giomba/opensc
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
c8fbcdd076
opensc/src/libopensc/card-gemsafeV1.c
Lukas Wunner c8fbcdd076 card-gemsafeV1: Add ATR for European Patent Office smart card 
The EPO hands this card out to attorneys and inventors to authenticate
with their online services. The applet on the card seems to be identical
to the one on Swedish eID cards.

Ludovic Rousseau's list identifies the card as Gemalto IDClassic 340.
Gemalto Classic Client identifies the card as GemSAFE V3.

Previously the EPO was using a GemSAFE V1 card, its ATR was added with
81bbddfc24 ("card-gemsafeV1: Add a GemSafe V1 ATR").
2016-02-20 14:27:27 +01:00

734 lines
21 KiB
C
Raw Blame History

/*
* 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
*/
/* Initially written by David Mattes (david.mattes@boeing.com) */
/* Portuguese eID card support by Joao Poupino (joao.poupino@ist.utl.pt) */
#if HAVE_CONFIG_H
#include "config.h"
#endif
#include <stdlib.h>
#include <string.h>
#include "internal.h"
#include "asn1.h"
#include "cardctl.h"
#define GEMSAFEV1_ALG_REF_FREEFORM 0x12
#define GEMSAFEV3_ALG_REF_FREEFORM 0x02
#define GEMSAFEV3_ALG_REF_SHA1 0x12
#define GEMSAFEV3_ALG_REF_SHA256 0x42
static struct sc_card_operations gemsafe_ops;
static struct sc_card_operations *iso_ops = NULL;
static struct sc_card_driver gemsafe_drv = {
"driver for the Gemplus GemSAFE V1 applet",
"gemsafeV1",
&gemsafe_ops,
NULL, 0, NULL
};
/* Known ATRs */
static struct sc_atr_table gemsafe_atrs[] = {
/* standard version */
{"3B:7B:94:00:00:80:65:B0:83:01:01:74:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_GENERIC, 0, NULL},
{"3B:6B:00:00:80:65:B0:83:01:01:74:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_GENERIC, 0, NULL},
/* GemSafeXpresso 32K */
{"3b:6d:00:00:80:31:80:65:b0:83:01:02:90:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_GENERIC, 0, NULL},
/* fips 140 version */
{"3B:6B:00:00:80:65:B0:83:01:03:74:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_GENERIC, 0, NULL},
/* Undefined */
{"3B:7A:94:00:00:80:65:A2:01:01:01:3D:72:D6:43", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_GENERIC, 0, NULL},
{"3B:7D:94:00:00:80:31:80:65:B0:83:01:01:90:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_GENERIC, 0, NULL},
{"3B:7D:96:00:00:80:31:80:65:B0:83:11:48:C8:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_GENERIC, 0, NULL},
/* Portuguese eID cards */
{"3B:7D:95:00:00:80:31:80:65:B0:83:11:C0:A9:83:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_PTEID, 0, NULL},
{"3B:7D:95:00:00:80:31:80:65:B0:83:11:C0:A9:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_PTEID, 0, NULL},
{"3B:7D:95:00:00:80:31:80:65:B0:83:11:00:C8:83:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_PTEID, 0, NULL},
{"3B:7D:95:00:00:80:31:80:65:B0:83:11:00:C8:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_PTEID, 0, NULL},
/* Swedish eID card */
{"3B:7D:96:00:00:80:31:80:65:B0:83:11:00:C8:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_SEEID, 0, NULL},
/* European Patent Office epoline card*/
{"3b:7d:96:00:00:80:31:80:65:b0:83:02:01:f3:83:00:90:00", NULL, NULL, SC_CARD_TYPE_GEMSAFEV1_SEEID, 0, NULL},
{NULL, NULL, NULL, 0, 0, NULL}
};
static const u8 gemsafe_def_aid[] = {0xA0, 0x00, 0x00, 0x00, 0x18, 0x0A,
0x00, 0x00, 0x01, 0x63, 0x42, 0x00};
static const u8 gemsafe_pteid_aid[] = {0x60, 0x46, 0x32, 0xFF, 0x00, 0x00, 0x02};
