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card-asepcos.c
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card-asepcos.c
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/*
* Copyright (c) 2007 Athena Smartcard Solutions Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#include <ctype.h>
#include <string.h>
#include "internal.h"
#include "asn1.h"
#include "cardctl.h"
static const struct sc_card_operations *iso_ops = NULL;
struct sc_card_operations asepcos_ops;
static struct sc_card_driver asepcos_drv = {
"Athena ASEPCOS",
"asepcos",
&asepcos_ops,
NULL, 0, NULL
};
static struct sc_atr_table asepcos_atrs[] = {
{ "3b:d6:18:00:81:b1:80:7d:1f:03:80:51:00:61:10:30:8f", NULL, NULL, SC_CARD_TYPE_ASEPCOS_GENERIC, 0, NULL},
{ "3b:d6:18:00:81:b1:fe:7d:1f:03:41:53:45:37:35:35:01", NULL, NULL, SC_CARD_TYPE_ASEPCOS_JAVA, 0, NULL},
{ NULL, NULL, NULL, 0, 0, NULL }
};
static int asepcos_match_card(sc_card_t *card)
{
int i = _sc_match_atr(card, asepcos_atrs, &card->type);
if (i < 0)
return 0;
return 1;
}
static int asepcos_select_asepcos_applet(sc_card_t *card)
{
static const u8 asepcos_aid[] = {0xA0,0x00,0x00,0x01,0x64,0x41,0x53,0x45,0x50,0x43,0x4F,0x53,0x00};
sc_path_t tpath;
int r;
memset(&tpath, 0, sizeof(sc_path_t));
tpath.type = SC_PATH_TYPE_DF_NAME;
tpath.len = sizeof(asepcos_aid);
memcpy(tpath.value, asepcos_aid, sizeof(asepcos_aid));
r = sc_select_file(card, &tpath, NULL);
if (r != SC_SUCCESS) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "unable to select ASEPCOS applet");
return r;
}
return SC_SUCCESS;
}
static int asepcos_init(sc_card_t *card)
{
unsigned long flags;
card->name = "Athena ASEPCOS";
card->cla = 0x00;
/* in case of a Java card try to select the ASEPCOS applet */
if (card->type == SC_CARD_TYPE_ASEPCOS_JAVA) {
int r = asepcos_select_asepcos_applet(card);
if (r != SC_SUCCESS)
return r;
}
/* Set up algorithm info. */
flags = SC_ALGORITHM_RSA_RAW
| SC_ALGORITHM_RSA_HASH_NONE
| SC_ALGORITHM_ONBOARD_KEY_GEN
;
_sc_card_add_rsa_alg(card, 512, flags, 0);
_sc_card_add_rsa_alg(card, 768, flags, 0);
_sc_card_add_rsa_alg(card, 1024, flags, 0);
_sc_card_add_rsa_alg(card, 1536, flags, 0);
_sc_card_add_rsa_alg(card, 1792, flags, 0);
_sc_card_add_rsa_alg(card, 2048, flags, 0);
card->caps |= SC_CARD_CAP_RSA_2048
| SC_CARD_CAP_APDU_EXT
| SC_CARD_CAP_USE_FCI_AC;
return SC_SUCCESS;
}
/* tables to map the asepcos access mode bytes to the OpenSC
* access mode flags */
typedef struct {
unsigned int am;
unsigned int sc;
} amode_entry_t;
static const amode_entry_t df_amode_table[] = {
{ 0x40, SC_AC_OP_DELETE_SELF }, /* DELETE self */
{ 0x01, SC_AC_OP_DELETE }, /* DELETE child */
{ 0x10, SC_AC_OP_INVALIDATE }, /* DEACTIVATE FILE */
{ 0x08, SC_AC_OP_REHABILITATE },/* ACTIVATE FILE */
{ 0x04, SC_AC_OP_CREATE }, /* CREATE DF */
{ 0x02, SC_AC_OP_CREATE }, /* CREATE EF */
{ 0, 0 }
};
static const amode_entry_t wef_amode_table[] = {
{ 0x04, SC_AC_OP_WRITE },
{ 0x02, SC_AC_OP_UPDATE },
{ 0x01, SC_AC_OP_READ },
{ 0, 0 },
};
static const amode_entry_t ief_amode_table[] = {
{ 0x90, SC_AC_OP_REHABILITATE },
/* UPDATE is also used when a new key is generated */
{ 0x82, SC_AC_OP_UPDATE },
{ 0, 0 },
};
static int set_sec_attr(sc_file_t *file, unsigned int am, unsigned int ac,
unsigned int meth)
{
const amode_entry_t *table;
/* CHV with reference '0' is the trasport PIN
* and is presented as 'AUT' key with reference '0'*/
if (meth == SC_AC_CHV && ac == 0)
meth = SC_AC_AUT;
if (file->type == SC_FILE_TYPE_DF)
table = df_amode_table;
else if (file->type == SC_FILE_TYPE_WORKING_EF)
table = wef_amode_table;
else if (file->type == SC_FILE_TYPE_INTERNAL_EF)
table = ief_amode_table;
else
return SC_ERROR_INVALID_ARGUMENTS;
for (; table->am != 0; table++) {
if (table->am & am)
sc_file_add_acl_entry(file, table->sc, meth, ac);
}
return SC_SUCCESS;
}
/* Convert asepcos security attributes to opensc access conditions.
