce_Abort(uint32_t cmd, uint8_t step, int func_return) {
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// power down the field
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EPA_Finish();
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// send the USB packet
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reply_mix(cmd, step, func_return, 0, 0, 0);
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}
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//-----------------------------------------------------------------------------
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// Acquire one encrypted PACE nonce
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//-----------------------------------------------------------------------------
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void EPA_PACE_Collect_Nonce(PacketCommandNG *c) {
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/*
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* ack layout:
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* arg:
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* 1. element
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* step where the error occurred or 0 if no error occurred
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* 2. element
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* return code of the last executed function
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* d:
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* Encrypted nonce
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*/
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// set up communication
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int func_return = EPA_Setup();
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if (func_return != 0) {
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EPA_PACE_Collect_Nonce_Abort(CMD_HF_EPA_COLLECT_NONCE, 1, func_return);
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return;
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}
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// read the CardAccess file
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// this array will hold the CardAccess file
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uint8_t card_access[256] = {0};
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int cardlen = EPA_Read_CardAccess(card_access, 256);
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// the response has to be at least this big to hold the OID
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if (cardlen < 18) {
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EPA_PACE_Collect_Nonce_Abort(CMD_HF_EPA_COLLECT_NONCE, 2, cardlen);
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return;
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}
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// this will hold the PACE info of the card
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pace_version_info_t pace_version_info;
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// search for the PACE OID
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func_return = EPA_Parse_CardAccess(card_access, cardlen, &pace_version_info);
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if (func_return != 0 || pace_version_info.version == 0) {
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EPA_PACE_Collect_Nonce_Abort(CMD_HF_EPA_COLLECT_NONCE, 3, func_return);
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return;
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}
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// initiate the PACE protocol
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// use the CAN for the password since that doesn't change
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func_return = EPA_PACE_MSE_Set_AT(pace_version_info, 2);
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// check if the command succeeded
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if (func_return != 0) {
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EPA_PACE_Collect_Nonce_Abort(CMD_HF_EPA_COLLECT_NONCE, 4, func_return);
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return;
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}
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// now get the nonce
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uint8_t nonce[256] = {0};
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struct p {
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uint32_t m;
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} PACKED;
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struct p *packet = (struct p *)c->data.asBytes;
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func_return = EPA_PACE_Get_Nonce(packet->m, nonce);
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// check if the command succeeded
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if (func_return < 0) {
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EPA_PACE_Collect_Nonce_Abort(CMD_HF_EPA_COLLECT_NONCE, 5, func_return);
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return;
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}
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EPA_Finish();
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// save received information
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reply_mix(CMD_HF_EPA_COLLECT_NONCE, 0, func_return, 0, nonce, func_return);
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}
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//-----------------------------------------------------------------------------
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// Performs the "Get Nonce" step of the PACE protocol and saves the returned
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// nonce. The caller is responsible for allocating enough memory to store the
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// nonce. Note that the returned size might be less or than or greater than the
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// requested size!
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// Returns the actual size of the nonce on success or a less-than-zero error
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// code on failure.
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//-----------------------------------------------------------------------------
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int EPA_PACE_Get_Nonce(uint8_t requested_length, uint8_t *nonce) {
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// build the APDU
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uint8_t apdu[sizeof(apdu_general_authenticate_pace_get_nonce) + 1];
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// copy the constant part
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memcpy(apdu, apdu_general_authenticate_pace_get_nonce, sizeof(apdu_general_authenticate_pace_get_nonce));
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// append Le (requested length + 2 due to tag/length taking 2 bytes) in RAPDU
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apdu[sizeof(apdu_general_authenticate_pace_get_nonce)] = requested_length + 4;
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uint8_t response_apdu[262];
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int send_return = EPA_APDU(apdu, sizeof(apdu), response_apdu, sizeof(response_apdu));
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if (send_return < 6
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|| response_apdu[send_return - 4] != 0x90
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|| response_apdu[send_return - 3] != 0x00) {
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return -1;
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}
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// if there is no nonce in the RAPDU, return here
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if (send_return < 10) {
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// no error
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return 0;
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}
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// get the actual length of the nonce
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uint8_t nonce_length = response_apdu[5];
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if (nonce_length > send_return - 10) {
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nonce_length = send_return - 10;
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}
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// copy the nonce
