/* * Copyright 2018-2023 Amazon.com, Inc. or its affiliates. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance with * the License. A copy of the License is located at * * http://aws.amazon.com/apache2.0 * * or in the "license" file accompanying this file. This file is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR * CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions * and limitations under the License. */ package com.amazonaws.services.imagebuilder.model; import java.io.Serializable; import javax.annotation.Generated; import com.amazonaws.protocol.StructuredPojo; import com.amazonaws.protocol.ProtocolMarshaller; /** *

* A container recipe. *

* * @see AWS API * Documentation */ @Generated("com.amazonaws:aws-java-sdk-code-generator") public class ContainerRecipe implements Serializable, Cloneable, StructuredPojo { /** *

* The Amazon Resource Name (ARN) of the container recipe. *

* *

* Semantic versioning is included in each object's Amazon Resource Name (ARN), at the level that applies to that * object as follows: *

*
    *
  1. *

    * Versionless ARNs and Name ARNs do not include specific values in any of the nodes. The nodes are either left off * entirely, or they are specified as wildcards, for example: x.x.x. *

    *
    2. *
  2. *

    * Version ARNs have only the first three nodes: <major>.<minor>.<patch> *

    *
    3. *
  3. *

    * Build version ARNs have all four nodes, and point to a specific build for a specific version of an object. *

    *
    4. *
* */ private String arn; /** *

* Specifies the type of container, such as Docker. *

*/ private String containerType; /** *

* The name of the container recipe. *

*/ private String name; /** *

* The description of the container recipe. *

*/ private String description; /** *

* The system platform for the container, such as Windows or Linux. *

*/ private String platform; /** *

* The owner of the container recipe. *

*/ private String owner; /** *

* The semantic version of the container recipe. *

* *

* The semantic version has four nodes: <major>.<minor>.<patch>/<build>. You can assign * values for the first three, and can filter on all of them. *

*

* Assignment: For the first three nodes you can assign any positive integer value, including zero, with an * upper limit of 2^30-1, or 1073741823 for each node. Image Builder automatically assigns the build number to the * fourth node. *

*

* Patterns: You can use any numeric pattern that adheres to the assignment requirements for the nodes that * you can assign. For example, you might choose a software version pattern, such as 1.0.0, or a date, such as * 2021.01.01. *

*

* Filtering: With semantic versioning, you have the flexibility to use wildcards (x) to specify the most * recent versions or nodes when selecting the base image or components for your recipe. When you use a wildcard in * any node, all nodes to the right of the first wildcard must also be wildcards. *

* */ private String version; /** *

* Build and test components that are included in the container recipe. Recipes require a minimum of one build * component, and can have a maximum of 20 build and test components in any combination. *

*/ private java.util.List components; /** *

* A group of options that can be used to configure an instance for building and testing container images. *

*/ private InstanceConfiguration instanceConfiguration; /** *

* Dockerfiles are text documents that are used to build Docker containers, and ensure that they contain all of the * elements required by the application running inside. The template data consists of contextual variables where * Image Builder places build information or scripts, based on your container image recipe. *

*/ private String dockerfileTemplateData; /** *

* Identifies which KMS key is used to encrypt the container image for distribution to the target Region. *

*/ private String kmsKeyId; /** *

* A flag that indicates if the target container is encrypted. *

*/ private Boolean encrypted; /** *

* The base image for the container recipe. *

*/ private String parentImage; /** *

* The date when this container recipe was created. *

*/ private String dateCreated; /** *

* Tags that are attached to the container recipe. *

*/ private java.util.Map tags; /** *

* The working directory for use during build and test workflows. *

*/ private String workingDirectory; /** *

* The destination repository for the container image. *

*/ private TargetContainerRepository targetRepository; /** *

* The Amazon Resource Name (ARN) of the container recipe. *

* *

* Semantic versioning is included in each object's Amazon Resource Name (ARN), at the level that applies to that * object as follows: *

*
    *
  1. *

    * Versionless ARNs and Name ARNs do not include specific values in any of the nodes. The nodes are either left off * entirely, or they are specified as wildcards, for example: x.x.x. *

    *
    2. *
  2. *

    * Version ARNs have only the first three nodes: <major>.<minor>.<patch> *

    *
    3. *
  3. *

    * Build version ARNs have all four nodes, and point to a specific build for a specific version of an object. *

    *
    4. *
* * * @param arn * The Amazon Resource Name (ARN) of the container recipe.

