/* * Copyright (c) 2014 Yubico AB * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #include #include #include #include #include #include #include #include #include "internal.h" #include "ykpiv.h" static ykpiv_rc send_data(ykpiv_state *state, APDU *apdu, unsigned char *data, unsigned long *recv_len, int *sw); static void dump_hex(const unsigned char *buf, unsigned int len) { unsigned int i; for (i = 0; i < len; i++) { fprintf(stderr, "%02x ", buf[i]); } } static int set_length(unsigned char *buffer, size_t length) { if(length < 0x80) { *buffer++ = length; return 1; } else if(length < 0xff) { *buffer++ = 0x81; *buffer++ = length; return 2; } else { *buffer++ = 0x82; *buffer++ = (length >> 8) & 0xff; *buffer++ = length & 0xff; return 3; } } static int get_length(const unsigned char *buffer, size_t *len) { if(buffer[0] < 0x81) { *len = buffer[0]; return 1; } else if((*buffer & 0x7f) == 1) { *len = buffer[1]; return 2; } else if((*buffer & 0x7f) == 2) { size_t tmp = buffer[1]; *len = (tmp << 8) + buffer[2]; return 3; } return 0; } static unsigned char *set_object(int object_id, unsigned char *buffer) { *buffer++ = 0x5c; if(object_id == YKPIV_OBJ_DISCOVERY) { *buffer++ = 1; *buffer++ = YKPIV_OBJ_DISCOVERY; } else if(object_id > 0xffff && object_id <= 0xffffff) { *buffer++ = 3; *buffer++ = (object_id >> 16) & 0xff; *buffer++ = (object_id >> 8) & 0xff; *buffer++ = object_id & 0xff; } return buffer; } ykpiv_rc ykpiv_init(ykpiv_state **state, int verbose) { ykpiv_state *s = malloc(sizeof(ykpiv_state)); if(s == NULL) { return YKPIV_MEMORY_ERROR; } memset(s, 0, sizeof(ykpiv_state)); s->verbose = verbose; s->context = SCARD_E_INVALID_HANDLE; *state = s; return YKPIV_OK; } ykpiv_rc ykpiv_done(ykpiv_state *state) { ykpiv_disconnect(state); free(state); return YKPIV_OK; } ykpiv_rc ykpiv_disconnect(ykpiv_state *state) { if(state->card) { SCardDisconnect(state->card, SCARD_RESET_CARD); state->card = 0; } if(SCardIsValidContext(state->context) == SCARD_S_SUCCESS) { SCardReleaseContext(state->context); state->context = SCARD_E_INVALID_HANDLE; } return YKPIV_OK; } ykpiv_rc ykpiv_connect(ykpiv_state *state, const char *wanted) { unsigned long active_protocol; char reader_buf[2048]; size_t num_readers = sizeof(reader_buf); long rc; char *reader_ptr; ykpiv_rc ret = ykpiv_list_readers(state, reader_buf, &num_readers); if(ret != YKPIV_OK) { return ret; } for(reader_ptr = reader_buf; *reader_ptr != '\0'; reader_ptr += strlen(reader_ptr) + 1) { if(wanted) { if(!strstr(reader_ptr, wanted)) { if(state->verbose) { fprintf(stderr, "skipping reader '%s' since it doesn't match '%s'.\n", reader_ptr, wanted); } continue; } } if(state->verbose) { fprintf(stderr, "trying to connect to reader '%s'.