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To Artifact [06b013b460]:


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....
5661
5662
5663
5664
5665
5666
5667
5668
5669
5670
5671
5672
5673
5674
5675
 *
 * RETURN VALUE
 *     ...
 *
 * NOTES
 *     ...
 *






































































































 */
static cackey_ret cackey_set_pin(struct cackey_slot *slot, unsigned char *old_pin, unsigned long old_pin_len, unsigned char *pin, unsigned long pin_len) {
	struct cackey_pcsc_identity *pcsc_identities;
	unsigned char cac_pin[8] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
	unsigned char old_cac_pin[8] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
	unsigned char pin_update[sizeof(cac_pin) + sizeof(old_cac_pin)];
	unsigned long num_certs;
................................................................................
 * RETURN VALUE
 *     ...
 *
 * NOTES
 *     ...
 *
 */
static cackey_ret cackey_login(struct cackey_slot *slot, unsigned char *pin, unsigned long pin_len, int *tries_remaining_p) {
	struct cackey_pcsc_identity *pcsc_identities;
	unsigned char cac_pin[8] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
	unsigned long num_certs;
	uint16_t response_code;
	int tries_remaining;
	int send_ret;
	int key_reference = 0x00;


	/* Indicate that we do not know about how many tries are remaining */
	if (tries_remaining_p) {
		*tries_remaining_p = -1;
	}

	/* Apparently, CAC PINs are *EXACTLY* 8 bytes long -- pad with 0xFF if too short */
................................................................................
	/* PIV authentication uses a "key_reference" of 0x80 */
	pcsc_identities = cackey_read_certs(slot, NULL, &num_certs);
	if (num_certs > 0 && pcsc_identities != NULL) {
		switch (pcsc_identities[0].id_type) {
			case CACKEY_ID_TYPE_PIV:
				CACKEY_DEBUG_PRINTF("We have PIV card, so we will attempt to authenticate using the PIV Application key reference");

				key_reference = 0x80;
				break;
			default:
				break;
		}

		cackey_free_certs(pcsc_identities, num_certs, 1);
	}





	/* Issue PIN Verify */
	send_ret = cackey_send_apdu(slot, GSCIS_CLASS_ISO7816, GSCIS_INSTR_VERIFY, 0x00, key_reference, sizeof(cac_pin), cac_pin, 0x00, &response_code, NULL, NULL);

	if (send_ret != CACKEY_PCSC_S_OK) {
		if ((response_code & 0x63C0) == 0x63C0) {
			tries_remaining = (response_code & 0xF);
................................................................................
		}

		if (response_code == 0x6983) {
			CACKEY_DEBUG_PRINTF("PIN Verification failed, device is locked");

			return(CACKEY_PCSC_E_LOCKED);
		}

		return(CACKEY_PCSC_E_GENERIC);
	}



	CACKEY_DEBUG_PRINTF("PIN Verification succeeded");


	return(CACKEY_PCSC_S_OK);
}

/*
 * SYNPOSIS
 *     ...
 *
 * ARGUMENTS
 *     ...
 *
 * RETURN VALUE
 *     ...
 *
 * NOTES
 *     ...
 *
 */
static cackey_ret cackey_token_present(struct cackey_slot *slot) {
	cackey_ret pcsc_connect_ret;
	DWORD reader_len = 0, state = 0, protocol = 0, atr_len;
	BYTE atr[MAX_ATR_SIZE];
	LONG status_ret, scard_reconn_ret;

	CACKEY_DEBUG_PRINTF("Called.");

	if (slot->internal) {
		CACKEY_DEBUG_PRINTF("Returning token present (internal token)");

		return(CACKEY_PCSC_S_TOKENPRESENT);
	}

	pcsc_connect_ret = cackey_connect_card(slot);
	if (pcsc_connect_ret != CACKEY_PCSC_S_OK) {
		CACKEY_DEBUG_PRINTF("Unable to connect to card, returning token absent");

		return(CACKEY_PCSC_E_TOKENABSENT);
	}

	CACKEY_DEBUG_PRINTF("Calling SCardStatus() to determine card status");

	atr_len = sizeof(atr);
	status_ret = SCardStatus(slot->pcsc_card, NULL, &reader_len, &state, &protocol, atr, &atr_len);

	if (status_ret == SCARD_E_INVALID_HANDLE) {
		CACKEY_DEBUG_PRINTF("SCardStatus() returned SCARD_E_INVALID_HANDLE, marking is not already connected and trying again");
		cackey_mark_slot_reset(slot);

		pcsc_connect_ret = cackey_connect_card(slot);
		if (pcsc_connect_ret != CACKEY_PCSC_S_OK) {
			CACKEY_DEBUG_PRINTF("Unable to connect to card, returning token absent");

			return(CACKEY_PCSC_E_TOKENABSENT);

