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nest-open-source / nest-learning-thermostat / 5.1.5 / neard / bed6b6f4f73a8db2f4cb8abf4d99816ed52fe502 / . / neard / plugins / nfctype4.c
blob: 6f2e6e6767b6179ab9834ee11f20570f5da0d9ad [file] [log] [blame]
/*
*
* neard - Near Field Communication manager
*
* Copyright (C) 2011 Intel Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdint.h>
#include <errno.h>
#include <stdbool.h>
#include <string.h>
#include <sys/socket.h>
#include <linux/socket.h>
#include <near/nfc_copy.h>
#include <near/plugin.h>
#include <near/log.h>
#include <near/types.h>
#include <near/adapter.h>
#include <near/tag.h>
#include <near/ndef.h>
#include <near/tlv.h>
#define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0]))
#define NFC_STATUS 0
#define NFC_STATUS_BYTE_LEN 1
#define STATUS_WORD_1 1
#define STATUS_WORD_2 2
#define APDU_HEADER_LEN 5
#define APDU_OK 0x9000
#define APDU_NOT_FOUND 0x6A82
/* PICC Level Commands */
#define PICC_CLASS 0x90
#define GET_VERSION 0x60
#define CREATE_APPLICATION 0xCA
#define SELECT_APPLICATION 0x5A
#define CREATE_STD_DATA_FILE 0xCD
#define WRITE_DATA_TO_FILE 0x3D
#define DESFire_EV1_MAJOR_VERSION 0x01
#define PICC_LEVEL_APDU_OK 0x9100
#define GET_VERSION_FRAME_RESPONSE_BYTE 0xAF
#define DESFIRE_KEY_SETTINGS 0x0F
#define DESFIRE_NUM_OF_KEYS 0x21
#define DESFIRE_CC_FILE_NUM 0x01
#define DESFIRE_NDEF_FILE_NUM 0x02
#define DESFIRE_COMMSET 0x00
#define MAPPING_VERSION 0x20
#define FREE_READ_ACCESS 0x00
#define FREE_WRITE_ACCESS 0x00
#define T4_ALL_ACCESS 0x00
#define T4_READ_ONLY 0xFF
#define APDU_STATUS(a) near_get_be16(a)
/* Tag Type 4 version ID */
static uint8_t iso_appname_v1[] = { 0xd2, 0x76, 0x0, 0x0, 0x85, 0x01, 0x0 };
static uint8_t iso_appname_v2[] = { 0xd2, 0x76, 0x0, 0x0, 0x85, 0x01, 0x1 };
/* Tag T4 File ID */
static uint8_t iso_cc_fileid[] = { 0xe1, 0x03 };
#define LEN_ISO_CC_FILEID 2
#define LEN_ISO_CC_READ_SIZE 0x0F
#define CMD_HEADER_SIZE 5
struct type4_cmd { /* iso 7816 */
uint8_t class;
uint8_t instruction;
uint8_t param1;
uint8_t param2;
uint8_t data_length;
uint8_t data[];
} __attribute__((packed));
struct type4_NDEF_file_control_tlv {
uint8_t tag ; /* should be 4 */
uint8_t len ; /* should be 6 */
uint16_t file_id ;
uint16_t max_ndef_size ;
uint8_t read_access ;
uint8_t write_access ;
} __attribute__((packed));
struct type4_cc { /* Capability Container */
uint16_t CCLEN;
uint8_t mapping_version;
uint16_t max_R_apdu_data_size;
uint16_t max_C_apdu_data_size;
struct type4_NDEF_file_control_tlv tlv_fc ;
uint8_t tlv_blocks[];
} __attribute__((packed));
struct desfire_app {
uint8_t aid[3];
uint8_t key_settings;
uint8_t number_of_keys;
uint8_t file_id[2];
uint8_t iso_appname[7];
} __attribute__((packed));
struct desfire_std_file {
uint8_t file_num;
uint8_t file_id[2];
uint8_t comm_set;
uint8_t access_rights[2];
uint8_t size[3];
} __attribute__((packed));
struct desfire_cc_file {
uint8_t file_num;
uint8_t offset[3];
uint8_t max_len[3];
uint8_t cc_len[2];
uint8_t version;
uint8_t mle[2];
uint8_t mlc[2];
uint8_t ndef_tlv[4];
uint8_t ndef_size[2];
uint8_t read_access;
uint8_t write_access;
} __attribute__((packed));
struct t4_cookie {
uint32_t adapter_idx;
uint32_t target_idx;
near_tag_io_cb cb;
struct near_tag *tag;
uint16_t read_data;
uint16_t r_apdu_max_size;
uint16_t c_apdu_max_size;
uint16_t max_ndef_size;
uint8_t write_access;
struct near_ndef_message *ndef;
uint16_t memory_size;
};
static int t4_cookie_release(int err, void *data)
{
struct t4_cookie *cookie = data;
DBG("%p", cookie);
if (!cookie)
return err;
if (err < 0 && cookie->cb)
cookie->cb(cookie->adapter_idx, cookie->target_idx, err);
if (cookie->ndef)
g_free(cookie->ndef->data);
g_free(cookie->ndef);
g_free(cookie);
return err;
}
/* ISO functions: This code prepares APDU */
static int ISO_send_cmd(uint8_t class,
uint8_t instruction,
uint8_t param1,
uint8_t param2,
uint8_t *cmd_data,
uint8_t cmd_data_length,
bool le,
near_recv cb,
void *in_data)
{
struct type4_cmd *cmd;
struct t4_cookie *in_rcv = in_data;
uint8_t total_cmd_length;
int err;
DBG("CLA-%02x INS-%02x P1-%02x P2-%02x",
class, instruction, param1, param2);
if (!le) {
if (cmd_data)
total_cmd_length = APDU_HEADER_LEN + cmd_data_length;
else
total_cmd_length = APDU_HEADER_LEN;
} else { /* Extra byte for Le */
total_cmd_length = APDU_HEADER_LEN + cmd_data_length + 1;
}
cmd = g_try_malloc0(total_cmd_length);
if (!cmd) {
DBG("Mem alloc failed");
err = t4_cookie_release(-ENOMEM, in_rcv);
goto out_err;
}
cmd->class = class;
cmd->instruction = instruction ;
cmd->param1 = param1 ;
cmd->param2 = param2 ;
cmd->data_length = cmd_data_length;
if (cmd_data) {
memcpy(cmd->data, cmd_data, cmd_data_length);
/* The Le byte set to 0x00 defined that any length
* of PICC response is allowed */
if (le)
cmd->data[cmd_data_length] = 0;
}
err = near_adapter_send(in_rcv->adapter_idx, (uint8_t *) cmd,
total_cmd_length, cb, in_rcv,
t4_cookie_release);
out_err:
/* On exit, clean memory */
g_free(cmd);
return err;
}
/* ISO 7816 command: Select applications or files
* p1=0 select by "file id"
* P1=4 select by "DF name"
* If P1 == 0, then P2 is 0x0C.