\n", reader_ptr); } rc = SCardConnect(state->context, reader_ptr, SCARD_SHARE_SHARED, SCARD_PROTOCOL_T1, &state->card, &active_protocol); if(rc != SCARD_S_SUCCESS) { if(state->verbose) { fprintf(stderr, "SCardConnect failed, rc=%08lx\n", rc); } continue; } { APDU apdu; unsigned char data[0xff]; unsigned long recv_len = sizeof(data); int sw; ykpiv_rc res; memset(apdu.raw, 0, sizeof(apdu)); apdu.st.ins = 0xa4; apdu.st.p1 = 0x04; apdu.st.lc = sizeof(aid); memcpy(apdu.st.data, aid, sizeof(aid)); if((res = send_data(state, &apdu, data, &recv_len, &sw)) != YKPIV_OK) { if(state->verbose) { fprintf(stderr, "Failed communicating with card: '%s'\n", ykpiv_strerror(res)); } continue; } else if(sw == 0x9000) { return YKPIV_OK; } else { if(state->verbose) { fprintf(stderr, "Failed selecting application: %04x\n", sw); } } } } if(*reader_ptr == '\0') { if(state->verbose) { fprintf(stderr, "error: no useable reader found.\n"); } SCardReleaseContext(state->context); state->context = SCARD_E_INVALID_HANDLE; return YKPIV_PCSC_ERROR; } return YKPIV_GENERIC_ERROR; } ykpiv_rc ykpiv_list_readers(ykpiv_state *state, char *readers, size_t *len) { unsigned long num_readers = 0; long rc; if(SCardIsValidContext(state->context) != SCARD_S_SUCCESS) { rc = SCardEstablishContext(SCARD_SCOPE_SYSTEM, NULL, NULL, &state->context); if (rc != SCARD_S_SUCCESS) { if(state->verbose) { fprintf (stderr, "error: SCardEstablishContext failed, rc=%08lx\n", rc); } return YKPIV_PCSC_ERROR; } } rc = SCardListReaders(state->context, NULL, NULL, &num_readers); if (rc != SCARD_S_SUCCESS) { if(state->verbose) { fprintf (stderr, "error: SCardListReaders failed, rc=%08lx\n", rc); } SCardReleaseContext(state->context); state->context = SCARD_E_INVALID_HANDLE; return YKPIV_PCSC_ERROR; } if (num_readers > *len) { num_readers = *len; } rc = SCardListReaders(state->context, NULL, readers, &num_readers); if (rc != SCARD_S_SUCCESS) { if(state->verbose) { fprintf (stderr, "error: SCardListReaders failed, rc=%08lx\n", rc); } SCardReleaseContext(state->context); state->context = SCARD_E_INVALID_HANDLE; return YKPIV_PCSC_ERROR; } *len = num_readers; return YKPIV_OK; } ykpiv_rc ykpiv_transfer_data(ykpiv_state *state, const unsigned char *templ, const unsigned char *in_data, long in_len, unsigned char *out_data, unsigned long *out_len, int *sw) { const unsigned char *in_ptr = in_data; unsigned long max_out = *out_len; ykpiv_rc res; long rc; *out_len = 0; rc = SCardBeginTransaction(state->card); if(rc != SCARD_S_SUCCESS) { if(state->verbose) { fprintf(stderr, "error: Failed to being pcsc transaction, rc=%08lx\n", rc); } return YKPIV_PCSC_ERROR; } do { size_t this_size = 0xff; unsigned char data[261]; unsigned long recv_len = sizeof(data); APDU apdu; memset(apdu.raw, 0, sizeof(apdu.raw)); memcpy(apdu.raw, templ, 4); if(in_ptr + 0xff < in_data + in_len) { apdu.st.cla = 0x10; } else { this_size = (size_t)((in_data + in_len) - in_ptr); } if(state->verbose > 2) { fprintf(stderr, "Going to send %lu bytes in this go.\n", (unsigned long)this_size); } apdu.st.lc = this_size; memcpy(apdu.st.data, in_ptr, this_size); res = send_data(state, &apdu, data, &recv_len, sw); if(res != YKPIV_OK) { return res; } else if(*sw != 0x9000 && *sw >> 8 != 0x61) { return YKPIV_OK; } if(*out_len + recv_len - 2 > max_out) { if(state->verbose) { fprintf(stderr, "Output buffer to small, wanted to write %lu, max was %lu.\n", *out_len + recv_len - 2, max_out); } return YKPIV_SIZE_ERROR; } if(out_data) { memcpy(out_data, data, recv_len - 2); out_data += recv_len - 2; *out_len += recv_len - 2; } in_ptr += this_size; } while(in_ptr < in_data + in_len); while(*sw >> 8 == 0x61) { APDU apdu; unsigned char data[261]; unsigned long recv_len = sizeof(data); if(state->verbose > 2) { fprintf(stderr, "The card indicates there is %d bytes more data for us.\n", *sw & 0xff); } memset(apdu.raw, 0, sizeof(apdu.raw)); apdu.st.ins = 0xc0; res = send_data(state, &apdu, data, &recv_len, sw); if(res != YKPIV_OK) { return res; } else if(*sw != 0x9000 && *sw >> 8 != 0x61) { return YKPIV_OK; } if(*out_len + recv_len - 2 > max_out) { fprintf(stderr, "Output buffer to small, wanted to write %lu, max was %lu.", *out_len + recv_len - 2, max_out); } if(out_data) { memcpy(out_data, data, recv_len - 2); out_data += recv_len - 2; *out_len += recv_len - 2; } } rc = SCardEndTransaction(state->card, SCARD_LEAVE_CARD); if(rc != SCARD_S_SUCCESS) { if(state->verbose) { fprintf(stderr, "error: Failed to end pcsc transaction, rc=%08lx\n", rc); } return YKPIV_PCSC_ERROR; } return YKPIV_OK; } static ykpiv_rc send_data(ykpiv_state *state, APDU *apdu, unsigned char *data, unsigned long *recv_len, int *sw) { long rc; unsigned int send_len = (unsigned int)apdu->st.lc + 5; if(state->verbose > 1) { fprintf(stderr, "> "); dump_hex(apdu->raw, send_len); fprintf(stderr, "\n"); } rc = SCardTransmit(state->card, SCARD_PCI_T1, apdu->raw, send_len, NULL, data, recv_len); if(rc != SCARD_S_SUCCESS) { if(state->verbose) { fprintf (stderr, "error: SCardTransmit failed, rc=%08lx\n", rc); } return YKPIV_PCSC_ERROR; } if(state->verbose > 1) { fprintf(stderr, "< "); dump_hex(data, *recv_len); fprintf(stderr, "\n"); } if(*recv_len >= 2) { *sw = (data[*recv_len - 2] << 8) | data[*recv_len - 1]; } else { *sw = 0; } return YKPIV_OK; } ykpiv_rc ykpiv_authenticate(ykpiv_state *state, unsigned const char *key) { APDU apdu; unsigned char data[261]; DES_cblock challenge; unsigned long recv_len = sizeof(data); int sw; ykpiv_rc res; DES_key_schedule ks1, ks2, ks3; /* set up our key */ { const_DES_cblock key_tmp; memcpy(key_tmp, key, 8); DES_set_key_unchecked(&key_tmp, &ks1); memcpy(key_tmp, key + 8, 8); DES_set_key_unchecked(&key_tmp, &ks2); memcpy(key_tmp, key + 16, 8); DES_set_key_unchecked(&key_tmp, &ks3); } /* get a challenge from the card */ { memset(apdu.raw, 0, sizeof(apdu)); apdu.st.ins = 0x87; apdu.st.p1 = 0x03; /* triple des */ apdu.st.p2 = 0x9b; /* management key */ apdu.st.lc = 0x04; apdu.st.data[0] = 0x7c; apdu.st.data[1] = 0x02; apdu.st.data[2] = 0x80; if((res = send_data(state, &apdu, data, &recv_len, &sw)) != YKPIV_OK) { return res; } else if(sw != 0x9000) { return YKPIV_AUTHENTICATION_ERROR; } memcpy(challenge, data + 4, 8); } /* send a response to the cards challenge and a challenge of our own. */ { unsigned char *dataptr = apdu.st.data; DES_cblock response; DES_ecb3_encrypt(&challenge, &response, &ks1, &ks2, &ks3, 0); recv_len = sizeof(data); memset(apdu.raw, 0, sizeof(apdu)); apdu.st.ins = YKPIV_INS_AUTHENTICATE; apdu.st.p1 = YKPIV_ALGO_3DES; /* triple des */ apdu.st.p2 = YKPIV_KEY_CARDMGM; /* management key */ *dataptr++ = 0x7c; *dataptr++ = 20; /* 2 + 8 + 2 +8 */ *dataptr++ = 0x80; *dataptr++ = 8; memcpy(dataptr, response, 8); dataptr += 8; *dataptr++ = 0x81; *dataptr++ = 8; if(RAND_pseudo_bytes(dataptr, 8) == -1) { if(state->verbose) { fprintf(stderr, "Failed getting randomness for authentication.\n"); } return YKPIV_RANDOMNESS_ERROR; } memcpy(challenge, dataptr, 8); dataptr += 8; apdu.st.lc = dataptr - apdu.st.data; if((res = send_data(state, &apdu, data, &recv_len, &sw)) != YKPIV_OK) { return res; } else if(sw != 0x9000) { return YKPIV_AUTHENTICATION_ERROR; } } /* compare the response from the card with our challenge */ { DES_cblock response; DES_ecb3_encrypt(&challenge, &response, &ks1, &ks2, &ks3, 1); if(memcmp(response, data + 4, 8) == 0) { return YKPIV_OK; } else { return YKPIV_AUTHENTICATION_ERROR; } } } ykpiv_rc ykpiv_set_mgmkey(ykpiv_state *state, const unsigned char *new_key) { return ykpiv_set_mgmkey2(state, new_key, 0); } ykpiv_rc ykpiv_set_mgmkey2(ykpiv_state *state, const unsigned char *new_key, const unsigned char touch) { APDU apdu; unsigned char data[261]; unsigned long recv_len = sizeof(data); int sw; size_t i; ykpiv_rc res; for(i = 0; i < 3; i++) { const_DES_cblock key_tmp; memcpy(key_tmp, new_key + i * 8, 8); DES_set_odd_parity(&key_tmp); if(DES_is_weak_key(&key_tmp) != 0) { if(state->verbose) { fprintf(stderr, "Won't set new key '"); dump_hex(new_key + i * 8, 8); fprintf(stderr, "' since it's weak (with parity the key is: "); dump_hex(key_tmp, 8); fprintf(stderr, ").\n"); } return YKPIV_GENERIC_ERROR; } } memset(apdu.raw, 0, sizeof(apdu)); apdu.st.ins = YKPIV_INS_SET_MGMKEY; apdu.st.p1 = 0xff; if(touch == 0) { apdu.st.p2 = 0xff; } else if(touch == 1) { apdu.st.p2 = 0xfe; } else { return YKPIV_GENERIC_ERROR; } apdu.st.lc = DES_KEY_SZ * 3 + 3; apdu.st.data[0] = YKPIV_ALGO_3DES; apdu.st.data[1] = YKPIV_KEY_CARDMGM; apdu.st.data[2] = DES_KEY_SZ * 3; memcpy(apdu.st.data + 3, new_key, DES_KEY_SZ * 3); if((res = send_data(state, &apdu, data, &recv_len, &sw)) != YKPIV_OK) { return res; } else if(sw == 0x9000) { return YKPIV_OK; } return YKPIV_GENERIC_ERROR; } static char hex_translate[] = "0123456789abcdef"; ykpiv_rc ykpiv_hex_decode(const char *hex_in, size_t in_len, unsigned char *hex_out, size_t *out_len) { size_t i; bool first = true; if(*out_len < in_len / 2) { return YKPIV_SIZE_ERROR; } else if(in_len % 2 != 0) { return