		}

		CACKEY_DEBUG_PRINTF("Calling SCardStatus() again");




		atr_len = sizeof(atr);
		status_ret = SCardStatus(slot->pcsc_card, NULL, &reader_len, &state, &protocol, atr, &atr_len);

	}

	if (status_ret != SCARD_S_SUCCESS) {
		cackey_mark_slot_reset(slot);

		if (status_ret == SCARD_W_RESET_CARD) {
			CACKEY_DEBUG_PRINTF("Reset required, please hold...");

			scard_reconn_ret = cackey_reconnect_card(slot, SCARD_PROTOCOL_T0 | SCARD_PROTOCOL_T1);
			if (scard_reconn_ret == SCARD_S_SUCCESS) {
				/* Re-establish transaction, if it was present */
				if (slot->transaction_depth > 0) {
					slot->transaction_depth--;
					slot->transaction_need_hw_lock = 1;
					cackey_begin_transaction(slot);
				}

				CACKEY_DEBUG_PRINTF("Reset successful, requerying");
				status_ret = SCardStatus(slot->pcsc_card, NULL, &reader_len, &state, &protocol, atr, &atr_len);
				if (status_ret != SCARD_S_SUCCESS) {
					CACKEY_DEBUG_PRINTF("Still unable to query card status, returning token absent.  SCardStatus() = %s", CACKEY_DEBUG_FUNC_SCARDERR_TO_STR(status_ret));


					return(CACKEY_PCSC_E_TOKENABSENT);
				}
			} else {
				CACKEY_DEBUG_PRINTF("Unable to reconnect to card, returning token absent.  SCardReconnect() = %s", CACKEY_DEBUG_FUNC_SCARDERR_TO_STR(scard_reconn_ret));

				return(CACKEY_PCSC_E_TOKENABSENT);
			}
		} else {
			CACKEY_DEBUG_PRINTF("Unable to query card status, returning token absent.  SCardStatus() = %s", CACKEY_DEBUG_FUNC_SCARDERR_TO_STR(status_ret));

			return(CACKEY_PCSC_E_TOKENABSENT);
		}
	}

	if ((state & SCARD_ABSENT) == SCARD_ABSENT) {
		CACKEY_DEBUG_PRINTF("Card is absent, returning token absent");

		return(CACKEY_PCSC_E_TOKENABSENT);
	}

	CACKEY_DEBUG_PRINTF("Returning token present.");

	return(CACKEY_PCSC_S_TOKENPRESENT);
}

/*
 * SYNPOSIS
 *     ...
 *
 * ARGUMENTS
 *     ...
 *
................................................................................
			return(CKR_PIN_INCORRECT);
		}

		pPin = (CK_UTF8CHAR_PTR) pinbuf;
		ulPinLen = strlen(pinbuf);
	}

	login_ret = cackey_login(&cackey_slots[slotID], pPin, ulPinLen, &tries_remaining);
	if (login_ret != CACKEY_PCSC_S_OK) {
		if (lock_mutex) {
			cackey_mutex_unlock(cackey_biglock);
		}

		if (login_ret == CACKEY_PCSC_E_LOCKED) {
			CACKEY_DEBUG_PRINTF("Error.  Token is locked.");







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....
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5700
5701
5702
5703
5704
5705
5706
5707
5708
5709
 *
 * RETURN VALUE
 *     ...
 *
 * NOTES
 *     ...
 *
 */
static cackey_ret cackey_token_present(struct cackey_slot *slot) {
	cackey_ret pcsc_connect_ret;
	DWORD reader_len = 0, state = 0, protocol = 0, atr_len;
	BYTE atr[MAX_ATR_SIZE];
	LONG status_ret, scard_reconn_ret;