*/
static int asepcos_parse_sec_attr(sc_card_t *card, sc_file_t *file, const u8 *buf,
size_t len)
{
const u8 *p = buf;
while (len != 0) {
unsigned int amode, tlen = 3;
if (len < 5 && p[0] != 0x80 && p[1] != 0x01) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "invalid access mode encoding");
return SC_ERROR_INTERNAL;
}
amode = p[2];
if (p[3] == 0x90 && p[4] == 0x00) {
int r = set_sec_attr(file, amode, 0, SC_AC_NONE);
if (r != SC_SUCCESS)
return r;
tlen += 2;
} else if (p[3] == 0x97 && p[4] == 0x00) {
int r = set_sec_attr(file, amode, 0, SC_AC_NEVER);
if (r != SC_SUCCESS)
return r;
tlen += 2;
} else if (p[3] == 0xA0 && len >= 4U + p[4]) {
/* TODO: support OR expressions */
int r = set_sec_attr(file, amode, p[5], SC_AC_CHV);
if (r != SC_SUCCESS)
return r;
tlen += 2 + p[4]; /* FIXME */
} else if (p[3] == 0xAF && len >= 4U + p[4]) {
/* TODO: support AND expressions */
int r = set_sec_attr(file, amode, p[5], SC_AC_CHV);
if (r != SC_SUCCESS)
return r;
tlen += 2 + p[4]; /* FIXME */
} else {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "invalid security condition");
return SC_ERROR_INTERNAL;
}
p += tlen;
len -= tlen;
}
return SC_SUCCESS;
}
/* sets a TLV encoded path as returned from GET DATA in a sc_path_t object
*/
static int asepcos_tlvpath_to_scpath(sc_path_t *out, const u8 *in, size_t in_len)
{
int r;
size_t len = in_len;
memset(out, 0, sizeof(sc_path_t));
while (len != 0) {
if (len < 4)
return SC_ERROR_INTERNAL;
if (in[0] != 0x8b || in[1] != 0x02)
return SC_ERROR_INVALID_ASN1_OBJECT;
/* append file id to the path */
r = sc_append_path_id(out, &in[2], 2);
if (r != SC_SUCCESS)
return r;
len -= 4;
in += 4;
}
out->type = SC_PATH_TYPE_PATH;
return SC_SUCCESS;
}
/* returns the currently selected DF (if a EF is currently selected
* it returns the path from the MF to the DF in which the EF is
* located.
* @param card sc_card_t object to use
* @param path OUT path from the MF to the current DF
* @return SC_SUCCESS on success and an error value otherwise
*/
static int asepcos_get_current_df_path(sc_card_t *card, sc_path_t *path)
{
int r;
sc_apdu_t apdu;
u8 rbuf[SC_MAX_APDU_BUFFER_SIZE];
sc_format_apdu(card, &apdu, SC_APDU_CASE_2_SHORT, 0xca, 0x01, 0x83);
apdu.resp = rbuf;
apdu.resplen = sizeof(rbuf);
apdu.le = 256;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 != 0x90 || apdu.sw2 != 0x00)
return sc_check_sw(card, apdu.sw1, apdu.sw2);
return asepcos_tlvpath_to_scpath(path, apdu.resp, apdu.resplen);
}
/* SELECT FILE: call the ISO SELECT FILE implementation and parse
* asepcos specific security attributes.