YKPIV_SIZE_ERROR; } *out_len = in_len / 2; for(i = 0; i < in_len; i++) { char *ind_ptr = strchr(hex_translate, tolower(*hex_in++)); int index = 0; if(ind_ptr) { index = ind_ptr - hex_translate; } else { return YKPIV_PARSE_ERROR; } if(first) { *hex_out = index << 4; } else { *hex_out++ |= index; } first = !first; } return YKPIV_OK; } static ykpiv_rc _general_authenticate(ykpiv_state *state, const unsigned char *sign_in, size_t in_len, unsigned char *out, size_t *out_len, unsigned char algorithm, unsigned char key, bool decipher) { unsigned char indata[1024]; unsigned char *dataptr = indata; unsigned char data[1024]; unsigned char templ[] = {0, YKPIV_INS_AUTHENTICATE, algorithm, key}; unsigned long recv_len = sizeof(data); size_t key_len = 0; int sw; size_t bytes; size_t len = 0; ykpiv_rc res; switch(algorithm) { case YKPIV_ALGO_RSA1024: key_len = 128; case YKPIV_ALGO_RSA2048: if(key_len == 0) { key_len = 256; } if(in_len != key_len) { return YKPIV_SIZE_ERROR; } break; case YKPIV_ALGO_ECCP256: key_len = 32; case YKPIV_ALGO_ECCP384: if(key_len == 0) { key_len = 48; } if(!decipher && in_len > key_len) { return YKPIV_SIZE_ERROR; } else if(decipher && in_len != (key_len * 2) + 1) { return YKPIV_SIZE_ERROR; } break; default: return YKPIV_ALGORITHM_ERROR; } if(in_len < 0x80) { bytes = 1; } else if(in_len < 0xff) { bytes = 2; } else { bytes = 3; } *dataptr++ = 0x7c; dataptr += set_length(dataptr, in_len + bytes + 3); *dataptr++ = 0x82; *dataptr++ = 0x00; *dataptr++ = YKPIV_IS_EC(algorithm) && decipher ? 0x85 : 0x81; dataptr += set_length(dataptr, in_len); memcpy(dataptr, sign_in, (size_t)in_len); dataptr += in_len; if((res = ykpiv_transfer_data(state, templ, indata, dataptr - indata, data, &recv_len, &sw)) != YKPIV_OK) { if(state->verbose) { fprintf(stderr, "Sign command failed to communicate.\n"); } return res; } else if(sw != 0x9000) { if(state->verbose) { fprintf(stderr, "Failed sign command with code %x.\n", sw); } if (sw == 0x6982) return YKPIV_AUTHENTICATION_ERROR; else return YKPIV_GENERIC_ERROR; } /* skip the first 7c tag */ if(data[0] != 0x7c) { if(state->verbose) { fprintf(stderr, "Failed parsing signature reply.\n"); } return YKPIV_PARSE_ERROR; } dataptr = data + 1; dataptr += get_length(dataptr, &len); /* skip the 82 tag */ if(*dataptr != 0x82) { if(state->verbose) { fprintf(stderr, "Failed parsing signature reply.\n"); } return YKPIV_PARSE_ERROR; } dataptr++; dataptr += get_length(dataptr, &len); if(len > *out_len) { if(state->verbose) { fprintf(stderr, "Wrong size on output buffer.