* If P2 == 4, then P2 is 0x00.
* */
static int ISO_Select(uint8_t *filename, uint8_t fnamelen, uint8_t P1,
near_recv cb, void *cookie)
{
uint16_t P2;
DBG("");
P2 = P1 ? 0x00 : 0x0C;
return ISO_send_cmd(
0x00, /* CLA */
0xA4, /* INS: Select file */
P1, /* P1: select by name */
P2, /* P2: First or only occurrence */
filename, /* cmd_data */
fnamelen, /* uint8_t cmd_data_length*/
false,
cb,
cookie);
}
/* ISO 7816 command: Read binary data from files */
static int ISO_ReadBinary(uint16_t offset, uint8_t readsize,
near_recv cb, void *cookie)
{
DBG("");
return ISO_send_cmd(
0x00, /* CLA */
0xB0, /* INS: Select file */
(uint8_t) ((offset & 0xFF00) >> 8),
(uint8_t) (offset & 0xFF),
0, /* no data send */
readsize, /* bytes to read */
false,
cb,
cookie);
}
/* ISO 7816 command: Update data */
static int ISO_Update(uint16_t offset, uint8_t nlen,
uint8_t *data, near_recv cb, void *cookie)
{
DBG("");
return ISO_send_cmd(
0x00, /* CLA */
0xD6, /* INS: Select file */
(uint8_t) ((offset & 0xFF00) >> 8),
(uint8_t) (offset & 0xFF),
data, /* length of NDEF data */
nlen, /* NLEN + NDEF data */
false,
cb,
cookie);
}
static int data_read_cb(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data ;
uint8_t *nfc_data;
size_t data_length, length_read, current_length;
uint16_t remain_bytes;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
if (APDU_STATUS(resp + length - 2) != APDU_OK) {
DBG("Fail read_cb SW:x%04x", APDU_STATUS(resp + length - 2));
return t4_cookie_release(-EIO, cookie);
}
nfc_data = near_tag_get_data(cookie->tag, &data_length);
/* Remove SW1 / SW2 and NFC header */
length_read = length - NFC_HEADER_SIZE - 2 ;
length = length_read;
current_length = cookie->read_data;
if ((current_length + length_read) > data_length)
length_read = data_length - current_length;
memcpy(nfc_data + current_length, resp + NFC_HEADER_SIZE, length_read);
if ((current_length + length_read) == data_length) {
GList *records;
DBG("Done reading");
records = near_ndef_parse_msg(nfc_data, data_length, NULL);
near_tag_add_records(cookie->tag, records, cookie->cb, 0);
return t4_cookie_release(0, cookie);
}
cookie->read_data += length ;
remain_bytes = data_length - cookie->read_data;
if (remain_bytes >= cookie->r_apdu_max_size)
return ISO_ReadBinary(cookie->read_data + 2,
cookie->r_apdu_max_size, data_read_cb, cookie);
else
return ISO_ReadBinary(cookie->read_data + 2,
(uint8_t) remain_bytes, data_read_cb, cookie);
}
static int t4_readbin_NDEF_ID(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
struct near_tag *tag = cookie->tag;
size_t data_length;
int err;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
if (APDU_STATUS(resp + length - 2) != APDU_OK) {
DBG("Fail SW:x%04x", APDU_STATUS(resp + length - 2));
return t4_cookie_release(-EIO, cookie);
}
data_length = near_get_be16(resp + NFC_STATUS_BYTE_LEN);
/* Add data to the tag */
err = near_tag_add_data(cookie->adapter_idx, cookie->target_idx, NULL,
data_length);
if (err < 0)
return t4_cookie_release(err, cookie);
near_tag_set_blank(tag, FALSE);
/* Set write conditions */
if (cookie->write_access == T4_READ_ONLY)
near_tag_set_ro(tag, TRUE);
else
near_tag_set_ro(tag, FALSE);
/*
* TODO: see how we can get the UID value:
* near_tag_set_uid(tag, resp + NFC_HEADER_SIZE, 8);
*/
/* Read 1st block */
if (data_length >= cookie->r_apdu_max_size)
return ISO_ReadBinary(2, cookie->r_apdu_max_size, data_read_cb,
cookie);
else
return ISO_ReadBinary(2, (uint8_t) data_length, data_read_cb,
cookie);
}
static int t4_get_file_len(struct t4_cookie *cookie)
{
cookie->r_apdu_max_size = near_tag_get_r_apdu_max_size(cookie->tag);
/* Read 2 bytes from offset 0 which conatins the NDEF file length */
return ISO_ReadBinary(0, 2, t4_readbin_NDEF_ID, cookie);
}
static int t4_select_NDEF_ID(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
/* Check for APDU error */
if (APDU_STATUS(resp + STATUS_WORD_1) != APDU_OK) {
