com.microsoft.graph.beta.generated.models.CryptographySuite Maven / Gradle / Ivy
package com.microsoft.graph.beta.models;
import com.microsoft.kiota.serialization.AdditionalDataHolder;
import com.microsoft.kiota.serialization.Parsable;
import com.microsoft.kiota.serialization.ParseNode;
import com.microsoft.kiota.serialization.SerializationWriter;
import com.microsoft.kiota.store.BackedModel;
import com.microsoft.kiota.store.BackingStore;
import com.microsoft.kiota.store.BackingStoreFactorySingleton;
import java.util.HashMap;
import java.util.Map;
import java.util.Objects;
/**
* VPN Security Association Parameters
*/
@jakarta.annotation.Generated("com.microsoft.kiota")
public class CryptographySuite implements AdditionalDataHolder, BackedModel, Parsable {
/**
* Stores model information.
*/
@jakarta.annotation.Nonnull
protected BackingStore backingStore;
/**
* Instantiates a new {@link CryptographySuite} and sets the default values.
*/
public CryptographySuite() {
this.backingStore = BackingStoreFactorySingleton.instance.createBackingStore();
this.setAdditionalData(new HashMap<>());
}
/**
* Creates a new instance of the appropriate class based on discriminator value
* @param parseNode The parse node to use to read the discriminator value and create the object
* @return a {@link CryptographySuite}
*/
@jakarta.annotation.Nonnull
public static CryptographySuite createFromDiscriminatorValue(@jakarta.annotation.Nonnull final ParseNode parseNode) {
Objects.requireNonNull(parseNode);
return new CryptographySuite();
}
/**
* Gets the AdditionalData property value. Stores additional data not described in the OpenAPI description found when deserializing. Can be used for serialization as well.
* @return a {@link Map}
*/
@jakarta.annotation.Nonnull
public Map getAdditionalData() {
Map value = this.backingStore.get("additionalData");
if(value == null) {
value = new HashMap<>();
this.setAdditionalData(value);
}
return value;
}
/**
* Gets the authenticationTransformConstants property value. Authentication Transform Constants. Possible values are: md596, sha196, sha256128, aes128Gcm, aes192Gcm, aes256Gcm.
* @return a {@link AuthenticationTransformConstant}
*/
@jakarta.annotation.Nullable
public AuthenticationTransformConstant getAuthenticationTransformConstants() {
return this.backingStore.get("authenticationTransformConstants");
}
/**
* Gets the backingStore property value. Stores model information.
* @return a {@link BackingStore}
*/
@jakarta.annotation.Nonnull
public BackingStore getBackingStore() {
return this.backingStore;
}
/**
* Gets the cipherTransformConstants property value. Cipher Transform Constants. Possible values are: aes256, des, tripleDes, aes128, aes128Gcm, aes256Gcm, aes192, aes192Gcm, chaCha20Poly1305.
* @return a {@link VpnEncryptionAlgorithmType}
*/
@jakarta.annotation.Nullable
public VpnEncryptionAlgorithmType getCipherTransformConstants() {
return this.backingStore.get("cipherTransformConstants");
}
/**
* Gets the dhGroup property value. Diffie Hellman Group. Possible values are: group1, group2, group14, ecp256, ecp384, group24.
* @return a {@link DiffieHellmanGroup}
*/
@jakarta.annotation.Nullable
public DiffieHellmanGroup getDhGroup() {
return this.backingStore.get("dhGroup");
}
/**
* Gets the encryptionMethod property value. Encryption Method. Possible values are: aes256, des, tripleDes, aes128, aes128Gcm, aes256Gcm, aes192, aes192Gcm, chaCha20Poly1305.
* @return a {@link VpnEncryptionAlgorithmType}
*/
@jakarta.annotation.Nullable
public VpnEncryptionAlgorithmType getEncryptionMethod() {
return this.backingStore.get("encryptionMethod");
}
/**
* The deserialization information for the current model
* @return a {@link Map>}
*/
@jakarta.annotation.Nonnull
public Map> getFieldDeserializers() {
final HashMap> deserializerMap = new HashMap>(7);
deserializerMap.put("authenticationTransformConstants", (n) -> { this.setAuthenticationTransformConstants(n.getEnumValue(AuthenticationTransformConstant::forValue)); });
deserializerMap.put("cipherTransformConstants", (n) -> { this.setCipherTransformConstants(n.getEnumValue(VpnEncryptionAlgorithmType::forValue)); });
deserializerMap.put("dhGroup", (n) -> { this.setDhGroup(n.getEnumValue(DiffieHellmanGroup::forValue)); });
deserializerMap.put("encryptionMethod", (n) -> { this.setEncryptionMethod(n.getEnumValue(VpnEncryptionAlgorithmType::forValue)); });
deserializerMap.put("integrityCheckMethod", (n) -> { this.setIntegrityCheckMethod(n.getEnumValue(VpnIntegrityAlgorithmType::forValue)); });
deserializerMap.put("@odata.type", (n) -> { this.setOdataType(n.getStringValue()); });
deserializerMap.put("pfsGroup", (n) -> { this.setPfsGroup(n.getEnumValue(PerfectForwardSecrecyGroup::forValue)); });
return deserializerMap;
}
/**
* Gets the integrityCheckMethod property value. Integrity Check Method. Possible values are: sha2256, sha196, sha1160, sha2384, sha2_512, md5.