\n"); } return YKPIV_SIZE_ERROR; } *out_len = len; memcpy(out, dataptr, len); return YKPIV_OK; } ykpiv_rc ykpiv_sign_data(ykpiv_state *state, const unsigned char *raw_in, size_t in_len, unsigned char *sign_out, size_t *out_len, unsigned char algorithm, unsigned char key) { return _general_authenticate(state, raw_in, in_len, sign_out, out_len, algorithm, key, false); } ykpiv_rc ykpiv_decipher_data(ykpiv_state *state, const unsigned char *in, size_t in_len, unsigned char *out, size_t *out_len, unsigned char algorithm, unsigned char key) { return _general_authenticate(state, in, in_len, out, out_len, algorithm, key, true); } ykpiv_rc ykpiv_get_version(ykpiv_state *state, char *version, size_t len) { APDU apdu; unsigned char data[261]; unsigned long recv_len = sizeof(data); int sw; ykpiv_rc res; memset(apdu.raw, 0, sizeof(apdu)); apdu.st.ins = YKPIV_INS_GET_VERSION; if((res = send_data(state, &apdu, data, &recv_len, &sw)) != YKPIV_OK) { return res; } else if(sw == 0x9000) { int result = snprintf(version, len, "%d.%d.%d", data[0], data[1], data[2]); if(result < 0) { return YKPIV_SIZE_ERROR; } return YKPIV_OK; } else { return YKPIV_GENERIC_ERROR; } } ykpiv_rc ykpiv_verify(ykpiv_state *state, const char *pin, int *tries) { APDU apdu; unsigned char data[261]; unsigned long recv_len = sizeof(data); int sw; size_t len = 0; ykpiv_rc res; if(pin) { len = strlen(pin); } if(len > 8) { return YKPIV_SIZE_ERROR; } memset(apdu.raw, 0, sizeof(apdu.raw)); apdu.st.ins = YKPIV_INS_VERIFY; apdu.st.p1 = 0x00; apdu.st.p2 = 0x80; apdu.st.lc = pin ? 0x08 : 0; if(pin) { memcpy(apdu.st.data, pin, len); if(len < 8) { memset(apdu.st.data + len, 0xff, 8 - len); } } if((res = send_data(state, &apdu, data, &recv_len, &sw)) != YKPIV_OK) { return res; } else if(sw == 0x9000) { return YKPIV_OK; } else if((sw >> 8) == 0x63) { *tries = (sw & 0xf); return YKPIV_WRONG_PIN; } else if(sw == 0x6983) { *tries = 0; return YKPIV_WRONG_PIN; } else { return YKPIV_GENERIC_ERROR; } } ykpiv_rc ykpiv_fetch_object(ykpiv_state *state, int object_id, unsigned char *data, unsigned long *len) { int sw; unsigned char indata[5]; unsigned char *inptr = indata; unsigned char templ[] = {0, YKPIV_INS_GET_DATA, 0x3f, 0xff}; ykpiv_rc res; inptr = set_object(object_id, inptr); if(inptr == NULL) { return YKPIV_INVALID_OBJECT; } if((res = ykpiv_transfer_data(state, templ, indata, inptr - indata, data, len, &sw)) != YKPIV_OK) { return res; } if(sw == 0x9000) { size_t outlen; int offs = get_length(data + 1, &outlen); if(offs == 0) { return YKPIV_SIZE_ERROR; } memmove(data, data + 1 + offs, outlen); *len = outlen; return YKPIV_OK; } else { return YKPIV_GENERIC_ERROR; } } ykpiv_rc ykpiv_save_object(ykpiv_state *state, int object_id, unsigned char *indata, size_t len) { unsigned char data[3072]; unsigned char *dataptr = data; unsigned char templ[] = {0, YKPIV_INS_PUT_DATA, 0x3f, 0xff}; int sw; ykpiv_rc res; unsigned long outlen = 0; if(len > sizeof(data) - 9) { return YKPIV_SIZE_ERROR; } dataptr = set_object(object_id, dataptr); if(dataptr == NULL) { return YKPIV_INVALID_OBJECT; } *dataptr++ = 0x53; dataptr += set_length(dataptr, len); memcpy(dataptr, indata, len); dataptr += len; if((res = ykpiv_transfer_data(state, templ, data, dataptr - data, NULL, &outlen, &sw)) != YKPIV_OK) { return res; } if(sw == 0x9000) { return