* The keyARN of the encryption key that Amazon Web Services Payment Cryptography uses to encrypt
* outgoing PIN block data after translation.
*
* The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given key have * the same key or to detect that a key has changed. Amazon Web Services Payment Cryptography calculates the KCV by * using standard algorithms, typically by encrypting 8 or 16 bytes or "00" or "01" and then truncating the result * to the first 3 bytes, or 6 hex digits, of the resulting cryptogram. *
*/ private String keyCheckValue; /** ** The ougoing encrypted PIN block data after tranlation. *
*/ private String pinBlock; /** *
* The keyARN of the encryption key that Amazon Web Services Payment Cryptography uses to encrypt
* outgoing PIN block data after translation.
*
keyARN of the encryption key that Amazon Web Services Payment Cryptography uses to
* encrypt outgoing PIN block data after translation.
*/
public void setKeyArn(String keyArn) {
this.keyArn = keyArn;
}
/**
*
* The keyARN of the encryption key that Amazon Web Services Payment Cryptography uses to encrypt
* outgoing PIN block data after translation.
*
keyARN of the encryption key that Amazon Web Services Payment Cryptography uses to
* encrypt outgoing PIN block data after translation.
*/
public String getKeyArn() {
return this.keyArn;
}
/**
*
* The keyARN of the encryption key that Amazon Web Services Payment Cryptography uses to encrypt
* outgoing PIN block data after translation.
*
keyARN of the encryption key that Amazon Web Services Payment Cryptography uses to
* encrypt outgoing PIN block data after translation.
* @return Returns a reference to this object so that method calls can be chained together.
*/
public TranslatePinDataResult withKeyArn(String keyArn) {
setKeyArn(keyArn);
return this;
}
/**
* * The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given key have * the same key or to detect that a key has changed. Amazon Web Services Payment Cryptography calculates the KCV by * using standard algorithms, typically by encrypting 8 or 16 bytes or "00" or "01" and then truncating the result * to the first 3 bytes, or 6 hex digits, of the resulting cryptogram. *
* * @param keyCheckValue * The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given * key have the same key or to detect that a key has changed. Amazon Web Services Payment Cryptography * calculates the KCV by using standard algorithms, typically by encrypting 8 or 16 bytes or "00" or "01" and * then truncating the result to the first 3 bytes, or 6 hex digits, of the resulting cryptogram. */ public void setKeyCheckValue(String keyCheckValue) { this.keyCheckValue = keyCheckValue; } /** ** The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given key have * the same key or to detect that a key has changed. Amazon Web Services Payment Cryptography calculates the KCV by * using standard algorithms, typically by encrypting 8 or 16 bytes or "00" or "01" and then truncating the result * to the first 3 bytes, or 6 hex digits, of the resulting cryptogram. *
* * @return The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given * key have the same key or to detect that a key has changed. Amazon Web Services Payment Cryptography * calculates the KCV by using standard algorithms, typically by encrypting 8 or 16 bytes or "00" or "01" * and then truncating the result to the first 3 bytes, or 6 hex digits, of the resulting cryptogram. */ public String getKeyCheckValue() { return this.keyCheckValue; } /** ** The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given key have * the same key or to detect that a key has changed. Amazon Web Services Payment Cryptography calculates the KCV by * using standard algorithms, typically by encrypting 8 or 16 bytes or "00" or "01" and then truncating the result * to the first 3 bytes, or 6 hex digits, of the resulting cryptogram. *
* * @param keyCheckValue * The key check value (KCV) of the encryption key. The KCV is used to check if all parties holding a given * key have the same key or to detect that a key has changed. Amazon Web Services Payment Cryptography * calculates the KCV by using standard algorithms, typically by encrypting 8 or 16 bytes or "00" or "01" and * then truncating the result to the first 3 bytes, or 6 hex digits, of the resulting cryptogram. * @return Returns a reference to this object so that method calls can be chained together. */ public TranslatePinDataResult withKeyCheckValue(String keyCheckValue) { setKeyCheckValue(keyCheckValue); return this; } /** ** The ougoing encrypted PIN block data after tranlation. *
* * @param pinBlock * The ougoing encrypted PIN block data after tranlation. */ public void setPinBlock(String pinBlock) { this.pinBlock = pinBlock; } /** ** The ougoing encrypted PIN block data after tranlation. *
* * @return The ougoing encrypted PIN block data after tranlation. */ public String getPinBlock() { return this.pinBlock; } /** ** The ougoing encrypted PIN block data after tranlation. *
* * @param pinBlock * The ougoing encrypted PIN block data after tranlation. * @return Returns a reference to this object so that method calls can be chained together. */ public TranslatePinDataResult withPinBlock(String pinBlock) { setPinBlock(pinBlock); return this; } /** * Returns a string representation of this object. This is useful for testing and debugging. Sensitive data will be * redacted from this string using a placeholder value. * * @return A string representation of this object. * * @see java.lang.Object#toString() */ @Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("{"); if (getKeyArn() != null) sb.append("KeyArn: ").append(getKeyArn()).append(","); if (getKeyCheckValue() != null) sb.append("KeyCheckValue: ").append(getKeyCheckValue()).append(","); if (getPinBlock() != null) sb.append("PinBlock: ").append(getPinBlock()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof TranslatePinDataResult == false) return false; TranslatePinDataResult other = (TranslatePinDataResult) obj; if (other.getKeyArn() == null ^ this.getKeyArn() == null) return false; if (other.getKeyArn() != null && other.getKeyArn().equals(this.getKeyArn()) == false) return false; if (other.getKeyCheckValue() == null ^ this.getKeyCheckValue() == null) return false; if (other.getKeyCheckValue() != null && other.getKeyCheckValue().equals(this.getKeyCheckValue()) == false) return false; if (other.getPinBlock() == null ^ this.getPinBlock() == null) return false; if (other.getPinBlock() != null && other.getPinBlock().equals(this.getPinBlock()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getKeyArn() == null) ? 0 : getKeyArn().hashCode()); hashCode = prime * hashCode + ((getKeyCheckValue() == null) ? 0 : getKeyCheckValue().hashCode()); hashCode = prime * hashCode + ((getPinBlock() == null) ? 0 : getPinBlock().hashCode()); return hashCode; } @Override public TranslatePinDataResult clone() { try { return (TranslatePinDataResult) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } }