Reference documentation and code samples for the Cloud Data Loss Prevention (DLP) V2 API class Google::Cloud::Dlp::V2::CryptoReplaceFfxFpeConfig.
Replaces an identifier with a surrogate using Format Preserving Encryption
(FPE) with the FFX mode of operation; however when used in the
ReidentifyContent
API method, it serves the opposite function by reversing
the surrogate back into the original identifier. The identifier must be
encoded as ASCII. For a given crypto key and context, the same identifier
will be replaced with the same surrogate. Identifiers must be at least two
characters long. In the case that the identifier is the empty string, it will
be skipped. See
https://cloud.google.com/sensitive-data-protection/docs/pseudonymization to
learn more.
Note: We recommend using CryptoDeterministicConfig for all use cases which do not require preserving the input alphabet space and size, plus warrant referential integrity.
Inherits
- Object
Extended By
- Google::Protobuf::MessageExts::ClassMethods
Includes
- Google::Protobuf::MessageExts
Methods
#common_alphabet
def common_alphabet() -> ::Google::Cloud::Dlp::V2::CryptoReplaceFfxFpeConfig::FfxCommonNativeAlphabet
- (::Google::Cloud::Dlp::V2::CryptoReplaceFfxFpeConfig::FfxCommonNativeAlphabet) — Common alphabets.
#common_alphabet=
def common_alphabet=(value) -> ::Google::Cloud::Dlp::V2::CryptoReplaceFfxFpeConfig::FfxCommonNativeAlphabet
- value (::Google::Cloud::Dlp::V2::CryptoReplaceFfxFpeConfig::FfxCommonNativeAlphabet) — Common alphabets.
- (::Google::Cloud::Dlp::V2::CryptoReplaceFfxFpeConfig::FfxCommonNativeAlphabet) — Common alphabets.
#context
def context() -> ::Google::Cloud::Dlp::V2::FieldId
-
(::Google::Cloud::Dlp::V2::FieldId) —
The 'tweak', a context may be used for higher security since the same identifier in two different contexts won't be given the same surrogate. If the context is not set, a default tweak will be used.
If the context is set but:
- there is no record present when transforming a given value or
- the field is not present when transforming a given value,
a default tweak will be used.
Note that case (1) is expected when an
InfoTypeTransformation
is applied to both structured and unstructuredContentItem
s. Currently, the referenced field may be of value type integer or string.The tweak is constructed as a sequence of bytes in big endian byte order such that:
- a 64 bit integer is encoded followed by a single byte of value 1
- a string is encoded in UTF-8 format followed by a single byte of value 2
#context=
def context=(value) -> ::Google::Cloud::Dlp::V2::FieldId
-
value (::Google::Cloud::Dlp::V2::FieldId) —
The 'tweak', a context may be used for higher security since the same identifier in two different contexts won't be given the same surrogate. If the context is not set, a default tweak will be used.
If the context is set but:
- there is no record present when transforming a given value or
- the field is not present when transforming a given value,
a default tweak will be used.
Note that case (1) is expected when an
InfoTypeTransformation
is applied to both structured and unstructuredContentItem
s. Currently, the referenced field may be of value type integer or string.The tweak is constructed as a sequence of bytes in big endian byte order such that:
- a 64 bit integer is encoded followed by a single byte of value 1
- a string is encoded in UTF-8 format followed by a single byte of value 2
-
(::Google::Cloud::Dlp::V2::FieldId) —
The 'tweak', a context may be used for higher security since the same identifier in two different contexts won't be given the same surrogate. If the context is not set, a default tweak will be used.
If the context is set but:
- there is no record present when transforming a given value or
- the field is not present when transforming a given value,
a default tweak will be used.
Note that case (1) is expected when an
InfoTypeTransformation
is applied to both structured and unstructuredContentItem
s. Currently, the referenced field may be of value type integer or string.The tweak is constructed as a sequence of bytes in big endian byte order such that:
- a 64 bit integer is encoded followed by a single byte of value 1
- a string is encoded in UTF-8 format followed by a single byte of value 2
#crypto_key
def crypto_key() -> ::Google::Cloud::Dlp::V2::CryptoKey
- (::Google::Cloud::Dlp::V2::CryptoKey) — Required. The key used by the encryption algorithm.
#crypto_key=
def crypto_key=(value) -> ::Google::Cloud::Dlp::V2::CryptoKey
- value (::Google::Cloud::Dlp::V2::CryptoKey) — Required. The key used by the encryption algorithm.
- (::Google::Cloud::Dlp::V2::CryptoKey) — Required. The key used by the encryption algorithm.
#custom_alphabet
def custom_alphabet() -> ::String
-
(::String) — This is supported by mapping these to the alphanumeric characters
that the FFX mode natively supports. This happens before/after
encryption/decryption.
Each character listed must appear only once.
Number of characters must be in the range [2, 95].
This must be encoded as ASCII.
The order of characters does not matter.