YKPIV_OK; } else { return YKPIV_GENERIC_ERROR; } } ykpiv_rc ykpiv_import_private_key(ykpiv_state *state, const unsigned char key, unsigned char algorithm, const unsigned char *p, size_t p_len, const unsigned char *q, size_t q_len, const unsigned char *dp, size_t dp_len, const unsigned char *dq, size_t dq_len, const unsigned char *qinv, size_t qinv_len, const unsigned char *ec_data, unsigned char ec_data_len, const unsigned char pin_policy, const unsigned char touch_policy) { unsigned char key_data[1024]; unsigned char *in_ptr = key_data; unsigned char templ[] = {0, YKPIV_INS_IMPORT_KEY, algorithm, key}; unsigned char data[256]; unsigned long recv_len = sizeof(data); unsigned elem_len; int sw; const unsigned char *params[5]; size_t lens[5]; size_t padding; unsigned char n_params; int i; int param_tag; if (state == NULL) return YKPIV_GENERIC_ERROR; if (key != YKPIV_KEY_AUTHENTICATION && key != YKPIV_KEY_SIGNATURE && key != YKPIV_KEY_KEYMGM && key != YKPIV_KEY_CARDAUTH) { return YKPIV_KEY_ERROR; } if (pin_policy != YKPIV_PINPOLICY_DEFAULT && pin_policy != YKPIV_PINPOLICY_NEVER && pin_policy != YKPIV_PINPOLICY_ONCE && pin_policy != YKPIV_PINPOLICY_ALWAYS) return YKPIV_GENERIC_ERROR; if (touch_policy != YKPIV_TOUCHPOLICY_DEFAULT && touch_policy != YKPIV_TOUCHPOLICY_NEVER && touch_policy != YKPIV_TOUCHPOLICY_ALWAYS) return YKPIV_GENERIC_ERROR; if (algorithm == YKPIV_ALGO_RSA1024 || algorithm == YKPIV_ALGO_RSA2048) { if (algorithm == YKPIV_ALGO_RSA1024) elem_len = 64; if (algorithm == YKPIV_ALGO_RSA2048) elem_len = 128; if (p == NULL || q == NULL || dp == NULL || dq == NULL || qinv == NULL) return YKPIV_GENERIC_ERROR; params[0] = p; lens[0] = p_len; params[1] = q; lens[1] = q_len; params[2] = dp; lens[2] = dp_len; params[3] = dq; lens[3] = dq_len; params[4] = qinv; lens[4] = qinv_len; param_tag = 0x01; n_params = 5; } else if (algorithm == YKPIV_ALGO_ECCP256 || algorithm == YKPIV_ALGO_ECCP384) { if (algorithm == YKPIV_ALGO_ECCP256) elem_len = 32; if (algorithm == YKPIV_ALGO_ECCP384) elem_len = 48; if (ec_data == NULL) return YKPIV_GENERIC_ERROR; params[0] = ec_data; lens[0] = ec_data_len; param_tag = 0x06; n_params = 1; } else return YKPIV_ALGORITHM_ERROR; for (i = 0; i < n_params; i++) { *in_ptr++ = param_tag + i; in_ptr += set_length(in_ptr, elem_len); padding = elem_len - lens[i]; memset(in_ptr, 0, padding); in_ptr += padding; memcpy(in_ptr, params[i], lens[i]); in_ptr += lens[i]; } if (pin_policy != YKPIV_PINPOLICY_DEFAULT) { *in_ptr++ = YKPIV_PINPOLICY_TAG; *in_ptr++ = 0x01; *in_ptr++ = pin_policy; } if (touch_policy != YKPIV_TOUCHPOLICY_DEFAULT) { *in_ptr++ = YKPIV_TOUCHPOLICY_TAG; *in_ptr++ = 0x01; *in_ptr++ = touch_policy; } if (ykpiv_transfer_data(state, templ, key_data, in_ptr - key_data, data, &recv_len, &sw) != YKPIV_OK) return YKPIV_GENERIC_ERROR; if (sw == 0x6982) return YKPIV_AUTHENTICATION_ERROR; if (sw != 0x9000) return YKPIV_GENERIC_ERROR; return YKPIV_OK; }