*/
static int asepcos_select_file(sc_card_t *card, const sc_path_t *in_path,
sc_file_t **file)
{
int r;
sc_path_t npath = *in_path;
SC_FUNC_CALLED(card->ctx, SC_LOG_DEBUG_NORMAL);
if (in_path->type == SC_PATH_TYPE_PATH) {
/* check the current DF to avoid unnecessary re-selection of
* the MF (as this might invalidate a security status) */
sc_path_t tpath;
r = asepcos_get_current_df_path(card, &tpath);
/* workaround: as opensc can't handle paths with file id
* and application names in it let's ignore the current
* DF if the returned path contains a unsupported tag.
*/
if (r != SC_ERROR_INVALID_ASN1_OBJECT && r != SC_SUCCESS)
return r;
if (r == SC_SUCCESS && sc_compare_path_prefix(&tpath, &npath) != 0) {
/* remove the currently selected DF from the path */
if (tpath.len == npath.len) {
/* we are already in the requested DF */
if (file == NULL)
/* no file information requested =>
* nothing to do */
return SC_SUCCESS;
} else {
/* shorten path */
r = sc_path_set(&npath, 0, &in_path->value[tpath.len],
npath.len - tpath.len, 0, 0);
if (r != SC_SUCCESS)
return r;
if (npath.len == 2)
npath.type = SC_PATH_TYPE_FILE_ID;
else
npath.type = SC_PATH_TYPE_PATH;
}
}
}
r = iso_ops->select_file(card, &npath, file);
/* XXX: this doesn't look right */
if (file != NULL && *file != NULL)
if ((*file)->ef_structure == SC_FILE_EF_UNKNOWN)
(*file)->ef_structure = SC_FILE_EF_TRANSPARENT;
if (r == SC_SUCCESS && file != NULL && *file != NULL) {
r = asepcos_parse_sec_attr(card, *file, (*file)->sec_attr, (*file)->sec_attr_len);
if (r != SC_SUCCESS)
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "error parsing security attributes");
}
SC_FUNC_RETURN(card->ctx, SC_LOG_DEBUG_NORMAL, r);
}
static int asepcos_set_security_env(sc_card_t *card,
const sc_security_env_t *env, int se_num)
{
#if 0
/* this function doesn't seem to be necessary if RSA ENCRYPT DECRYPT
* is used. */
sc_apdu_t apdu;
u8 sbuf[SC_MAX_APDU_BUFFER_SIZE], *p = sbuf;
int r, locked = 0;
SC_FUNC_CALLED(card->ctx, SC_LOG_DEBUG_VERBOSE);
sc_format_apdu(card, &apdu, SC_APDU_CASE_3_SHORT, 0x22, 0, 0);
switch (env->operation) {
case SC_SEC_OPERATION_DECIPHER:
apdu.p1 = 0x41;
apdu.p2 = 0xB8;
break;
case SC_SEC_OPERATION_SIGN:
apdu.p1 = 0x41;
apdu.p2 = 0xB6;
break;
default:
return SC_ERROR_INVALID_ARGUMENTS;
}
if (env->flags & SC_SEC_ENV_ALG_REF_PRESENT) {
*p++ = 0x80; /* algorithm reference */
*p++ = 0x01;
*p++ = env->algorithm_ref & 0xFF;
}
if (env->flags & SC_SEC_ENV_FILE_REF_PRESENT) {
*p++ = 0x84;
*p++ = env->file_ref.len;
memcpy(p, env->file_ref.value, env->file_ref.len);
p += env->file_ref.len;
}
apdu.lc = p - sbuf;
apdu.datalen = p - sbuf;
apdu.data = sbuf;
if (se_num > 0) {
r = sc_lock(card);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "sc_lock() failed");
locked = 1;
}
if (apdu.datalen != 0) {
r = sc_transmit_apdu(card, &apdu);
if (r) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL,
"%s: APDU transmit failed", sc_strerror(r));
goto err;
}
r = sc_check_sw(card, apdu.sw1, apdu.sw2);
if (r) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL,
"%s: Card returned error", sc_strerror(r));
goto err;
}
}
if (se_num <= 0)
return 0;
sc_format_apdu(card, &apdu, SC_APDU_CASE_3_SHORT, 0x22, 0xF2, se_num);
r = sc_transmit_apdu(card, &apdu);
sc_unlock(card);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
return sc_check_sw(card, apdu.sw1, apdu.sw2);
err:
if (locked)
sc_unlock(card);
return r;
#else
return SC_SUCCESS;
#endif
}
static int asepcos_akn_to_fileid(sc_card_t *card, sc_cardctl_asepcos_akn2fileid_t *p)
{
int r;
u8 sbuf[32], rbuf[SC_MAX_APDU_BUFFER_SIZE];