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memcpy(nonce, response_apdu + 6, nonce_length);
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return nonce_length;
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}
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//-----------------------------------------------------------------------------
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// Initializes the PACE protocol by performing the "MSE: Set AT" step
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// Returns 0 on success or a non-zero error code on failure
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//-----------------------------------------------------------------------------
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int EPA_PACE_MSE_Set_AT(pace_version_info_t pace_version_info, uint8_t password) {
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// create the MSE: Set AT APDU
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uint8_t apdu[23];
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// the minimum length (will be increased as more data is added)
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size_t apdu_length = 20;
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// copy the constant part
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memcpy(apdu, apdu_mse_set_at_start, sizeof(apdu_mse_set_at_start));
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// type: OID
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apdu[5] = 0x80;
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// length of the OID
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apdu[6] = sizeof(pace_version_info.oid);
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// copy the OID
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memcpy(apdu + 7, pace_version_info.oid, sizeof(pace_version_info.oid));
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// type: password
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apdu[17] = 0x83;
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// length: 1
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apdu[18] = 1;
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// password
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apdu[19] = password;
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// if standardized domain parameters are used, copy the ID
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if (pace_version_info.parameter_id != 0) {
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apdu_length += 3;
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// type: domain parameter
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apdu[20] = 0x84;
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// length: 1
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apdu[21] = 1;
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// copy the parameter ID
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apdu[22] = pace_version_info.parameter_id;
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}
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// now set Lc to the actual length
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apdu[4] = apdu_length - 5;
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// send it
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uint8_t response_apdu[6];
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int send_return = EPA_APDU(apdu, apdu_length, response_apdu, sizeof(response_apdu));
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Dbprintf("send ret %d bytes", send_return);
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// Dbhexdump(send_return, response_apdu, false);
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// check if the command succeeded
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if (send_return != 6)
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// && response_apdu[send_return - 4] != 0x90
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// || response_apdu[send_return - 3] != 0x00)
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{
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return 1;
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}
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return 0;
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}
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//-----------------------------------------------------------------------------
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// Perform the PACE protocol by replaying given APDUs
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//-----------------------------------------------------------------------------
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void EPA_PACE_Replay(PacketCommandNG *c) {
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uint32_t timings[ARRAYLEN(apdu_lengths_replay)] = {0};
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// if an APDU has been passed, save it
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if (c->oldarg[0] != 0) {
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// make sure it's not too big
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if (c->oldarg[2] > apdus_replay[c->oldarg[0] - 1].len) {
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reply_mix(CMD_ACK, 1, 0, 0, NULL, 0);
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}
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memcpy(apdus_replay[c->oldarg[0] - 1].data + c->oldarg[1],
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c->data.asBytes,
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c->oldarg[2]);
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// save/update APDU length
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if (c->oldarg[1] == 0) {
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apdu_lengths_replay[c->oldarg[0] - 1] = c->oldarg[2];
|
|
} else {
|
|
apdu_lengths_replay[c->oldarg[0] - 1] += c->oldarg[2];
|
|
}
|
|
reply_mix(CMD_ACK, 0, 0, 0, NULL, 0);
|
|
return;
|
|
}
|
|
|
|
// return value of a function
|
|
int func_return;
|
|
|
|
// set up communication
|
|
func_return = EPA_Setup();
|
|
if (func_return != 0) {
|
|
EPA_Finish();
|
|
reply_mix(CMD_ACK, 2, func_return, 0, NULL, 0);
|
|
return;
|
|
}
|
|
|
|
// increase the timeout (at least some cards really do need this!)/////////////
|
|
// iso14a_set_timeout(0x0003FFFF);
|
|
|
|
// response APDU
|
|
uint8_t response_apdu[300] = {0};
|
|
|
|
// now replay the data and measure the timings
|
|
for (int i = 0; i < ARRAYLEN(apdu_lengths_replay); i++) {
|
|
StartCountUS();
|
|
func_return = EPA_APDU(apdus_replay[i].data,
|
|
apdu_lengths_replay[i],
|
|
response_apdu,
|
|
sizeof(response_apdu)
|
|
);
|
|
timings[i] = GetCountUS();
|
|
// every step but the last one should succeed
|
|
if (i < ARRAYLEN(apdu_lengths_replay) - 1
|
|
&& (func_return < 6
|
|
|| response_apdu[func_return - 4] != 0x90
|
|
|| response_apdu[func_return - 3] != 0x00)) {
|
|
EPA_Finish();
|
|
reply_mix(CMD_ACK, 3 + i, func_return, 0, timings, 20);
|
|
return;
|
|
}
|
|
}
|
|
EPA_Finish();
|
|
reply_mix(CMD_ACK, 0, 0, 0, timings, 20);
|
|
return;
|
|
}
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// Set up a communication channel (Card Select, PPS)
|
|
// Returns 0 on success or a non-zero error code on failure
|
|
//-----------------------------------------------------------------------------
|
|
int EPA_Setup(void) {
|
|
|
|
#ifdef WITH_ISO14443a
|
|
{
|
|
// first, look for type A cards
|
|
FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
|
|
// power up the field
|
|
iso14443a_setup(FPGA_HF_ISO14443A_READER_MOD);
|
|
iso14a_card_select_t card_a_info;
|
|
int return_code = iso14443a_select_card(NULL, &card_a_info, NULL, true, 0, false);
|
|
|
|
if (return_code == 1) {
|
|
uint8_t pps_response[3];
|
|
uint8_t pps_response_par[1];
|
|
// send the PPS request
|
|
ReaderTransmit((uint8_t *)pps, sizeof(pps), NULL);
|
|
return_code = ReaderReceive(pps_response, pps_response_par);
|
|
if (return_code != 3 || pps_response[0] != 0xD0) {
|
|
return return_code == 0 ? 2 : return_code;
|
|
}
|
|
Dbprintf("ISO 14443 Type A");
|
|
iso_type = 'a';
|
|
return 0;
|
|
}
|
|
}
|
|
#endif
|
|
#ifdef WITH_ISO14443b
|
|
{
|
|
// if we're here, there is no type A card, so we look for type B
|
|
FpgaWriteConfWord(FPGA_MAJOR_MODE_OFF);
|
|
// power up the field
|
|
iso14443b_setup();
|
|
iso14b_card_select_t card_b_info;
|
|
int return_code = iso14443b_select_card(&card_b_info);
|
|
|
|
if (return_code == 0) {
|
|
Dbprintf("ISO 14443 Type B");
|
|
iso_type = 'b';
|
|
return 0;
|
|
}
|
|
}
|
|
#endif
|
|
Dbprintf("No card found");
|
|
return 1;
|
|
}
|