static const u8 gemsafe_seeid_aid[] = {0xA0, 0x00, 0x00, 0x00, 0x18, 0x0C,
0x00, 0x00, 0x01, 0x63, 0x42, 0x00};
/*
static const u8 gemsafe_def_aid[] = {0xA0, 0x00, 0x00, 0x00, 0x63, 0x50,
0x4B, 0x43, 0x53, 0x2D, 0x31, 0x35};
*/
typedef struct gemsafe_exdata_st {
u8 aid[16];
size_t aid_len;
} gemsafe_exdata;
static int get_conf_aid(sc_card_t *card, u8 *aid, size_t *len)
{
sc_context_t *ctx = card->ctx;
scconf_block *conf_block, **blocks;
int i;
const char *str_aid;
SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_VERBOSE);
conf_block = NULL;
for (i = 0; ctx->conf_blocks[i] != NULL; i++) {
blocks = scconf_find_blocks(ctx->conf, ctx->conf_blocks[i],
"card", "gemsafeV1");
if (blocks[0] != NULL)
conf_block = blocks[0];
free(blocks);
}
if (!conf_block) {
sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "no card specific options configured, trying default AID\n");
return SC_ERROR_INTERNAL;
}
str_aid = scconf_get_str(conf_block, "aid", NULL);
if (!str_aid) {
sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "no aid configured, trying default AID\n");
return SC_ERROR_INTERNAL;
}
return sc_hex_to_bin(str_aid, aid, len);
}
static int gp_select_applet(sc_card_t *card, const u8 *aid, size_t aid_len)
{
int r;
u8 buf[SC_MAX_APDU_BUFFER_SIZE];
struct sc_context *ctx = card->ctx;
struct sc_apdu apdu;
SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_VERBOSE);
sc_format_apdu(card, &apdu, SC_APDU_CASE_4_SHORT, 0xa4, 0x04, 0x00);
apdu.lc = aid_len;
apdu.data = aid;
apdu.datalen = aid_len;
apdu.resp = buf;
apdu.le = 256;
apdu.resplen = sizeof(buf);
r = sc_transmit_apdu(card, &apdu);
SC_TEST_RET(ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
r = sc_check_sw(card, apdu.sw1, apdu.sw2);
if (r)
SC_FUNC_RETURN(ctx, SC_LOG_DEBUG_VERBOSE, r);
return SC_SUCCESS;
}
static int gemsafe_match_card(sc_card_t *card)
{
int i;
i = _sc_match_atr(card, gemsafe_atrs, &card->type);
if (i < 0)
return 0;
return 1;
}
static int gemsafe_init(struct sc_card *card)
{
int r;
gemsafe_exdata *exdata = NULL;
SC_FUNC_CALLED(card->ctx, SC_LOG_DEBUG_VERBOSE);
card->name = "GemSAFE V1";
card->cla = 0x00;
exdata = (gemsafe_exdata *)calloc(1, sizeof(gemsafe_exdata));
if (!exdata)
return SC_ERROR_OUT_OF_MEMORY;
exdata->aid_len = sizeof(exdata->aid);
if(card->type == SC_CARD_TYPE_GEMSAFEV1_GENERIC) {
/* try to get a AID from the config file */
r = get_conf_aid(card, exdata->aid, &exdata->aid_len);
if (r < 0) {
/* failed, use default value */
memcpy(exdata->aid, gemsafe_def_aid, sizeof(gemsafe_def_aid));
exdata->aid_len = sizeof(gemsafe_def_aid);
}
} else if (card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID) {
memcpy(exdata->aid, gemsafe_pteid_aid, sizeof(gemsafe_pteid_aid));
exdata->aid_len = sizeof(gemsafe_pteid_aid);
} else if (card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID) {
memcpy(exdata->aid, gemsafe_seeid_aid, sizeof(gemsafe_seeid_aid));
exdata->aid_len = sizeof(gemsafe_seeid_aid);
}
/* increase lock_count here to prevent sc_unlock to select
* applet twice in gp_select_applet */
card->lock_count++;
/* SELECT applet */
r = gp_select_applet(card, exdata->aid, exdata->aid_len);
if (r < 0) {
free(exdata);
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL, "applet selection failed\n");
return SC_ERROR_INTERNAL;
}
card->lock_count--;
/* set the supported algorithm */
r = gemsafe_match_card(card);
if (r > 0) {
unsigned long flags;
