Cloud Key Management Service (KMS) V1 API - Class Google::Cloud::Kms::V1::RawEncryptRequest (v0.21.0)

Reference documentation and code samples for the Cloud Key Management Service (KMS) V1 API class Google::Cloud::Kms::V1::RawEncryptRequest.

Request message for KeyManagementService.RawEncrypt.

Inherits

  • Object

Extended By

  • Google::Protobuf::MessageExts::ClassMethods

Includes

  • Google::Protobuf::MessageExts

Methods

#additional_authenticated_data

def additional_authenticated_data() -> ::String
Returns
  • (::String) — Optional. Optional data that, if specified, must also be provided during decryption through RawDecryptRequest.additional_authenticated_data.

    This field may only be used in conjunction with an algorithm that accepts additional authenticated data (for example, AES-GCM).

    The maximum size depends on the key version's protection_level. For SOFTWARE keys, the plaintext must be no larger than 64KiB. For HSM keys, the combined length of the plaintext and additional_authenticated_data fields must be no larger than 8KiB.

#additional_authenticated_data=

def additional_authenticated_data=(value) -> ::String
Parameter
  • value (::String) — Optional. Optional data that, if specified, must also be provided during decryption through RawDecryptRequest.additional_authenticated_data.

    This field may only be used in conjunction with an algorithm that accepts additional authenticated data (for example, AES-GCM).

    The maximum size depends on the key version's protection_level. For SOFTWARE keys, the plaintext must be no larger than 64KiB. For HSM keys, the combined length of the plaintext and additional_authenticated_data fields must be no larger than 8KiB.

Returns
  • (::String) — Optional. Optional data that, if specified, must also be provided during decryption through RawDecryptRequest.additional_authenticated_data.

    This field may only be used in conjunction with an algorithm that accepts additional authenticated data (for example, AES-GCM).

    The maximum size depends on the key version's protection_level. For SOFTWARE keys, the plaintext must be no larger than 64KiB. For HSM keys, the combined length of the plaintext and additional_authenticated_data fields must be no larger than 8KiB.

#additional_authenticated_data_crc32c

def additional_authenticated_data_crc32c() -> ::Google::Protobuf::Int64Value
Returns
  • (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.additional_authenticated_data. If specified, KeyManagementService will verify the integrity of the received additional_authenticated_data using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(additional_authenticated_data) is equal to additional_authenticated_data_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.

#additional_authenticated_data_crc32c=

def additional_authenticated_data_crc32c=(value) -> ::Google::Protobuf::Int64Value
Parameter
  • value (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.additional_authenticated_data. If specified, KeyManagementService will verify the integrity of the received additional_authenticated_data using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(additional_authenticated_data) is equal to additional_authenticated_data_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.
Returns
  • (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.additional_authenticated_data. If specified, KeyManagementService will verify the integrity of the received additional_authenticated_data using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(additional_authenticated_data) is equal to additional_authenticated_data_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.

#initialization_vector

def initialization_vector() -> ::String
Returns
  • (::String) — Optional. A customer-supplied initialization vector that will be used for encryption. If it is not provided for AES-CBC and AES-CTR, one will be generated. It will be returned in RawEncryptResponse.initialization_vector.

#initialization_vector=

def initialization_vector=(value) -> ::String
Parameter
  • value (::String) — Optional. A customer-supplied initialization vector that will be used for encryption. If it is not provided for AES-CBC and AES-CTR, one will be generated. It will be returned in RawEncryptResponse.initialization_vector.
Returns
  • (::String) — Optional. A customer-supplied initialization vector that will be used for encryption. If it is not provided for AES-CBC and AES-CTR, one will be generated. It will be returned in RawEncryptResponse.initialization_vector.

#initialization_vector_crc32c

def initialization_vector_crc32c() -> ::Google::Protobuf::Int64Value
Returns
  • (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.initialization_vector. If specified, KeyManagementService will verify the integrity of the received initialization_vector using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(initialization_vector) is equal to initialization_vector_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.

#initialization_vector_crc32c=

def initialization_vector_crc32c=(value) -> ::Google::Protobuf::Int64Value
Parameter
  • value (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.initialization_vector. If specified, KeyManagementService will verify the integrity of the received initialization_vector using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(initialization_vector) is equal to initialization_vector_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.
Returns
  • (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.initialization_vector. If specified, KeyManagementService will verify the integrity of the received initialization_vector using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(initialization_vector) is equal to initialization_vector_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.

#name

def name() -> ::String
Returns
  • (::String) — Required. The resource name of the CryptoKeyVersion to use for encryption.

#name=

def name=(value) -> ::String
Parameter
  • value (::String) — Required. The resource name of the CryptoKeyVersion to use for encryption.
Returns
  • (::String) — Required. The resource name of the CryptoKeyVersion to use for encryption.

#plaintext

def plaintext() -> ::String
Returns
  • (::String) — Required. The data to encrypt. Must be no larger than 64KiB.

    The maximum size depends on the key version's protection_level. For SOFTWARE keys, the plaintext must be no larger than 64KiB. For HSM keys, the combined length of the plaintext and additional_authenticated_data fields must be no larger than 8KiB.

#plaintext=

def plaintext=(value) -> ::String
Parameter
  • value (::String) — Required. The data to encrypt. Must be no larger than 64KiB.

    The maximum size depends on the key version's protection_level. For SOFTWARE keys, the plaintext must be no larger than 64KiB. For HSM keys, the combined length of the plaintext and additional_authenticated_data fields must be no larger than 8KiB.

Returns
  • (::String) — Required. The data to encrypt. Must be no larger than 64KiB.

    The maximum size depends on the key version's protection_level. For SOFTWARE keys, the plaintext must be no larger than 64KiB. For HSM keys, the combined length of the plaintext and additional_authenticated_data fields must be no larger than 8KiB.

#plaintext_crc32c

def plaintext_crc32c() -> ::Google::Protobuf::Int64Value
Returns
  • (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.plaintext. If specified, KeyManagementService will verify the integrity of the received plaintext using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(plaintext) is equal to plaintext_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.

#plaintext_crc32c=

def plaintext_crc32c=(value) -> ::Google::Protobuf::Int64Value
Parameter
  • value (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.plaintext. If specified, KeyManagementService will verify the integrity of the received plaintext using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(plaintext) is equal to plaintext_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.
Returns
  • (::Google::Protobuf::Int64Value) — Optional. An optional CRC32C checksum of the RawEncryptRequest.plaintext. If specified, KeyManagementService will verify the integrity of the received plaintext using this checksum. KeyManagementService will report an error if the checksum verification fails. If you receive a checksum error, your client should verify that CRC32C(plaintext) is equal to plaintext_crc32c, and if so, perform a limited number of retries. A persistent mismatch may indicate an issue in your computation of the CRC32C checksum. Note: This field is defined as int64 for reasons of compatibility across different languages. However, it is a non-negative integer, which will never exceed 2^32-1, and can be safely downconverted to uint32 in languages that support this type.