The full list of allowed characters is:
0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz ~`!@#$%^&*()_-+={[}]|:;"'<,>.?/
#custom_alphabet=
def custom_alphabet=(value) -> ::String
-
value (::String) — This is supported by mapping these to the alphanumeric characters
that the FFX mode natively supports. This happens before/after
encryption/decryption.
Each character listed must appear only once.
Number of characters must be in the range [2, 95].
This must be encoded as ASCII.
The order of characters does not matter.
The full list of allowed characters is:
0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz ~`!@#$%^&*()_-+={[}]|:;"'<,>.?/
-
(::String) — This is supported by mapping these to the alphanumeric characters
that the FFX mode natively supports. This happens before/after
encryption/decryption.
Each character listed must appear only once.
Number of characters must be in the range [2, 95].
This must be encoded as ASCII.
The order of characters does not matter.
The full list of allowed characters is:
0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz ~`!@#$%^&*()_-+={[}]|:;"'<,>.?/
#radix
def radix() -> ::Integer
- (::Integer) — The native way to select the alphabet. Must be in the range [2, 95].
#radix=
def radix=(value) -> ::Integer
- value (::Integer) — The native way to select the alphabet. Must be in the range [2, 95].
- (::Integer) — The native way to select the alphabet. Must be in the range [2, 95].
#surrogate_info_type
def surrogate_info_type() -> ::Google::Cloud::Dlp::V2::InfoType
-
(::Google::Cloud::Dlp::V2::InfoType) — The custom infoType to annotate the surrogate with.
This annotation will be applied to the surrogate by prefixing it with
the name of the custom infoType followed by the number of
characters comprising the surrogate. The following scheme defines the
format: info_type_name(surrogate_character_count):surrogate
For example, if the name of custom infoType is 'MY_TOKEN_INFO_TYPE' and the surrogate is 'abc', the full replacement value will be: 'MY_TOKEN_INFO_TYPE(3):abc'
This annotation identifies the surrogate when inspecting content using the custom infoType
SurrogateType
. This facilitates reversal of the surrogate when it occurs in free text.In order for inspection to work properly, the name of this infoType must not occur naturally anywhere in your data; otherwise, inspection may find a surrogate that does not correspond to an actual identifier. Therefore, choose your custom infoType name carefully after considering what your data looks like. One way to select a name that has a high chance of yielding reliable detection is to include one or more unicode characters that are highly improbable to exist in your data. For example, assuming your data is entered from a regular ASCII keyboard, the symbol with the hex code point 29DD might be used like so: ⧝MY_TOKEN_TYPE
#surrogate_info_type=
def surrogate_info_type=(value) -> ::Google::Cloud::Dlp::V2::InfoType
-
value (::Google::Cloud::Dlp::V2::InfoType) — The custom infoType to annotate the surrogate with.
This annotation will be applied to the surrogate by prefixing it with
the name of the custom infoType followed by the number of
characters comprising the surrogate. The following scheme defines the
format: info_type_name(surrogate_character_count):surrogate
For example, if the name of custom infoType is 'MY_TOKEN_INFO_TYPE' and the surrogate is 'abc', the full replacement value will be: 'MY_TOKEN_INFO_TYPE(3):abc'
This annotation identifies the surrogate when inspecting content using the custom infoType
SurrogateType
. This facilitates reversal of the surrogate when it occurs in free text.In order for inspection to work properly, the name of this infoType must not occur naturally anywhere in your data; otherwise, inspection may find a surrogate that does not correspond to an actual identifier. Therefore, choose your custom infoType name carefully after considering what your data looks like. One way to select a name that has a high chance of yielding reliable detection is to include one or more unicode characters that are highly improbable to exist in your data. For example, assuming your data is entered from a regular ASCII keyboard, the symbol with the hex code point 29DD might be used like so: ⧝MY_TOKEN_TYPE
-
(::Google::Cloud::Dlp::V2::InfoType) — The custom infoType to annotate the surrogate with.
This annotation will be applied to the surrogate by prefixing it with
the name of the custom infoType followed by the number of
characters comprising the surrogate. The following scheme defines the
format: info_type_name(surrogate_character_count):surrogate
For example, if the name of custom infoType is 'MY_TOKEN_INFO_TYPE' and the surrogate is 'abc', the full replacement value will be: 'MY_TOKEN_INFO_TYPE(3):abc'
This annotation identifies the surrogate when inspecting content using the custom infoType
SurrogateType
. This facilitates reversal of the surrogate when it occurs in free text.In order for inspection to work properly, the name of this infoType must not occur naturally anywhere in your data; otherwise, inspection may find a surrogate that does not correspond to an actual identifier. Therefore, choose your custom infoType name carefully after considering what your data looks like. One way to select a name that has a high chance of yielding reliable detection is to include one or more unicode characters that are highly improbable to exist in your data. For example, assuming your data is entered from a regular ASCII keyboard, the symbol with the hex code point 29DD might be used like so: ⧝MY_TOKEN_TYPE