flags = SC_ALGORITHM_RSA_PAD_PKCS1;
flags |= SC_ALGORITHM_RSA_PAD_ISO9796;
flags |= SC_ALGORITHM_ONBOARD_KEY_GEN;
flags |= SC_ALGORITHM_RSA_HASH_NONE;
/* GemSAFE V3 cards support SHA256 */
if (card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID ||
card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID)
flags |= SC_ALGORITHM_RSA_HASH_SHA256;
_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, 2048, flags, 0);
/* fake algorithm to persuade register_mechanisms()
* to register these hashes */
if (card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID ||
card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID) {
flags = SC_ALGORITHM_RSA_HASH_SHA1;
flags |= SC_ALGORITHM_RSA_HASH_MD5;
flags |= SC_ALGORITHM_RSA_HASH_MD5_SHA1;
flags |= SC_ALGORITHM_RSA_HASH_RIPEMD160;
_sc_card_add_rsa_alg(card, 512, flags, 0);
}
}
card->drv_data = exdata;
return 0;
}
static int gemsafe_finish(sc_card_t *card)
{
gemsafe_exdata *exdata = (gemsafe_exdata *)card->drv_data;
if (exdata)
free(exdata);
return SC_SUCCESS;
}
static int gemsafe_select_file(struct sc_card *card, const struct sc_path *path,
struct sc_file **file_out)
{
/* so far just call the iso select file (but this will change) */
SC_FUNC_CALLED(card->ctx, SC_LOG_DEBUG_VERBOSE);
return iso_ops->select_file(card, path, file_out);
}
static int gemsafe_sc2acl(sc_file_t *file, unsigned ops, u8 sc_byte)
{
int r;
unsigned int meth = 0;
if (sc_byte == 0xff) {
r = sc_file_add_acl_entry(file, ops, SC_AC_NEVER, 0);
return r;
}
if (sc_byte == 0x00) {
r = sc_file_add_acl_entry(file, ops, SC_AC_NONE, 0);
return r;
}
/* XXX: OR combination of access rights are currently not supported
* hence ignored */
if (sc_byte & 0x40)
meth |= SC_AC_PRO;
if (sc_byte & 0x20)
meth |= SC_AC_AUT | SC_AC_TERM;
if (sc_byte & 0x10)
meth |= SC_AC_CHV;
return sc_file_add_acl_entry(file, ops, meth, sc_byte & 0x0f);
}
static int gemsafe_setacl(sc_card_t *card, sc_file_t *file, const u8 *data,
int is_df)
{
int r;
u8 cond;
const u8 *p = data + 1;
struct sc_context *ctx = card->ctx;
if (is_df) {
if (*data & 0x04) /* CREATE DF */
cond = *p++;
else
cond = 0xff;
sc_debug(ctx, SC_LOG_DEBUG_NORMAL,
"DF security byte CREATE DF: %02x\n", cond);
r = gemsafe_sc2acl(file, SC_AC_OP_CREATE, cond);
if (r < 0)
return r;
if (*data & 0x02) /* CREATE EF */
cond = *p;
else
cond = 0xff;
sc_debug(ctx, SC_LOG_DEBUG_NORMAL,
"DF security byte CREATE EF: %02x\n", cond);
/* XXX: opensc doesn't currently separate access conditions for
* CREATE EF and CREATE DF, this should be changed */
r = gemsafe_sc2acl(file, SC_AC_OP_CREATE, cond);
if (r < 0)
return r;
} else {
/* XXX: ACTIVATE FILE and DEACTIVATE FILE ac are currently not
* supported => ignore them */
if (*data & 0x02) /* UPDATE BINARY, ERASE BINARY */
cond = *p++;
else
cond = 0xff;
sc_debug(ctx, SC_LOG_DEBUG_NORMAL,
"EF security byte UPDATE/ERASE BINARY: %02x\n", cond);
r = gemsafe_sc2acl(file, SC_AC_OP_UPDATE, cond);
if (r < 0)
return r;
r = gemsafe_sc2acl(file, SC_AC_OP_WRITE, cond);
if (r < 0)
return r;
r = gemsafe_sc2acl(file, SC_AC_OP_ERASE, cond);
if (r < 0)
return r;
if (*data & 0x01) /* READ BINARY */
cond = *p;
else
cond = 0xff;
sc_debug(ctx, SC_LOG_DEBUG_NORMAL,
"EF security byte READ BINARY: %02x\n", cond);
r = gemsafe_sc2acl(file, SC_AC_OP_READ, cond);
if (r < 0)
return r;
}
return SC_SUCCESS;
}
static int gemsafe_process_fci(struct sc_card *card, struct sc_file *file,
const u8 *buf, size_t len)
