Class V1EmptyDirVolumeSource
java.lang.Object
io.micronaut.kubernetes.client.openapi.model.V1EmptyDirVolumeSource
@Generated("io.micronaut.openapi.generator.JavaMicronautClientCodegen")
public class V1EmptyDirVolumeSource
extends Object
Represents an empty directory for a pod. Empty directory volumes support ownership management and SELinux relabeling.
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Field Summary
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Constructor Summary
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Method Summary
Modifier and TypeMethodDescriptionboolean
medium represents what type of storage medium should back this directory.Quantity is a fixed-point representation of a number.int
hashCode()
Set medium in a chainable fashion.void
Set the medium property valuevoid
setSizeLimit
(String sizeLimit) Set the sizeLimit property valueSet sizeLimit in a chainable fashion.toString()
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Field Details
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JSON_PROPERTY_MEDIUM
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JSON_PROPERTY_SIZE_LIMIT
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Constructor Details
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V1EmptyDirVolumeSource
public V1EmptyDirVolumeSource()
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Method Details
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getMedium
medium represents what type of storage medium should back this directory. The default is \"\" which means to use the node's default medium. Must be an empty string (default) or Memory. More info: https://kubernetes.io/docs/concepts/storage/volumes#emptydir- Returns:
- the medium property value
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setMedium
Set the medium property value -
medium
Set medium in a chainable fashion.- Returns:
- The same instance of V1EmptyDirVolumeSource for chaining.
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getSizeLimit
Quantity is a fixed-point representation of a number. It provides convenient marshaling/unmarshaling in JSON and YAML, in addition to String() and AsInt64() accessors. The serialization format is: ``` <quantity> ::= <signedNumber><suffix> (Note that <suffix> may be empty, from the \"\" case in <decimalSI>.) <digit> ::= 0 | 1 | ... | 9 <digits> ::= <digit> | <digit><digits> <number> ::= <digits> | <digits>.<digits> | <digits>. | .<digits> <sign> ::= \"+\" | \"-\" <signedNumber> ::= <number> | <sign><number> <suffix> ::= <binarySI> | <decimalExponent> | <decimalSI> <binarySI> ::= Ki | Mi | Gi | Ti | Pi | Ei (International System of units; See: http://physics.nist.gov/cuu/Units/binary.html) <decimalSI> ::= m | \"\" | k | M | G | T | P | E (Note that 1024 = 1Ki but 1000 = 1k; I didn't choose the capitalization.) <decimalExponent> ::= \"e\" <signedNumber> | \"E\" <signedNumber> ``` No matter which of the three exponent forms is used, no quantity may represent a number greater than 2^63-1 in magnitude, nor may it have more than 3 decimal places. Numbers larger or more precise will be capped or rounded up. (E.g.: 0.1m will rounded up to 1m.) This may be extended in the future if we require larger or smaller quantities. When a Quantity is parsed from a string, it will remember the type of suffix it had, and will use the same type again when it is serialized. Before serializing, Quantity will be put in \"canonical form\". This means that Exponent/suffix will be adjusted up or down (with a corresponding increase or decrease in Mantissa) such that: - No precision is lost - No fractional digits will be emitted - The exponent (or suffix) is as large as possible. The sign will be omitted unless the number is negative. Examples: - 1.5 will be serialized as \"1500m\" - 1.5Gi will be serialized as \"1536Mi\" Note that the quantity will NEVER be internally represented by a floating point number. That is the whole point of this exercise. Non-canonical values will still parse as long as they are well formed, but will be re-emitted in their canonical form. (So always use canonical form, or don't diff.) This format is intended to make it difficult to use these numbers without writing some sort of special handling code in the hopes that that will cause implementors to also use a fixed point implementation.- Returns:
- the sizeLimit property value
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setSizeLimit
Set the sizeLimit property value -
sizeLimit
Set sizeLimit in a chainable fashion.- Returns:
- The same instance of V1EmptyDirVolumeSource for chaining.
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equals
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hashCode
public int hashCode() -
toString
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