* @return a {@link VpnIntegrityAlgorithmType}
*/
@jakarta.annotation.Nullable
public VpnIntegrityAlgorithmType getIntegrityCheckMethod() {
return this.backingStore.get("integrityCheckMethod");
}
/**
* Gets the @odata.type property value. The OdataType property
* @return a {@link String}
*/
@jakarta.annotation.Nullable
public String getOdataType() {
return this.backingStore.get("odataType");
}
/**
* Gets the pfsGroup property value. Perfect Forward Secrecy Group. Possible values are: pfs1, pfs2, pfs2048, ecp256, ecp384, pfsMM, pfs24.
* @return a {@link PerfectForwardSecrecyGroup}
*/
@jakarta.annotation.Nullable
public PerfectForwardSecrecyGroup getPfsGroup() {
return this.backingStore.get("pfsGroup");
}
/**
* Serializes information the current object
* @param writer Serialization writer to use to serialize this model
*/
public void serialize(@jakarta.annotation.Nonnull final SerializationWriter writer) {
Objects.requireNonNull(writer);
writer.writeEnumValue("authenticationTransformConstants", this.getAuthenticationTransformConstants());
writer.writeEnumValue("cipherTransformConstants", this.getCipherTransformConstants());
writer.writeEnumValue("dhGroup", this.getDhGroup());
writer.writeEnumValue("encryptionMethod", this.getEncryptionMethod());
writer.writeEnumValue("integrityCheckMethod", this.getIntegrityCheckMethod());
writer.writeStringValue("@odata.type", this.getOdataType());
writer.writeEnumValue("pfsGroup", this.getPfsGroup());
writer.writeAdditionalData(this.getAdditionalData());
}
/**
* Sets the AdditionalData property value. Stores additional data not described in the OpenAPI description found when deserializing. Can be used for serialization as well.
* @param value Value to set for the AdditionalData property.
*/
public void setAdditionalData(@jakarta.annotation.Nullable final Map value) {
this.backingStore.set("additionalData", value);
}
/**
* Sets the authenticationTransformConstants property value. Authentication Transform Constants. Possible values are: md596, sha196, sha256128, aes128Gcm, aes192Gcm, aes256Gcm.
* @param value Value to set for the authenticationTransformConstants property.
*/
public void setAuthenticationTransformConstants(@jakarta.annotation.Nullable final AuthenticationTransformConstant value) {
this.backingStore.set("authenticationTransformConstants", value);
}
/**
* Sets the backingStore property value. Stores model information.
* @param value Value to set for the backingStore property.
*/
public void setBackingStore(@jakarta.annotation.Nonnull final BackingStore value) {
Objects.requireNonNull(value);
this.backingStore = value;
}
/**
* Sets the cipherTransformConstants property value. Cipher Transform Constants. Possible values are: aes256, des, tripleDes, aes128, aes128Gcm, aes256Gcm, aes192, aes192Gcm, chaCha20Poly1305.
* @param value Value to set for the cipherTransformConstants property.
*/
public void setCipherTransformConstants(@jakarta.annotation.Nullable final VpnEncryptionAlgorithmType value) {
this.backingStore.set("cipherTransformConstants", value);
}
/**
* Sets the dhGroup property value. Diffie Hellman Group. Possible values are: group1, group2, group14, ecp256, ecp384, group24.
* @param value Value to set for the dhGroup property.
*/
public void setDhGroup(@jakarta.annotation.Nullable final DiffieHellmanGroup value) {
this.backingStore.set("dhGroup", value);
}
/**
* Sets the encryptionMethod property value. Encryption Method. Possible values are: aes256, des, tripleDes, aes128, aes128Gcm, aes256Gcm, aes192, aes192Gcm, chaCha20Poly1305.
* @param value Value to set for the encryptionMethod property.
*/
public void setEncryptionMethod(@jakarta.annotation.Nullable final VpnEncryptionAlgorithmType value) {
this.backingStore.set("encryptionMethod", value);
}
/**
* Sets the integrityCheckMethod property value. Integrity Check Method. Possible values are: sha2256, sha196, sha1160, sha2384, sha2_512, md5.
* @param value Value to set for the integrityCheckMethod property.
*/
public void setIntegrityCheckMethod(@jakarta.annotation.Nullable final VpnIntegrityAlgorithmType value) {
this.backingStore.set("integrityCheckMethod", value);
}
/**
* Sets the @odata.type property value. The OdataType property
* @param value Value to set for the @odata.type property.
*/
public void setOdataType(@jakarta.annotation.Nullable final String value) {
this.backingStore.set("odataType", value);
}
/**
* Sets the pfsGroup property value. Perfect Forward Secrecy Group. Possible values are: pfs1, pfs2, pfs2048, ecp256, ecp384, pfsMM, pfs24.
* @param value Value to set for the pfsGroup property.
*/
public void setPfsGroup(@jakarta.annotation.Nullable final PerfectForwardSecrecyGroup value) {
this.backingStore.set("pfsGroup", value);
}
}
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