{
int r;
size_t tlen;
const u8 *tag = NULL, *p = buf;
const char *type;
struct sc_context *ctx = card->ctx;
SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_VERBOSE);
r = iso_ops->process_fci(card, file, buf, len);
if (r < 0)
return r;
sc_debug(ctx, SC_LOG_DEBUG_NORMAL,
"processing GemSAFE V1 specific FCI information\n");
tag = sc_asn1_find_tag(ctx, p, len, 0x82, &tlen);
if (!tag) {
/* no FDB => we have a DF */
type = "DF";
file->type = SC_FILE_TYPE_DF;
} else {
type = "EF";
file->type = SC_FILE_TYPE_WORKING_EF;
}
sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "file type: %s\n", type);
tag = sc_asn1_find_tag(ctx, p, len, 0x8C, &tlen);
if (tag) {
r = gemsafe_setacl(card, file, tag, strcmp(type, "DF") ? 0 : 1);
if (r < 0) {
sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "unable to set ACL\n");
return SC_ERROR_INTERNAL;
}
} else
sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "error: AM and SC bytes missing\n");
return SC_SUCCESS;
}
static u8 gemsafe_flags2algref(struct sc_card *card, const struct sc_security_env *env)
{
u8 ret = 0;
if (env->operation == SC_SEC_OPERATION_SIGN) {
if (env->algorithm_flags & SC_ALGORITHM_RSA_HASH_SHA256)
ret = GEMSAFEV3_ALG_REF_SHA256;
else if (env->algorithm_flags & SC_ALGORITHM_RSA_PAD_PKCS1)
ret = (card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID ||
card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID) ?
GEMSAFEV3_ALG_REF_FREEFORM :
GEMSAFEV1_ALG_REF_FREEFORM;
else if (env->algorithm_flags & SC_ALGORITHM_RSA_PAD_ISO9796)
ret = 0x11;
} else if (env->operation == SC_SEC_OPERATION_DECIPHER) {
if (env->algorithm_flags & SC_ALGORITHM_RSA_PAD_PKCS1)
ret = (card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID ||
card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID) ?
GEMSAFEV3_ALG_REF_FREEFORM :
GEMSAFEV1_ALG_REF_FREEFORM;
}
return ret;
}
static int gemsafe_restore_security_env(struct sc_card *card, int se_num)
{
int r;
struct sc_apdu apdu;
SC_FUNC_CALLED(card->ctx, SC_LOG_DEBUG_VERBOSE);
sc_format_apdu(card, &apdu, SC_APDU_CASE_1, 0x22, 0x73, (u8) se_num);
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 gemsafe_set_security_env(struct sc_card *card,
const struct sc_security_env *env,
int se_num)
{
u8 alg_ref;
struct sc_security_env se_env = *env;
struct sc_context *ctx = card->ctx;
SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_VERBOSE);
if (!(se_env.flags & SC_SEC_ENV_ALG_REF_PRESENT)) {
/* set the algorithm reference */
alg_ref = gemsafe_flags2algref(card, &se_env);
if (alg_ref) {
se_env.algorithm_ref = alg_ref;
se_env.flags |= SC_SEC_ENV_ALG_REF_PRESENT;
}
}
if (!(se_env.flags & SC_SEC_ENV_ALG_REF_PRESENT))
sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "unknown algorithm flags '%x'\n", se_env.algorithm_flags);
se_env.flags &= ~SC_SEC_ENV_FILE_REF_PRESENT;
return iso_ops->set_security_env(card, &se_env, se_num);
}
static int gemsafe_compute_signature(struct sc_card *card, const u8 * data,
size_t data_len, u8 * out, size_t outlen)
{
int r, len;
struct sc_apdu apdu;
u8 rbuf[SC_MAX_APDU_BUFFER_SIZE];
u8 sbuf[SC_MAX_APDU_BUFFER_SIZE];
sc_context_t *ctx = card->ctx;
SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_VERBOSE);
/* the card can sign 36 bytes of free form data */
if (data_len > 36) {
sc_debug(ctx, SC_LOG_DEBUG_NORMAL, "error: input data too long: %lu bytes\n", data_len);
return SC_ERROR_INVALID_ARGUMENTS;
}