DBG("Fail SW:x%04x", APDU_STATUS(resp + STATUS_WORD_1));
return t4_cookie_release(-EIO, cookie);
}
return t4_get_file_len(cookie);
}
static int t4_readbin_cc(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
struct type4_cc *read_cc = (struct type4_cc *)&resp[1];
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
/* Check APDU error ( the two last bytes of the resp) */
if (APDU_STATUS(resp + length - 2) != APDU_OK) {
DBG("Fail SW:x%04x", APDU_STATUS(resp + length - 2));
return t4_cookie_release(-EIO, cookie);
}
cookie->r_apdu_max_size = g_ntohs(read_cc->max_R_apdu_data_size) -
APDU_HEADER_LEN;
cookie->c_apdu_max_size = g_ntohs(read_cc->max_C_apdu_data_size);
cookie->max_ndef_size = g_ntohs(read_cc->tlv_fc.max_ndef_size);
near_tag_set_max_ndef_size(cookie->tag, cookie->max_ndef_size);
near_tag_set_c_apdu_max_size(cookie->tag, cookie->c_apdu_max_size);
near_tag_set_r_apdu_max_size(cookie->tag, cookie->r_apdu_max_size);
/* TODO 5.1.1: TLV blocks can be zero, one or more... */
/* TODO 5.1.2: Must ignore proprietary blocks (x05)... */
if (read_cc->tlv_fc.tag != 0x4) {
DBG("NDEF File Control tag not found");
return t4_cookie_release(-EINVAL, cookie);
}
/* save rw conditions */
cookie->write_access = read_cc->tlv_fc.write_access;
near_tag_set_file_id(cookie->tag, read_cc->tlv_fc.file_id);
return ISO_Select((uint8_t *) &read_cc->tlv_fc.file_id,
LEN_ISO_CC_FILEID, 0, t4_select_NDEF_ID, cookie);
}
static int t4_select_cc(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
int err;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
/* Check for APDU error */
if (APDU_STATUS(resp + STATUS_WORD_1) != APDU_OK) {
DBG(" Found empty tag");
/* Add data to the tag */
err = near_tag_add_data(cookie->adapter_idx, cookie->target_idx,
NULL, 1 /* dummy length */);
if (err < 0)
return t4_cookie_release(err, cookie);
near_tag_set_blank(cookie->tag, TRUE);
if (cookie->cb)
cookie->cb(cookie->adapter_idx, cookie->target_idx, 0);
return t4_cookie_release(0, cookie);
}
return ISO_ReadBinary(0, LEN_ISO_CC_READ_SIZE, t4_readbin_cc, cookie);
}
static int t4_select_file_by_name_v1(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
/* Check for APDU error */
if (APDU_STATUS(resp + STATUS_WORD_1) != APDU_OK) {
DBG("V1 Fail SW:x%04x", APDU_STATUS(resp + STATUS_WORD_1));
return t4_cookie_release(-EIO, cookie);
}
if (resp[NFC_STATUS] != 0)
return t4_cookie_release(-EIO, cookie);
/* Jump to select phase */
return ISO_Select(iso_cc_fileid, LEN_ISO_CC_FILEID, 0,
t4_select_cc, cookie);
}
static int t4_select_file_by_name_v2(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
/* Check for APDU error - Not found */
if (APDU_STATUS(resp + STATUS_WORD_1) == APDU_NOT_FOUND) {
DBG("Fallback to V1");
return ISO_Select(iso_appname_v1, ARRAY_SIZE(iso_appname_v1),
0x4, t4_select_file_by_name_v1, cookie);
}
if (APDU_STATUS(resp + STATUS_WORD_1) != APDU_OK) {
DBG("V2 Fail SW:x%04x", APDU_STATUS(resp + STATUS_WORD_1));
return t4_cookie_release(-EIO, cookie);
}
if (resp[NFC_STATUS] != 0)
return t4_cookie_release(-EIO, cookie);
/* Jump to select phase */
return ISO_Select(iso_cc_fileid, LEN_ISO_CC_FILEID, 0, t4_select_cc,
cookie);
}
static int nfctype4_read(uint32_t adapter_idx,
uint32_t target_idx, near_tag_io_cb cb)
{
struct t4_cookie *cookie;
DBG("");
cookie = g_try_malloc0(sizeof(struct t4_cookie));
if (!cookie)
return -ENOMEM;
cookie->tag = near_tag_get_tag(adapter_idx, target_idx);
if (!cookie->tag)
return t4_cookie_release(-ENOMEM, cookie);
cookie->adapter_idx = adapter_idx;
cookie->target_idx = target_idx;
cookie->cb = cb;
cookie->read_data = 0;
/*
* If the NDEF file has already been selected by a previous
* read, check_presence, or format operation, go straight
* to reading the NDEF file length. Otherwise, go through the
* complete NDEF detection procedure. If near_tag_get_r_apdu_max_size()
* returns anything other than 0, we know the NDEF file is selected.