sc_apdu_t apdu;
sbuf[0] = p->akn & 0xff;
sc_format_apdu(card, &apdu, SC_APDU_CASE_4_SHORT, 0x28, 0x02, 0x01);
apdu.cla |= 0x80;
apdu.resp = rbuf;
apdu.resplen = sizeof(rbuf);
apdu.le = 256;
apdu.lc = 1;
apdu.datalen = 1;
apdu.data = sbuf;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.resplen != 4)
return SC_ERROR_INTERNAL;
p->fileid = (apdu.resp[1] << 16) | (apdu.resp[2] << 8) | apdu.resp[3];
return SC_SUCCESS;
}
/* sets the security attribute of a EF/DF
*/
static int asepcos_set_sec_attributes(sc_card_t *card, const u8 *data, size_t len,
int is_ef)
{
int r, type = is_ef != 0 ? 0x02 : 0x04;
sc_apdu_t apdu;
sc_format_apdu(card, &apdu, SC_APDU_CASE_3_SHORT, 0x8a, type, 0xab);
apdu.cla |= 0x80;
apdu.lc = len;
apdu.datalen = len;
apdu.data = data;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
return sc_check_sw(card, apdu.sw1, apdu.sw2);
}
/* encodes the opensc file attributes into the card specific format
*/
static int asepcos_set_security_attributes(sc_card_t *card, sc_file_t *file)
{
size_t i;
const amode_entry_t *table;
u8 buf[64], *p;
int r = SC_SUCCESS;
/* first check wether the security attributes in encoded form
* are already set. If present use these */
if (file->sec_attr != NULL && file->sec_attr_len != 0)
return asepcos_set_sec_attributes(card, file->sec_attr,
file->sec_attr_len, file->type == SC_FILE_TYPE_DF ? 0:1);
/* otherwise construct the ACL from the opensc ACLs */
if (file->type == SC_FILE_TYPE_DF)
table = df_amode_table;
else if (file->type == SC_FILE_TYPE_WORKING_EF)
table = wef_amode_table;
else if (file->type == SC_FILE_TYPE_INTERNAL_EF)
table = ief_amode_table;
else
return SC_ERROR_INVALID_ARGUMENTS;
p = buf;
for (i = 0; table[i].am != 0; i++) {
const struct sc_acl_entry *ent = sc_file_get_acl_entry(file, table[i].sc);
if (ent == NULL)
continue;
*p++ = 0x80;
*p++ = 0x01;
*p++ = table[i].am & 0xff;
if (ent->method == SC_AC_NONE) {
*p++ = 0x90;
*p++ = 0x00;
} else if (ent->method == SC_AC_NEVER) {
*p++ = 0x97;
*p++ = 0x00;
} else if (ent->method == SC_AC_CHV) {
sc_cardctl_asepcos_akn2fileid_t st;
st.akn = ent->key_ref;
r = asepcos_akn_to_fileid(card, &st);
if (r != SC_SUCCESS)
return r;
*p++ = 0xa0;
*p++ = 0x05;
*p++ = 0x89;
*p++ = 0x03;
*p++ = (st.fileid >> 16) & 0xff;
*p++ = (st.fileid >> 8 ) & 0xff;
*p++ = st.fileid & 0xff;
} else {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "unknow auth method: '%d'", ent->method);
return SC_ERROR_INTERNAL;
}
}
if (p != buf)
r = asepcos_set_sec_attributes(card, buf, p-buf, file->type == SC_FILE_TYPE_DF ? 0:1);
return r;
}
static int asepcos_decipher(sc_card_t *card, const u8 * crgram, size_t crgram_len,
u8 * out, size_t outlen)
{
int r;
sc_apdu_t apdu;
SC_FUNC_CALLED(card->ctx, SC_LOG_DEBUG_NORMAL);
/* call RSA ENCRYPT DECRYPT for the decipher operation */
sc_format_apdu(card, &apdu, SC_APDU_CASE_4, 0x14, 0x01, 0x00);
apdu.cla |= 0x80;
apdu.resp = out;
apdu.resplen = outlen;
/* if less than 256 bytes are expected than set Le to 0x00
* to tell the card the we want everything available (note: we
* always have Le <= crgram_len) */
apdu.le = (outlen >= 256 && crgram_len < 256) ? 256 : outlen;
apdu.data = crgram;
apdu.lc = crgram_len;
apdu.datalen = crgram_len;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 != 0x90 || apdu.sw2 != 0x00)
SC_FUNC_RETURN(card->ctx, SC_LOG_DEBUG_VERBOSE, sc_check_sw(card, apdu.sw1, apdu.sw2));
return apdu.resplen;
}
/* compute the signature. Currently the RSA ENCRYPT DECRYPT command
* is used here (TODO: use the key attributes to determine method
* to use for signature generation).