/* the Portuguese eID card requires a two-phase exchange */
/* and so does the Swedish one */
if(card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID ||
card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID) {
sc_format_apdu(card, &apdu, SC_APDU_CASE_3_SHORT, 0x2A, 0x90, 0xA0);
} else {
sc_format_apdu(card, &apdu, SC_APDU_CASE_4_SHORT, 0x2A, 0x9E, 0xAC);
apdu.cla |= 0x80;
apdu.resp = rbuf;
apdu.resplen = sizeof(rbuf);
apdu.le = 256;
}
/* we sign a digestInfo object => tag 0x90 */
sbuf[0] = 0x90;
sbuf[1] = (u8)data_len;
memcpy(sbuf + 2, data, data_len);
apdu.data = sbuf;
apdu.lc = data_len + 2;
apdu.datalen = data_len + 2;
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) {
if(card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID ||
card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID) {
/* finalize the exchange */
sc_format_apdu(card, &apdu, SC_APDU_CASE_2_SHORT, 0x2A, 0x9E, 0x9A);
apdu.le = 128; /* 1024 bit keys */
apdu.resp = rbuf;
apdu.resplen = sizeof(rbuf);
if(card->type == SC_CARD_TYPE_GEMSAFEV1_SEEID) {
/* cla 0x80 not supported */
apdu.cla = 0x00;
}
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));
}
len = apdu.resplen > outlen ? outlen : apdu.resplen;
memcpy(out, apdu.resp, len);
SC_FUNC_RETURN(card->ctx, SC_LOG_DEBUG_VERBOSE, len);
}
SC_FUNC_RETURN(card->ctx, SC_LOG_DEBUG_VERBOSE, sc_check_sw(card, apdu.sw1, apdu.sw2));
}
static int gemsafe_decipher(struct sc_card *card, const u8 * crgram,
size_t crgram_len, u8 *out, size_t outlen)
{
int r;
struct sc_apdu apdu;
u8 rbuf[SC_MAX_APDU_BUFFER_SIZE];
sc_context_t *ctx = card->ctx;
SC_FUNC_CALLED(ctx, SC_LOG_DEBUG_VERBOSE);
if (crgram_len > 255)
SC_FUNC_RETURN(card->ctx, SC_LOG_DEBUG_VERBOSE, SC_ERROR_INVALID_ARGUMENTS);
sc_format_apdu(card, &apdu, SC_APDU_CASE_4_SHORT, 0x2A, 0x80, 0x84);
apdu.cla |= 0x80;
apdu.resp = rbuf;
apdu.resplen = sizeof(rbuf);
apdu.le = crgram_len;
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) {
int len = apdu.resplen > outlen ? outlen : apdu.resplen;
memcpy(out, apdu.resp, len);
SC_FUNC_RETURN(card->ctx, SC_LOG_DEBUG_VERBOSE, len);
}
SC_FUNC_RETURN(card->ctx, SC_LOG_DEBUG_VERBOSE, sc_check_sw(card, apdu.sw1, apdu.sw2));
}
static int gemsafe_get_challenge(sc_card_t *card, u8 *rnd, size_t len)
{
int prev_cla, r;
prev_cla = card->cla;
if(card->type == SC_CARD_TYPE_GEMSAFEV1_PTEID) {
/* Warning: this depends on iso7816_get_challenge not
* changing the value of the card's CLA
*/
card->cla = 0x80;
}
r = iso_ops->get_challenge(card, rnd, len);
/* Restore the CLA value if needed */
if(card->cla != prev_cla)
card->cla = prev_cla;
return r;
}
static int gemsafe_build_pin_apdu(struct sc_card *card,
struct sc_apdu *apdu,
struct sc_pin_cmd_data *data)
{
static u8 sbuf[SC_MAX_APDU_BUFFER_SIZE];
int r, len = 0, pad = 0, use_pin_pad = 0, ins, p1 = 0;
switch (data->pin_type) {
case SC_AC_CHV:
break;
default:
return SC_ERROR_INVALID_ARGUMENTS;
}
if (data->flags & SC_PIN_CMD_NEED_PADDING)
pad = 1;
if (data->flags & SC_PIN_CMD_USE_PINPAD)
use_pin_pad = 1;
data->pin1.offset = 5;
switch (data->cmd) {
case SC_PIN_CMD_VERIFY:
ins = 0x20;
if ((r = sc_build_pin(sbuf, sizeof(sbuf), &data->pin1, pad)) < 0)
return r;
len = r;
break;
case SC_PIN_CMD_CHANGE:
ins = 0x24;
if (data->pin1.len != 0 || use_pin_pad) {
if ((r = sc_build_pin(sbuf, sizeof(sbuf), &data->pin1, pad)) < 0)
return r;
len += r;
} else {
/* implicit test */
p1 = 1;
}