*/
if (near_tag_get_r_apdu_max_size(cookie->tag))
return t4_get_file_len(cookie);
else
return ISO_Select(iso_appname_v2, ARRAY_SIZE(iso_appname_v2),
0x4, t4_select_file_by_name_v2, cookie);
}
static int data_write_cb(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
int err = 0;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
if (APDU_STATUS(resp + length - 2) != APDU_OK) {
near_error("write failed SWx%04x",
APDU_STATUS(resp + length - 2));
return t4_cookie_release(-EIO, cookie);
}
if (cookie->ndef->offset >= cookie->ndef->length) {
DBG("Done writing");
if (cookie->cb)
cookie->cb(cookie->adapter_idx, cookie->target_idx, 0);
return t4_cookie_release(0, cookie);
}
if ((cookie->ndef->length - cookie->ndef->offset) >
cookie->c_apdu_max_size) {
err = ISO_Update(cookie->ndef->offset,
cookie->c_apdu_max_size,
cookie->ndef->data + cookie->ndef->offset,
data_write_cb, cookie);
cookie->ndef->offset += cookie->c_apdu_max_size;
} else {
err = ISO_Update(cookie->ndef->offset,
cookie->ndef->length - cookie->ndef->offset,
cookie->ndef->data + cookie->ndef->offset,
data_write_cb, cookie);
cookie->ndef->offset = cookie->ndef->length;
}
return err;
}
static int data_write(uint32_t adapter_idx, uint32_t target_idx,
struct near_ndef_message *ndef,
struct near_tag *tag, near_tag_io_cb cb)
{
struct t4_cookie *cookie;
int err;
cookie = g_try_malloc0(sizeof(struct t4_cookie));
if (!cookie) {
err = -ENOMEM;
if (cb)
cb(adapter_idx, target_idx, err);
return err;
}
cookie->adapter_idx = adapter_idx;
cookie->target_idx = target_idx;
cookie->cb = cb;
cookie->tag = NULL;
cookie->read_data = 0;
cookie->max_ndef_size = near_tag_get_max_ndef_size(tag);
cookie->c_apdu_max_size = near_tag_get_c_apdu_max_size(tag);
cookie->ndef = ndef;
if (cookie->max_ndef_size < cookie->ndef->length) {
near_error("not enough space on tag to write data");
err = -ENOSPC;
goto out_err;
}
if ((cookie->ndef->length - cookie->ndef->offset) >
cookie->c_apdu_max_size) {
err = ISO_Update(cookie->ndef->offset,
cookie->c_apdu_max_size,
cookie->ndef->data,
data_write_cb, cookie);
cookie->ndef->offset += cookie->c_apdu_max_size;
} else {
err = ISO_Update(cookie->ndef->offset,
cookie->ndef->length,
cookie->ndef->data,
data_write_cb, cookie);
cookie->ndef->offset = cookie->ndef->length;
}
return err;
out_err:
if (cb)
cb(adapter_idx, target_idx, err);
return err;
}
static int nfctype4_write(uint32_t adapter_idx, uint32_t target_idx,
struct near_ndef_message *ndef, near_tag_io_cb cb)
{
struct near_tag *tag;
int err;
DBG("");
if (!ndef || !cb) {
err = -EINVAL;
goto out_err;
}
tag = near_tag_get_tag(adapter_idx, target_idx);
if (!tag) {
err = -EINVAL;
goto out_err;
}
return data_write(adapter_idx, target_idx, ndef, tag, cb);
out_err:
if (cb)
cb(adapter_idx, target_idx, err);
return err;
}
static int check_presence(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
int err = 0;
DBG("%d", length);
if (length < 0)
err = -EIO;
if (cookie->cb)
cookie->cb(cookie->adapter_idx,
cookie->target_idx, err);
return t4_cookie_release(err, cookie);
}
static int nfctype4_check_presence(uint32_t adapter_idx,
uint32_t target_idx, near_tag_io_cb cb)
{
struct t4_cookie *cookie;
struct near_tag *tag;
uint16_t file_id;
DBG("");
tag = near_tag_get_tag(adapter_idx, target_idx);
if (!tag)
return -EINVAL;
cookie = g_try_malloc0(sizeof(struct t4_cookie));
if (!cookie)
return -ENOMEM;
cookie->adapter_idx = adapter_idx;
cookie->target_idx = target_idx;
cookie->cb = cb;
cookie->tag = NULL;
cookie->read_data = 0;
file_id = near_tag_get_file_id(tag);
/* Check for V2 type 4 tag */
return ISO_Select((uint8_t *)&file_id, LEN_ISO_CC_FILEID, 0,
check_presence, cookie);
}
static int select_ndef_file(uint8_t *resp, int length, void *data)
{
struct near_tag *tag;
struct t4_cookie *cookie = data;
DBG("%d", length);
if (length < 0)
return t4_cookie_release(length, cookie);