*/
static int asepcos_compute_signature(sc_card_t *card, const u8 *data, size_t datalen,
u8 *out, size_t outlen)
{
int r = SC_SUCCESS, atype;
u8 rbuf[SC_MAX_APDU_BUFFER_SIZE];
sc_apdu_t apdu;
SC_FUNC_CALLED(card->ctx, SC_LOG_DEBUG_NORMAL);
if (datalen >= 256)
atype = SC_APDU_CASE_4_EXT;
else
atype = SC_APDU_CASE_4_SHORT;
sc_format_apdu(card, &apdu, atype, 0x14, 0x01, 0x00);
apdu.cla |= 0x80;
apdu.lc = datalen;
apdu.datalen = datalen;
apdu.data = data;
apdu.resp = rbuf;
apdu.resplen = sizeof(rbuf);
apdu.le = 256;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 != 0x90 || apdu.sw2 != 0x00) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "error creating signature");
return sc_check_sw(card, apdu.sw1, apdu.sw2);
}
if (apdu.resplen > outlen)
return SC_ERROR_BUFFER_TOO_SMALL;
memcpy(out, apdu.resp, apdu.resplen);
return apdu.resplen;
}
/* activates the EF/DF specified in the file id.
*/
static int asepcos_activate_file(sc_card_t *card, int fileid, int is_ef)
{
int r, type = is_ef != 0 ? 2 : 1;
sc_apdu_t apdu;
u8 sbuf[2];
sbuf[0] = (fileid >> 8) & 0xff;
sbuf[1] = fileid & 0xff;
sc_format_apdu(card, &apdu, SC_APDU_CASE_3_SHORT, 0x44, type, 0x00);
apdu.lc = 2;
apdu.datalen = 2;
apdu.data = sbuf;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
return sc_check_sw(card, apdu.sw1, apdu.sw2);
}
/* CREATE FILE: creates wEF, iEF and DFs. Note: although the ISO
* command is used for wEF and iEF so format of the data send to
* the card is asepcos specific.
* @param card the sc_card_t object to use
* @param file sc_file_t object describing the file to create
* @return SC_SUCCESS on success and an error code otherwise.
*/
static int asepcos_create_file(sc_card_t *card, sc_file_t *file)
{
if (file->type == SC_FILE_TYPE_DF) {
int r, type;
sc_apdu_t apdu;
u8 sbuf[SC_MAX_APDU_BUFFER_SIZE], *p = &sbuf[0];
*p++ = (file->id >> 8) & 0xff;
*p++ = file->id & 0xff;
if (file->size > 0xffff) {
*p++ = (file->size >> 24) & 0xff;
*p++ = (file->size >> 16) & 0xff;
*p++ = (file->size >> 8 ) & 0xff;
*p++ = file->size & 0xff;
type = 1;
} else {
*p++ = (file->size >> 8) & 0xff;
*p++ = file->size & 0xff;
type = 0;
}
if (file->namelen != 0 && file->namelen <= 16) {
memcpy(p, file->name, file->namelen);
p += file->namelen;
}
sc_format_apdu(card, &apdu, SC_APDU_CASE_3_SHORT, 0xe0, 0x38, type);
apdu.cla |= 0x80;
apdu.lc = p - sbuf;
apdu.datalen = p - sbuf;
apdu.data = sbuf;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 != 0x90 || apdu.sw2 != 0x00)
return sc_check_sw(card, apdu.sw1, apdu.sw2);
r = sc_select_file(card, &file->path, NULL);
if (r != SC_SUCCESS)
return r;
/* set security attributes */
r = asepcos_set_security_attributes(card, file);
if (r != SC_SUCCESS) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "unable to set security attributes");
return r;
}
return SC_SUCCESS;
} else if (file->type == SC_FILE_TYPE_WORKING_EF) {
int r;
sc_apdu_t apdu;
u8 descr_byte = file->ef_structure & 7;
u8 sbuf[SC_MAX_APDU_BUFFER_SIZE], *p = &sbuf[0];
*p++ = 0x85;
p++;
/* file id */
*p++ = (file->id >> 8) & 0xff;
*p++ = file->id & 0xff;
/* record size */
if (file->ef_structure == SC_FILE_EF_TRANSPARENT) {
*p++ = 0x00;
*p++ = 0x00;
} else {
*p++ = (file->record_length >> 8) & 0xff;
*p++ = file->record_length & 0xff;
}
/* number of records or file size */