	CACKEY_DEBUG_PRINTF("Called.");

	if (slot->internal) {
		CACKEY_DEBUG_PRINTF("Returning token present (internal token)");

		return(CACKEY_PCSC_S_TOKENPRESENT);
	}

	pcsc_connect_ret = cackey_connect_card(slot);
	if (pcsc_connect_ret != CACKEY_PCSC_S_OK) {
		CACKEY_DEBUG_PRINTF("Unable to connect to card, returning token absent");

		return(CACKEY_PCSC_E_TOKENABSENT);
	}

	CACKEY_DEBUG_PRINTF("Calling SCardStatus() to determine card status");

	atr_len = sizeof(atr);
	status_ret = SCardStatus(slot->pcsc_card, NULL, &reader_len, &state, &protocol, atr, &atr_len);

	if (status_ret == SCARD_E_INVALID_HANDLE) {
		CACKEY_DEBUG_PRINTF("SCardStatus() returned SCARD_E_INVALID_HANDLE, marking is not already connected and trying again");
		cackey_mark_slot_reset(slot);

		pcsc_connect_ret = cackey_connect_card(slot);
		if (pcsc_connect_ret != CACKEY_PCSC_S_OK) {
			CACKEY_DEBUG_PRINTF("Unable to connect to card, returning token absent");

			return(CACKEY_PCSC_E_TOKENABSENT);
		}

		CACKEY_DEBUG_PRINTF("Calling SCardStatus() again");

		atr_len = sizeof(atr);
		status_ret = SCardStatus(slot->pcsc_card, NULL, &reader_len, &state, &protocol, atr, &atr_len);
	}

	if (status_ret != SCARD_S_SUCCESS) {
		cackey_mark_slot_reset(slot);

		if (status_ret == SCARD_W_RESET_CARD) {
			CACKEY_DEBUG_PRINTF("Reset required, please hold...");

			scard_reconn_ret = cackey_reconnect_card(slot, SCARD_PROTOCOL_T0 | SCARD_PROTOCOL_T1);
			if (scard_reconn_ret == SCARD_S_SUCCESS) {
				/* Re-establish transaction, if it was present */
				if (slot->transaction_depth > 0) {
					slot->transaction_depth--;
					slot->transaction_need_hw_lock = 1;
					cackey_begin_transaction(slot);
				}

				CACKEY_DEBUG_PRINTF("Reset successful, requerying");
				status_ret = SCardStatus(slot->pcsc_card, NULL, &reader_len, &state, &protocol, atr, &atr_len);
				if (status_ret != SCARD_S_SUCCESS) {
					CACKEY_DEBUG_PRINTF("Still unable to query card status, returning token absent.  SCardStatus() = %s", CACKEY_DEBUG_FUNC_SCARDERR_TO_STR(status_ret));

					return(CACKEY_PCSC_E_TOKENABSENT);
				}
			} else {
				CACKEY_DEBUG_PRINTF("Unable to reconnect to card, returning token absent.  SCardReconnect() = %s", CACKEY_DEBUG_FUNC_SCARDERR_TO_STR(scard_reconn_ret));

				return(CACKEY_PCSC_E_TOKENABSENT);
			}
		} else {
			CACKEY_DEBUG_PRINTF("Unable to query card status, returning token absent.  SCardStatus() = %s", CACKEY_DEBUG_FUNC_SCARDERR_TO_STR(status_ret));

			return(CACKEY_PCSC_E_TOKENABSENT);
		}
	}

	if ((state & SCARD_ABSENT) == SCARD_ABSENT) {
		CACKEY_DEBUG_PRINTF("Card is absent, returning token absent");

		return(CACKEY_PCSC_E_TOKENABSENT);
	}

	CACKEY_DEBUG_PRINTF("Returning token present.");

	return(CACKEY_PCSC_S_TOKENPRESENT);
}

/*
 * SYNPOSIS
 *     ...
 *
 * ARGUMENTS
 *     ...
 *
 * RETURN VALUE
 *     ...
 *
 * NOTES
 *     ...
 *
 */
static cackey_ret cackey_set_pin(struct cackey_slot *slot, unsigned char *old_pin, unsigned long old_pin_len, unsigned char *pin, unsigned long pin_len) {
	struct cackey_pcsc_identity *pcsc_identities;
	unsigned char cac_pin[8] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
	unsigned char old_cac_pin[8] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
	unsigned char pin_update[sizeof(cac_pin) + sizeof(old_cac_pin)];
	unsigned long num_certs;
................................................................................
 * RETURN VALUE
 *     ...
 *
 * NOTES
 *     ...
 *
 */
static cackey_ret cackey_login(struct cackey_slot *slot, unsigned char *pin, unsigned long pin_len, int *tries_remaining_p, int retries) {
	struct cackey_pcsc_identity *pcsc_identities;
	unsigned char cac_pin[8] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF};
	unsigned long num_certs;
	uint16_t response_code;
	int tries_remaining;
	int send_ret;
	int key_reference = 0x00, have_piv = 0;
	cackey_ret connect_ret, token_ret;