if (APDU_STATUS(resp + STATUS_WORD_1) != APDU_OK) {
near_error("select ndef file resp failed %02X",
resp[length - 1]);
tag = near_tag_get_tag(cookie->adapter_idx, cookie->target_idx);
if (tag) {
near_tag_set_max_ndef_size(tag, 0);
near_tag_set_c_apdu_max_size(tag, 0);
near_tag_set_r_apdu_max_size(tag, 0);
}
return t4_cookie_release(-EIO, cookie);
}
DBG("ndef file selected");
if (cookie->cb)
cookie->cb(cookie->adapter_idx, cookie->target_idx, 0);
return t4_cookie_release(0, cookie);
}
static int read_cc_file(uint8_t *resp, int length, void *data)
{
struct t4_cookie *cookie = data;
struct near_tag *tag;
struct type4_cc *read_cc = NULL;
int err = 0;
DBG("%d", length);
if (length < 0) {
err = length;
goto out_err;
}
/* Check APDU error ( the two last bytes of the resp) */
if (APDU_STATUS(resp + length - 2) != APDU_OK) {
near_error("read cc failed SWx%04x",
APDU_STATUS(resp + length - 2));
err = -EIO;
goto out_err;
}
/* -2 for status word and -1 is for NFC first byte... */
read_cc = g_try_malloc0(length - 2 - NFC_STATUS_BYTE_LEN);
if (!read_cc) {
err = -ENOMEM;
goto out_err;
}
memcpy(read_cc, &resp[1], length - 2 - NFC_STATUS_BYTE_LEN) ;
cookie->r_apdu_max_size = g_ntohs(read_cc->max_R_apdu_data_size) -
APDU_HEADER_LEN;
cookie->c_apdu_max_size = g_ntohs(read_cc->max_C_apdu_data_size);
cookie->max_ndef_size = g_ntohs(read_cc->tlv_fc.max_ndef_size);
tag = near_tag_get_tag(cookie->adapter_idx, cookie->target_idx);
if (!tag) {
err = -EINVAL;
goto out_err;
}
near_tag_set_max_ndef_size(tag, cookie->memory_size);
near_tag_set_c_apdu_max_size(tag, cookie->c_apdu_max_size);
near_tag_set_r_apdu_max_size(tag, cookie->r_apdu_max_size);
if (read_cc->tlv_fc.tag != 0x4) {
near_error("NDEF File not found") ;
err = -EINVAL ;
goto out_err;
}
err = ISO_Select((uint8_t *)&read_cc->tlv_fc.file_id,
LEN_ISO_CC_FILEID, 0, select_ndef_file, cookie);
if (err < 0)
near_error("select ndef file req failed %d", err);
g_free(read_cc);
return err;
out_err:
g_free(read_cc);
return t4_cookie_release(err, cookie);
}
static int select_cc_file(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
if (length < 0) {
near_error("CC file select resp failed %d", length);
return t4_cookie_release(length, cookie);
}
if (APDU_STATUS(resp + STATUS_WORD_1) != APDU_OK) {
near_error("CC file select response %02X",
resp[length - 1]);
return t4_cookie_release(-EIO, cookie);
}
err = ISO_ReadBinary(0, LEN_ISO_CC_READ_SIZE, read_cc_file, cookie);
if (err < 0)
near_error("read cc file req failed %d", err);
return err;
}
static int select_iso_appname_v2(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
if (length < 0) {
near_error("iso app select resp failed %d", length);
return t4_cookie_release(length, cookie);
}
if (resp[NFC_STATUS] != 0x00) {
near_error("iso app select response %02X",
resp[length - 1]);
return t4_cookie_release(-EIO, cookie);
}
err = ISO_Select(iso_cc_fileid, LEN_ISO_CC_FILEID, 0,
select_cc_file, cookie);
if (err < 0)
near_error("select cc req failed %d", err);
return err;
}
static int format_resp(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
struct near_tag *tag;
DBG("");
if (length < 0) {
near_error("write data to ndef file resp failed %d", length);
return t4_cookie_release(length, cookie);
}
if (APDU_STATUS(resp + 1) != PICC_LEVEL_APDU_OK) {
near_error("wrtie data to ndef file response %02X",
resp[length - 1]);
return t4_cookie_release(-EIO, cookie);
}
tag = near_tag_get_tag(cookie->adapter_idx, cookie->target_idx);
if (!tag)
return t4_cookie_release(-EINVAL, cookie);
DBG("Formatting is done");
near_tag_set_blank(tag, FALSE);
/*
* 1) Till now all commands which are used for formatting are
* at mifare desfire level. Now select iso appname_v2,
* cc file and ndef file with ISO 7816-4 commands.
* 2) Selecting ndef file means making sure that read write
* operations will perform on NDEF file.