if (file->ef_structure == SC_FILE_EF_TRANSPARENT) {
*p++ = (file->size >> 8) & 0xff;
*p++ = file->size & 0xff;
} else {
*p++ = (file->record_count >> 8) & 0xff;
*p++ = file->record_count & 0xff;
}
/* set the length of the inner TLV object */
sbuf[1] = p - sbuf - 2; /* FIXME */
sc_format_apdu(card, &apdu, SC_APDU_CASE_3_SHORT, 0xe0, descr_byte, 0x00);
apdu.lc = p - sbuf;
apdu.datalen = p - sbuf;
apdu.data = sbuf;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 != 0x90 || apdu.sw2 != 0x00)
return sc_check_sw(card, apdu.sw1, apdu.sw2);
/* set security attributes */
r = asepcos_set_security_attributes(card, file);
if (r != SC_SUCCESS) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "unable to set security attributes");
return r;
}
return asepcos_activate_file(card, file->id, 1);
} else if (file->type == SC_FILE_TYPE_INTERNAL_EF) {
/* for internal EF we 'misuse' the prop_attr field of the
* sc_file_t object to store the data send to the card in
* the CREATE EF call.
*/
int r, atype = SC_APDU_CASE_3_SHORT;
sc_apdu_t apdu;
if (file->prop_attr_len > 255)
atype = SC_APDU_CASE_3_EXT;
sc_format_apdu(card, &apdu, atype, 0xe0, 0x08, 0x00);
apdu.lc = file->prop_attr_len;
apdu.datalen = file->prop_attr_len;
apdu.data = file->prop_attr;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 != 0x90 || apdu.sw2 != 0x00)
return sc_check_sw(card, apdu.sw1, apdu.sw2);
/* set security attributes */
r = asepcos_set_security_attributes(card, file);
if (r != SC_SUCCESS) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "unable to set security attributes");
return r;
}
return asepcos_activate_file(card, file->id, 1);
} else
return SC_ERROR_INVALID_ARGUMENTS;
}
/* list files: the function first calls GET DATA to get the current
* working DF. It then re-selects the DF to get proprietary FCI which
* contain the FID of the first child DF EF.
* The FID of the other EFs/DFs within the selected DF are then
* obtained by selecting the know FIDs to get next child EF/DF.
* @param card the sc_card_t object to use
* @param buff the output buffer for the list of FIDs
* @param blen the length of the buffer
* @return the number of FIDs read on success and an error value otherwise.
*/
static int asepcos_list_files(sc_card_t *card, u8 *buf, size_t blen)
{
int r, rv = 0, dfFID, efFID;
sc_path_t bpath, tpath;
sc_file_t *tfile = NULL;
/* 1. get currently selected DF */
r = asepcos_get_current_df_path(card, &bpath);
if (rv != SC_SUCCESS)
return r;
/* 2. re-select DF to get the FID of the child EFs/DFs */
r = sc_select_file(card, &bpath, &tfile);
if (r != SC_SUCCESS)
return r;
if (tfile->prop_attr_len != 6 || tfile->prop_attr == NULL) {
sc_file_free(tfile);
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "unable to parse proprietary FCI attributes");
return SC_ERROR_INTERNAL;
}
dfFID = (tfile->prop_attr[2] << 8) | tfile->prop_attr[3];
efFID = (tfile->prop_attr[4] << 8) | tfile->prop_attr[5];
sc_file_free(tfile);
/* 3. select every child DF to get the FID of the next child DF */
while (dfFID != 0) {
/* put DF FID on the list */
if (blen < 2)
return SC_ERROR_BUFFER_TOO_SMALL;
*buf++ = (dfFID >> 8) & 0xff;
*buf++ = dfFID & 0xff;
rv += 2;
blen -= 2;
/* select DF to get next DF FID */
tpath = bpath;
r = sc_append_file_id(&tpath, dfFID);