	/* Indicate that we do not know about how many tries are remaining */
	if (tries_remaining_p) {
		*tries_remaining_p = -1;
	}

	/* Apparently, CAC PINs are *EXACTLY* 8 bytes long -- pad with 0xFF if too short */
................................................................................
	/* PIV authentication uses a "key_reference" of 0x80 */
	pcsc_identities = cackey_read_certs(slot, NULL, &num_certs);
	if (num_certs > 0 && pcsc_identities != NULL) {
		switch (pcsc_identities[0].id_type) {
			case CACKEY_ID_TYPE_PIV:
				CACKEY_DEBUG_PRINTF("We have PIV card, so we will attempt to authenticate using the PIV Application key reference");

				have_piv = 1;
				break;
			default:
				break;
		}

		cackey_free_certs(pcsc_identities, num_certs, 1);
	}

	if (have_piv == 1) {
		key_reference = 0x80;
	}

	/* Issue PIN Verify */
	send_ret = cackey_send_apdu(slot, GSCIS_CLASS_ISO7816, GSCIS_INSTR_VERIFY, 0x00, key_reference, sizeof(cac_pin), cac_pin, 0x00, &response_code, NULL, NULL);

	if (send_ret != CACKEY_PCSC_S_OK) {
		if ((response_code & 0x63C0) == 0x63C0) {
			tries_remaining = (response_code & 0xF);
................................................................................
		}

		if (response_code == 0x6983) {
			CACKEY_DEBUG_PRINTF("PIN Verification failed, device is locked");

			return(CACKEY_PCSC_E_LOCKED);
		}

		if (response_code == 0x6d00) {


			if (have_piv == 1 && retries > 0) {
				CACKEY_DEBUG_PRINTF("Got ISO 7816 Response \"6D 00\" in response to a VERIFY request.");
				CACKEY_DEBUG_PRINTF("We did not expect this because it is not mentioned in NIST SP 800-73-3 Part 2 Section 3.2.1");
				CACKEY_DEBUG_PRINTF("We are going to try to reset the card and select the applet again.");














































				cackey_mark_slot_reset(slot);

				connect_ret = cackey_connect_card(slot);
				if (connect_ret != CACKEY_PCSC_S_OK) {
					CACKEY_DEBUG_PRINTF("Unable to reconnect after resetting the card, returning in error.");


					return(connect_ret);
				}

				CACKEY_DEBUG_PRINTF("Verifying we still have a token.");
				token_ret = cackey_token_present(slot);
				if (token_ret != CACKEY_PCSC_S_TOKENPRESENT) {
					CACKEY_DEBUG_PRINTF("Token not present, returning in error.");



					return(token_ret);
				}
















				CACKEY_DEBUG_PRINTF("Trying to login again");



				return(cackey_login(slot, pin, pin_len, tries_remaining_p, retries - 1));
			}

		}



		return(CACKEY_PCSC_E_GENERIC);
	}













	CACKEY_DEBUG_PRINTF("PIN Verification succeeded");

	return(CACKEY_PCSC_S_OK);
}

/*
 * SYNPOSIS
 *     ...
 *
 * ARGUMENTS
 *     ...
 *
................................................................................
			return(CKR_PIN_INCORRECT);
		}

		pPin = (CK_UTF8CHAR_PTR) pinbuf;
		ulPinLen = strlen(pinbuf);
	}

	login_ret = cackey_login(&cackey_slots[slotID], pPin, ulPinLen, &tries_remaining, 3);
	if (login_ret != CACKEY_PCSC_S_OK) {
		if (lock_mutex) {
			cackey_mutex_unlock(cackey_biglock);
		}

		if (login_ret == CACKEY_PCSC_E_LOCKED) {
			CACKEY_DEBUG_PRINTF("Error.  Token is locked.");