*/
err = ISO_Select(iso_appname_v2, ARRAY_SIZE(iso_appname_v2),
0x4, select_iso_appname_v2, cookie);
if (err < 0)
near_error("iso_select appnamev2 req failed %d", err);
return err;
}
static int write_data_to_ndef_file(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
uint8_t *cmd_data = NULL;
uint8_t cmd_data_length;
uint8_t ndef_file_offset[] = {0x00, 0x00, 0x00};
uint8_t empty_ndef_file_len[] = {0x02, 0x00, 0x00}; /* 000002h */
uint8_t ndef_nlen[] = {0x00, 0x00}; /* 0000h */
DBG("");
if (length < 0) {
near_error("create ndef file resp failed %d", length);
err = length;
goto out_err;
}
if (APDU_STATUS(resp + 1) != PICC_LEVEL_APDU_OK) {
near_error("create ndef file response %02X",
resp[length - 1]);
err = -EIO;
goto out_err;
}
/* Step8 : Write data to NDEF file ( no NDEF message) */
cmd_data_length = 1 /* File num */
+ ARRAY_SIZE(ndef_file_offset)
+ ARRAY_SIZE(empty_ndef_file_len)
+ ARRAY_SIZE(ndef_nlen);
cmd_data = g_try_malloc0(cmd_data_length);
if (!cmd_data) {
err = -ENOMEM;
goto out_err;
}
cmd_data[0] = DESFIRE_NDEF_FILE_NUM;
memcpy(cmd_data + 1, ndef_file_offset, ARRAY_SIZE(ndef_file_offset));
memcpy(cmd_data + 4, empty_ndef_file_len,
ARRAY_SIZE(empty_ndef_file_len));
memcpy(cmd_data + 7, ndef_nlen, ARRAY_SIZE(ndef_nlen));
err = ISO_send_cmd(PICC_CLASS, WRITE_DATA_TO_FILE,
0x00, 0x00, cmd_data, cmd_data_length,
true, format_resp, cookie);
if (err < 0)
near_error("wrtie data to ndef file req failed %d", err);
g_free(cmd_data);
return err;
out_err:
g_free(cmd_data);
return t4_cookie_release(err, cookie);
}
static int create_ndef_file(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
struct desfire_std_file *ndef = NULL;
uint8_t iso_ndef_file_id[] = {0x04, 0xE1}; /* E104h */
uint8_t ndef_file_access_rights[] = {0xE0, 0xEE}; /* EEE0h */
DBG("");
if (length < 0) {
near_error("write data to cc file resp failed %d", length);
err = length;
goto out_err;
}
if (APDU_STATUS(resp + 1) != PICC_LEVEL_APDU_OK) {
near_error("write data to cc file response %02X",
resp[length - 1]);
err = -EIO;
goto out_err;
}
ndef = g_try_malloc0(sizeof(struct desfire_std_file));
if (!ndef) {
err = -ENOMEM;
goto out_err;
}
ndef->file_num = DESFIRE_NDEF_FILE_NUM;
memcpy(ndef->file_id, iso_ndef_file_id, ARRAY_SIZE(iso_ndef_file_id));
ndef->comm_set = DESFIRE_COMMSET;
memcpy(ndef->access_rights, ndef_file_access_rights,
ARRAY_SIZE(ndef_file_access_rights));
ndef->size[0] = 0;
ndef->size[1] = (uint8_t) (cookie->memory_size >> 8);
ndef->size[2] = (uint8_t) cookie->memory_size;
err = ISO_send_cmd(PICC_CLASS, CREATE_STD_DATA_FILE,
0x00, 0x00, (uint8_t *)ndef,
sizeof(struct desfire_std_file),
true, write_data_to_ndef_file, cookie);
if (err < 0)
near_error("create ndef file req failed %d", err);
g_free(ndef);
return err;
out_err:
g_free(ndef);
return t4_cookie_release(err, cookie);
}
static int write_data_to_cc_file(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
struct desfire_cc_file *cc = NULL;
uint8_t cc_file_offset[] = {0x00, 0x00, 0x00};
uint8_t cc_file_max_len[] = {0x0F, 0x00, 0x00}; /* 00000Fh */
uint8_t cc_len[] = {0x00, 0x0F}; /* 000Fh*/
uint8_t mle_r_apdu[] = {0x00, 0x3B}; /* 003Bh */
uint8_t mlc_c_apdu[] = {0x00, 0x34}; /* 0034h */
/* T: 04, L: 06: V: E104h (NDEF ISO FID = E104h)*/
uint8_t ndef_tlv[] = {0x04, 0x06, 0xE1, 0x04};
DBG("");
if (length < 0) {
near_error("create cc file resp failed %d", length);
err = length;
goto out_err;
}
if (APDU_STATUS(resp + 1) != PICC_LEVEL_APDU_OK) {
near_error("create cc file response %02X",
resp[length - 1]);
err = -EIO;
goto out_err;
}
cc = g_try_malloc0(sizeof(struct desfire_cc_file));
if (!cc) {
err = -ENOMEM;
goto out_err;
}
cc->file_num = DESFIRE_CC_FILE_NUM;
memcpy(cc->offset, cc_file_offset, ARRAY_SIZE(cc_file_offset));
memcpy(cc->max_len, cc_file_max_len, ARRAY_SIZE(cc_file_max_len));
memcpy(cc->cc_len, cc_len, ARRAY_SIZE(cc_len));
cc->version = MAPPING_VERSION;
memcpy(cc->mle, mle_r_apdu, ARRAY_SIZE(mle_r_apdu));
memcpy(cc->mlc, mlc_c_apdu, ARRAY_SIZE(mlc_c_apdu));
memcpy(cc->ndef_tlv, ndef_tlv, ARRAY_SIZE(ndef_tlv));
cc->ndef_size[0] = (uint8_t) (cookie->memory_size >> 8);
cc->ndef_size[1] = (uint8_t) cookie->memory_size;
cc->read_access = FREE_READ_ACCESS;
cc->write_access = FREE_WRITE_ACCESS;
err = ISO_send_cmd(PICC_CLASS, WRITE_DATA_TO_FILE,
0x00, 0x00, (uint8_t *)cc,
sizeof(struct desfire_cc_file),
true, create_ndef_file, cookie);