data->pin2.offset = data->pin1.offset + len;
if ((r = sc_build_pin(sbuf+len, sizeof(sbuf)-len, &data->pin2, pad)) < 0)
return r;
len += r;
break;
case SC_PIN_CMD_UNBLOCK:
ins = 0x2C;
if (data->pin1.len != 0 || use_pin_pad) {
if ((r = sc_build_pin(sbuf, sizeof(sbuf), &data->pin1, pad)) < 0)
return r;
len += r;
} else {
p1 |= 0x02;
}
if (data->pin2.len != 0 || use_pin_pad) {
data->pin2.offset = data->pin1.offset + len;
if ((r = sc_build_pin(sbuf+len, sizeof(sbuf)-len, &data->pin2, pad)) < 0)
return r;
len += r;
} else {
p1 |= 0x01;
}
break;
default:
return SC_ERROR_NOT_SUPPORTED;
}
sc_format_apdu(card, apdu, SC_APDU_CASE_3_SHORT,
ins, p1, data->pin_reference);
apdu->lc = len;
apdu->datalen = len;
apdu->data = sbuf;
apdu->resplen = 0;
return 0;
}
static int gemsafe_pin_cmd(struct sc_card *card, struct sc_pin_cmd_data *data,
int *tries_left)
{
struct sc_apdu local_apdu, *apdu;
int r;
if (tries_left)
*tries_left = -1;
/* See if we've been called from another card driver, which is
* passing an APDU to us (this allows to write card drivers
* whose PIN functions behave "mostly like ISO" except in some
* special circumstances.
*/
if (data->apdu == NULL) {
r = gemsafe_build_pin_apdu(card, &local_apdu, data);
if (r < 0)
return r;
data->apdu = &local_apdu;
}
apdu = data->apdu;
if (!(data->flags & SC_PIN_CMD_USE_PINPAD)) {
/* Transmit the APDU to the card */
r = sc_transmit_apdu(card, apdu);
/* Clear the buffer - it may contain pins */
memset((void *) apdu->data, 0, apdu->datalen);
} else {
/* Call the reader driver to collect
* the PIN and pass on the APDU to the card */
if (data->pin1.offset == 0) {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL,
"Card driver didn't set PIN offset");
return SC_ERROR_INVALID_ARGUMENTS;
}
if (card->reader
&& card->reader->ops
&& card->reader->ops->perform_verify) {
r = card->reader->ops->perform_verify(card->reader, data);
/* sw1/sw2 filled in by reader driver */
} else {
sc_debug(card->ctx, SC_LOG_DEBUG_NORMAL,
"Card reader driver does not support "
"PIN entry through reader key pad");
r = SC_ERROR_NOT_SUPPORTED;
}
}
/* Don't pass references to local variables up to the caller. */
if (data->apdu == &local_apdu)
data->apdu = NULL;
SC_TEST_RET(card->ctx, SC_LOG_DEBUG_NORMAL, r, "APDU transmit failed");
if (apdu->sw1 == 0x63) {
if ((apdu->sw2 & 0xF0) == 0xC0 && tries_left != NULL)
*tries_left = apdu->sw2 & 0x0F;
return SC_ERROR_PIN_CODE_INCORRECT;
}
return sc_check_sw(card, apdu->sw1, apdu->sw2);
}
static struct sc_card_driver *sc_get_driver(void)
{
struct sc_card_driver *iso_drv = sc_get_iso7816_driver();
if (!iso_ops)
iso_ops = iso_drv->ops;
/* use the standard iso operations as default */
gemsafe_ops = *iso_drv->ops;
/* gemsafe specific functions */
gemsafe_ops.match_card = gemsafe_match_card;
gemsafe_ops.init = gemsafe_init;
gemsafe_ops.finish = gemsafe_finish;
gemsafe_ops.select_file = gemsafe_select_file;
gemsafe_ops.restore_security_env = gemsafe_restore_security_env;
gemsafe_ops.set_security_env = gemsafe_set_security_env;
gemsafe_ops.decipher = gemsafe_decipher;
gemsafe_ops.compute_signature = gemsafe_compute_signature;
gemsafe_ops.get_challenge = gemsafe_get_challenge;
gemsafe_ops.process_fci = gemsafe_process_fci;
gemsafe_ops.pin_cmd = gemsafe_pin_cmd;
return &gemsafe_drv;
}
struct sc_card_driver *sc_get_gemsafeV1_driver(void)
{
return sc_get_driver();
}
Reference in New Issue View Git Blame Copy Permalink