if (r != SC_SUCCESS)
return r;
r = sc_select_file(card, &tpath, &tfile);
if (r != SC_SUCCESS)
return r;
if (tfile->prop_attr_len != 6 || tfile->prop_attr == NULL)
return SC_ERROR_INTERNAL;
dfFID = (tfile->prop_attr[0] << 8) | tfile->prop_attr[1];
sc_file_free(tfile);
}
/* 4. select every child EF ... */
while (efFID != 0) {
/* put DF FID on the list */
if (blen < 2)
return SC_ERROR_BUFFER_TOO_SMALL;
*buf++ = (efFID >> 8) & 0xff;
*buf++ = efFID & 0xff;
rv += 2;
blen -= 2;
/* select EF to get next EF FID */
tpath = bpath;
r = sc_append_file_id(&tpath, efFID);
if (r != SC_SUCCESS)
return r;
r = sc_select_file(card, &tpath, &tfile);
if (r != SC_SUCCESS)
return r;
if (tfile->prop_attr_len < 2 || tfile->prop_attr == NULL)
return SC_ERROR_INTERNAL;
efFID = (tfile->prop_attr[0] << 8) | tfile->prop_attr[1];
sc_file_free(tfile);
}
return rv;
}
static int asepcos_delete_file(sc_card_t *card, const sc_path_t *path)
{
int r, ftype, atype;
sc_apdu_t apdu;
u8 buf[SC_MAX_APDU_BUFFER_SIZE];
#if 0
/* select the file (note: if the file is already selected we do
* not re-select it as we might otherwise lose the necessary
* credential */
r = sc_select_file(card, path, NULL);
if (r != SC_SUCCESS)
return r;
#endif
/* use GET DATA to determine whether it is a DF or EF */
sc_format_apdu(card, &apdu, SC_APDU_CASE_2_SHORT, 0xca, 0x01, 0x84);
apdu.le = 256;
apdu.resplen = sizeof(buf);
apdu.resp = buf;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 == 0x90 && apdu.sw2 == 0x00) {
/* looks like a EF */
atype = SC_APDU_CASE_3_SHORT;
ftype = 0x02;
buf[0] = path->value[path->len-2];
buf[1] = path->value[path->len-1];
} else {
/* presumedly a DF */
atype = SC_APDU_CASE_1;
ftype = 0x00;
}
sc_format_apdu(card, &apdu, atype, 0xe4, ftype, 0x00);
if (atype == SC_APDU_CASE_3_SHORT) {
apdu.lc = 2;
apdu.datalen = 2;
apdu.data = buf;
}
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
return sc_check_sw(card, apdu.sw1, apdu.sw2);
}
/* returns the default transport key (note: this should be put in the
* pkcs15 profile file).
*/
static int asepcos_get_default_key(sc_card_t *card,
struct sc_cardctl_default_key *data)
{
static const u8 asepcos_def_key[] = {0x41,0x53,0x45,0x43,0x41,0x52,0x44,0x2b};
if (data->method != SC_AC_CHV && data->method != SC_AC_AUT)
return SC_ERROR_NO_DEFAULT_KEY;
if (data->key_data == NULL || data->len < sizeof(asepcos_def_key))
return SC_ERROR_BUFFER_TOO_SMALL;
memcpy(data->key_data, asepcos_def_key, sizeof(asepcos_def_key));
data->len = sizeof(asepcos_def_key);
return SC_SUCCESS;
}
static int asepcos_get_serialnr(sc_card_t *card, sc_serial_number_t *serial)
{
int r;
sc_apdu_t apdu;
u8 rbuf[SC_MAX_APDU_BUFFER_SIZE];
sc_format_apdu(card, &apdu, SC_APDU_CASE_2_SHORT, 0xca, 0x01, 0x14);
apdu.resp = rbuf;
apdu.resplen = sizeof(rbuf);
apdu.le = 256;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu.sw1 != 0x90 || apdu.sw2 != 0x00)
return SC_ERROR_INTERNAL;
if (apdu.resplen != 8) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "unexpected response to GET DATA serial number\n");
return SC_ERROR_INTERNAL;
}
/* cache serial number */
memcpy(card->serialnr.value, rbuf, 8);
card->serialnr.len = 8;
/* copy and return serial number */
memcpy(serial, &card->serialnr, sizeof(*serial));
return SC_SUCCESS;
}