if (err < 0)
near_error("write data to cc file req failed %d", err);
g_free(cc);
return err;
out_err:
g_free(cc);
return t4_cookie_release(err, cookie);
}
static int create_cc_file(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
struct desfire_std_file *cc = NULL;
uint8_t iso_cc_file_id[] = {0x03, 0xe1}; /* E103h */
uint8_t cc_file_access_rights[] = {0xE0, 0xEE}; /* EEE0h */
uint8_t cc_file_max_len[] = {0x0F, 0x00, 0x00}; /* 00000Fh */
DBG("");
if (length < 0) {
near_error("select application1 resp failed %d", length);
err = length;
goto out_err;
}
if (APDU_STATUS(resp + 1) != PICC_LEVEL_APDU_OK) {
near_error("select application1 response %02X",
resp[length - 1]);
err = -EIO;
goto out_err;
}
cc = g_try_malloc0(sizeof(struct desfire_std_file));
if (!cc) {
err = -ENOMEM;
goto out_err;
}
cc->file_num = DESFIRE_CC_FILE_NUM;
memcpy(cc->file_id, iso_cc_file_id, ARRAY_SIZE(iso_cc_file_id));
cc->comm_set = DESFIRE_COMMSET;
memcpy(cc->access_rights, cc_file_access_rights,
ARRAY_SIZE(cc_file_access_rights));
memcpy(cc->size, cc_file_max_len, ARRAY_SIZE(cc_file_max_len));
err = ISO_send_cmd(PICC_CLASS,
CREATE_STD_DATA_FILE,
0x00, 0x00, (uint8_t *)cc,
sizeof(struct desfire_std_file),
true, write_data_to_cc_file, cookie);
if (err < 0)
near_error("create cc file req failed %d", err);
g_free(cc);
return err;
out_err:
g_free(cc);
return t4_cookie_release(err, cookie);
}
static int select_application_1(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
uint8_t *cmd_data = NULL;
uint8_t cmd_data_length;
uint8_t desfire_aid_1[] = {0x01, 0x00, 0x00}; /* 000001h */
DBG("");
if (length < 0) {
near_error("create application resp failed %d", length);
err = length;
goto out_err;
}
if (APDU_STATUS(resp + 1) != PICC_LEVEL_APDU_OK) {
near_error("create application response %02X",
resp[length - 1]);
err = -EIO;
goto out_err;
}
/* Step4 : Select application (which is created just now) */
cmd_data_length = ARRAY_SIZE(desfire_aid_1);
cmd_data = g_try_malloc0(cmd_data_length);
if (!cmd_data) {
err = -ENOMEM;
goto out_err;
}
memcpy(cmd_data, desfire_aid_1, cmd_data_length);
err = ISO_send_cmd(PICC_CLASS, SELECT_APPLICATION,
0x00, 0x00, cmd_data, cmd_data_length,
true, create_cc_file, cookie);
if (err < 0)
near_error("select application1 req failed %d", err);
g_free(cmd_data);
return err;
out_err:
g_free(cmd_data);
return t4_cookie_release(err, cookie);
}
static int create_application(uint8_t *resp, int length, void *data)
{
int err = 0;
struct t4_cookie *cookie = data;
uint8_t desfire_aid_1[] = {0x01, 0x00, 0x00}; /* 000001h */
uint8_t desfire_file_id[] = {0x10, 0xE1}; /* E110h */
struct desfire_app *app = NULL;
DBG("");
if (length < 0) {
near_error("select application resp failed %d", length);
err = length;
goto out_err;
}
if (APDU_STATUS(resp + 1) != PICC_LEVEL_APDU_OK) {
near_error("select application response %02X",
resp[length - 1]);
err = -EIO;
goto out_err;
}
app = g_try_malloc0(sizeof(struct desfire_app));
if (!app) {
err = -ENOMEM;
goto out_err;
}
memcpy(app->aid, desfire_aid_1, ARRAY_SIZE(desfire_aid_1));
app->key_settings = DESFIRE_KEY_SETTINGS;
app->number_of_keys = DESFIRE_NUM_OF_KEYS;
memcpy(app->file_id, desfire_file_id, ARRAY_SIZE(desfire_file_id));
memcpy(app->iso_appname, iso_appname_v2, ARRAY_SIZE(iso_appname_v2));
/* Step3 : Create Application */
err = ISO_send_cmd(PICC_CLASS, CREATE_APPLICATION,
0x00, 0x00, (uint8_t *)app,
sizeof(struct desfire_app),
true, select_application_1, cookie);
if (err < 0)
near_error("create application req failed %d", err);
g_free(app);
return err;
out_err:
g_free(app);
return t4_cookie_release(err, cookie);
}
static int select_application(uint8_t *resp, int length, void *data)
{
int err;
struct t4_cookie *cookie = data;
uint8_t *cmd_data = NULL;
uint8_t cmd_data_length;
uint8_t desfire_aid[] = {0x00, 0x00, 0x00}; /* 000000h */
DBG("");
if (length < 0) {
near_error("get version3 resp failed %d", length);
err = length;
goto out_err;
}
if (resp[length - 1] != 0x00) {
near_error("get version3 response %02X",
resp[length - 1]);
err = -EIO;
goto out_err;
}
/* AID : 000000h */
cmd_data_length = ARRAY_SIZE(desfire_aid);
cmd_data = g_try_malloc0(cmd_data_length);
if (!cmd_data) {
err = -ENOMEM;
goto out_err;
}
memcpy(cmd_data, desfire_aid, cmd_data_length);
/* Step2 : Select Application */
err = ISO_send_cmd(PICC_CLASS,
SELECT_APPLICATION,