static int asepcos_change_key(sc_card_t *card, sc_cardctl_asepcos_change_key_t *p)
{
int r, atype;
sc_apdu_t apdu;
if (p->datalen > 255)
atype = SC_APDU_CASE_3_EXT;
else
atype = SC_APDU_CASE_3_SHORT;
sc_format_apdu(card, &apdu, atype, 0x24, 0x01, 0x80);
apdu.lc = p->datalen;
apdu.datalen = p->datalen;
apdu.data = p->data;
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
return sc_check_sw(card, apdu.sw1, apdu.sw2);
}
static int asepcos_card_ctl(sc_card_t *card, unsigned long cmd, void *ptr)
{
switch (cmd) {
case SC_CARDCTL_GET_DEFAULT_KEY:
return asepcos_get_default_key(card, (struct sc_cardctl_default_key *) ptr);
case SC_CARDCTL_GET_SERIALNR:
return asepcos_get_serialnr(card, (sc_serial_number_t *)ptr);
case SC_CARDCTL_ASEPCOS_CHANGE_KEY:
return asepcos_change_key(card, (sc_cardctl_asepcos_change_key_t*)ptr);
case SC_CARDCTL_ASEPCOS_AKN2FILEID:
return asepcos_akn_to_fileid(card, (sc_cardctl_asepcos_akn2fileid_t*)ptr);
case SC_CARDCTL_ASEPCOS_SET_SATTR:
return asepcos_set_security_attributes(card, (sc_file_t*)ptr);
case SC_CARDCTL_ASEPCOS_ACTIVATE_FILE:
return asepcos_activate_file(card, ((sc_cardctl_asepcos_activate_file_t*)ptr)->fileid,
((sc_cardctl_asepcos_activate_file_t *)ptr)->is_ef);
}
return SC_ERROR_NOT_SUPPORTED;
}
/* build the different APDUs for the PIN handling commands
*/
static int asepcos_build_pin_apdu(sc_card_t *card, sc_apdu_t *apdu,
struct sc_pin_cmd_data *data, u8 *buf, size_t buf_len,
unsigned int cmd, int is_puk)
{
int r, fileid;
u8 *p = buf;
sc_cardctl_asepcos_akn2fileid_t st;
switch (cmd) {
case SC_PIN_CMD_VERIFY:
st.akn = data->pin_reference;
r = asepcos_akn_to_fileid(card, &st);
if (r != SC_SUCCESS)
return r;
fileid = st.fileid;
/* the fileid of the puk is the fileid of the pin + 1 */
if (is_puk != 0)
fileid++;
sc_format_apdu(card, apdu, SC_APDU_CASE_3_SHORT, 0x20, 0x02, 0x80);
*p++ = (fileid >> 24) & 0xff;
*p++ = (fileid >> 16) & 0xff;
*p++ = (fileid >> 8 ) & 0xff;
*p++ = fileid & 0xff;
if (is_puk == 0) {
memcpy(p, data->pin1.data, data->pin1.len);
p += data->pin1.len;
} else {
memcpy(p, data->pin1.data, data->pin1.len);
p += data->pin1.len;
}
apdu->lc = p - buf;
apdu->datalen = p - buf;
apdu->data = buf;
break;
case SC_PIN_CMD_CHANGE:
/* build the CHANGE KEY apdu. Note: the PIN file is implicitly
* selected by its SFID */
*p++ = 0x81;
*p++ = data->pin2.len & 0xff;
memcpy(p, data->pin2.data, data->pin2.len);
p += data->pin2.len;
st.akn = data->pin_reference;
r = asepcos_akn_to_fileid(card, &st);
if (r != SC_SUCCESS)
return r;
fileid = 0x80 | (st.fileid & 0x1f);
sc_format_apdu(card, apdu, SC_APDU_CASE_3_SHORT, 0x24, 0x01, fileid);
apdu->lc = p - buf;
apdu->datalen = p - buf;
apdu->data = buf;
break;
case SC_PIN_CMD_UNBLOCK:
/* build the UNBLOCK KEY apdu. The PIN file is implicitly
* selected by its SFID. The new PIN is provided in the
* data field of the UNBLOCK KEY command. */
*p++ = 0x81;
*p++ = data->pin2.len & 0xff;
memcpy(p, data->pin2.data, data->pin2.len);
p += data->pin2.len;
st.akn = data->pin_reference;
r = asepcos_akn_to_fileid(card, &st);
if (r != SC_SUCCESS)
return r;
fileid = 0x80 | (st.fileid & 0x1f);
sc_format_apdu(card, apdu, SC_APDU_CASE_3_SHORT, 0x2C, 0x02, fileid);
apdu->lc = p - buf;
apdu->datalen = p - buf;
apdu->data = buf;
break;
default:
return SC_ERROR_NOT_SUPPORTED;
}
return SC_SUCCESS;
}