0x00, 0x00, cmd_data, cmd_data_length,
true, create_application, cookie);
if (err < 0)
near_error("select application req failed %d", err);
g_free(cmd_data);
return err;
out_err:
g_free(cmd_data);
return t4_cookie_release(err, cookie);
}
static int get_version_frame3(uint8_t *resp, int length, void *data)
{
int err;
struct t4_cookie *cookie = data;
DBG("");
if (length < 0) {
near_error("get version2 resp failed %d", length);
return t4_cookie_release(length, cookie);
}
if (resp[4] == 0x01 /* Major Version */
&& resp[length - 1] == GET_VERSION_FRAME_RESPONSE_BYTE) {
err = ISO_send_cmd(PICC_CLASS,
GET_VERSION_FRAME_RESPONSE_BYTE,
0x00, 0x00, NULL, 0, false,
select_application, cookie);
if (err < 0)
near_error("get version3 req failed %d", err);
return err;
}
near_error("get version2 response %02X", resp[length - 1]);
return t4_cookie_release(-EIO, cookie);
}
static int get_version_frame2(uint8_t *resp, int length, void *data)
{
int err;
struct t4_cookie *cookie = data;
DBG("");
if (length < 0) {
near_error(" get version resp failed %d", length);
return t4_cookie_release(length, cookie);
}
if (resp[4] == 0x01 /* Major Version */
&& resp[length - 1] == GET_VERSION_FRAME_RESPONSE_BYTE) {
/*
* When N is the GET_VERSION response 6th byte,
* the DESFire tag memory size is 2 ^ (N /2).
*/
cookie->memory_size = (1 << (resp[6] / 2));
err = ISO_send_cmd(PICC_CLASS,
GET_VERSION_FRAME_RESPONSE_BYTE,
0x00, 0x00, NULL, 0, false,
get_version_frame3, cookie);
if (err < 0)
near_error("get version2 req failed %d", err);
return err;
}
near_error("get version response %02X", resp[length - 1]);
return t4_cookie_release(-EIO, cookie);
}
/* Steps to format Type 4 (MIFARE DESFire EV1) tag as per AN1104.pdf from nxp.
* 1) Get version to determine memory size of tag
* 2) Select applciation with AID equal to 000000h (PICC level)
* 3) Create application with AID equal to 000001h
* 4) Select application (Select previously created application in step3)
* 5) Create std data file with File number equal to 01h (CC file), ISOFileID
* equal to E103h, ComSet equal to 00h, AccesRights to EEEEh, FileSize bigger
* equal to 00000Fh
* 6) Write data to CC file with CCLEN equal to 000Fh, Mapping version equal to
* 20h, MLe equal to 003Bh, MLc equal to 0034h, and NDEF File control TLV
* equal to: T=04h, L=06h, V=E1 04 (NDEF ISO FID = E104h), 08 00 (NDEF File
* size = 2048 Bytes) 00 (free read access) 00 (free write access)
* 7) Create std data file with File number equal to 02h (NDEF File DESFireFId),
* ISO FileID equal to E104h, ComSet equal to 00h, ComSet equal to 00h,
* AccessRights equal to EEE0h, FileSize equal to 000800h (2048 bytes)
* 8) Write data to write content of the NDEF File with NLEN equal to 0000h, and
* no NDEF messsage.
* 9) Now Formatting is done, then select ISO appname2, select CC file and read.
* 10) Select NDEF file (by doing last two steps means, making sure that read
* write operations perform on NDEF file).
* */
static int nfctype4_format(uint32_t adapter_idx, uint32_t target_idx,
near_tag_io_cb cb)
{
int err;
struct t4_cookie *cookie;
DBG("");
cookie = g_try_malloc0(sizeof(struct t4_cookie));
if (!cookie)
return -ENOMEM;
cookie->adapter_idx = adapter_idx;
cookie->target_idx = target_idx;
cookie->cb = cb;
/* Step1 : Get Version */
err = ISO_send_cmd(PICC_CLASS, GET_VERSION,
0x00, 0x00, NULL, 0, false,
get_version_frame2, cookie);
if (err < 0)
near_error("get version req failed %d", err);
return err;
}
static struct near_tag_driver type4a_driver = {
.type = NFC_PROTO_ISO14443,
.priority = NEAR_TAG_PRIORITY_DEFAULT,
.read = nfctype4_read,
.write = nfctype4_write,
.check_presence = nfctype4_check_presence,
.format = nfctype4_format,
};
static struct near_tag_driver type4b_driver = {
.type = NFC_PROTO_ISO14443_B,
.priority = NEAR_TAG_PRIORITY_DEFAULT,
.read = nfctype4_read,
.write = nfctype4_write,
.check_presence = nfctype4_check_presence,
.format = nfctype4_format,
};
static int nfctype4_init(void)
{
int ret;
DBG("");
ret = near_tag_driver_register(&type4b_driver);
if (ret < 0)
return ret;
return near_tag_driver_register(&type4a_driver);
}
static void nfctype4_exit(void)
{
DBG("");
near_tag_driver_unregister(&type4a_driver);
near_tag_driver_unregister(&type4b_driver);
}
NEAR_PLUGIN_DEFINE(nfctype4, "NFC Forum Type 4 tags support", VERSION,
NEAR_PLUGIN_PRIORITY_HIGH, nfctype4_init, nfctype4_exit)