*

* Semantic versioning is included in each object's Amazon Resource Name (ARN), at the level that applies to * that object as follows: *

*
    *
  1. *

    * Versionless ARNs and Name ARNs do not include specific values in any of the nodes. The nodes are either * left off entirely, or they are specified as wildcards, for example: x.x.x. *

    *
    2. *
  2. *

    * Version ARNs have only the first three nodes: <major>.<minor>.<patch> *

    *
    3. *
  3. *

    * Build version ARNs have all four nodes, and point to a specific build for a specific version of an object. *

    *
    4. *
*/ public void setArn(String arn) { this.arn = arn; } /** *

* The Amazon Resource Name (ARN) of the container recipe. *

* *

* Semantic versioning is included in each object's Amazon Resource Name (ARN), at the level that applies to that * object as follows: *

*
    *
  1. *

    * Versionless ARNs and Name ARNs do not include specific values in any of the nodes. The nodes are either left off * entirely, or they are specified as wildcards, for example: x.x.x. *

    *
    2. *
  2. *

    * Version ARNs have only the first three nodes: <major>.<minor>.<patch> *

    *
    3. *
  3. *

    * Build version ARNs have all four nodes, and point to a specific build for a specific version of an object. *

    *
    4. *
* * * @return The Amazon Resource Name (ARN) of the container recipe.

*

* Semantic versioning is included in each object's Amazon Resource Name (ARN), at the level that applies to * that object as follows: *

*
    *
  1. *

    * Versionless ARNs and Name ARNs do not include specific values in any of the nodes. The nodes are either * left off entirely, or they are specified as wildcards, for example: x.x.x. *

    *
    2. *
  2. *

    * Version ARNs have only the first three nodes: <major>.<minor>.<patch> *

    *
    3. *
  3. *

    * Build version ARNs have all four nodes, and point to a specific build for a specific version of an * object. *

    *
    4. *
*/ public String getArn() { return this.arn; } /** *

* The Amazon Resource Name (ARN) of the container recipe. *

* *

* Semantic versioning is included in each object's Amazon Resource Name (ARN), at the level that applies to that * object as follows: *

*
    *
  1. *

    * Versionless ARNs and Name ARNs do not include specific values in any of the nodes. The nodes are either left off * entirely, or they are specified as wildcards, for example: x.x.x. *

    *
    2. *
  2. *

    * Version ARNs have only the first three nodes: <major>.<minor>.<patch> *

    *
    3. *
  3. *

    * Build version ARNs have all four nodes, and point to a specific build for a specific version of an object. *

    *
    4. *
* * * @param arn * The Amazon Resource Name (ARN) of the container recipe.

*

* Semantic versioning is included in each object's Amazon Resource Name (ARN), at the level that applies to * that object as follows: *

*
    *
  1. *

    * Versionless ARNs and Name ARNs do not include specific values in any of the nodes. The nodes are either * left off entirely, or they are specified as wildcards, for example: x.x.x. *

    *
    2. *
  2. *

    * Version ARNs have only the first three nodes: <major>.<minor>.<patch> *

    *
    3. *
  3. *

    * Build version ARNs have all four nodes, and point to a specific build for a specific version of an object. *

    *
    4. *
* @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withArn(String arn) { setArn(arn); return this; } /** *

* Specifies the type of container, such as Docker. *

* * @param containerType * Specifies the type of container, such as Docker. * @see ContainerType */ public void setContainerType(String containerType) { this.containerType = containerType; } /** *

* Specifies the type of container, such as Docker. *

* * @return Specifies the type of container, such as Docker. * @see ContainerType */ public String getContainerType() { return this.containerType; } /** *

* Specifies the type of container, such as Docker. *

* * @param containerType * Specifies the type of container, such as Docker. * @return Returns a reference to this object so that method calls can be chained together. * @see ContainerType */ public ContainerRecipe withContainerType(String containerType) { setContainerType(containerType); return this; } /** *

* Specifies the type of container, such as Docker. *

* * @param containerType * Specifies the type of container, such as Docker. * @return Returns a reference to this object so that method calls can be chained together. * @see ContainerType */ public ContainerRecipe withContainerType(ContainerType containerType) { this.containerType = containerType.toString(); return this; } /** *

* The name of the container recipe. *

* * @param name * The name of the container recipe. */ public void setName(String name) { this.name = name; } /** *

* The name of the container recipe. *

* * @return The name of the container recipe. */ public String getName() { return this.name; } /** *

* The name of the container recipe. *

* * @param name * The name of the container recipe. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withName(String name) { setName(name); return this; } /** *

* The description of the container recipe. *

* * @param description * The description of the container recipe. */ public void setDescription(String description) { this.description = description; } /** *

* The description of the container recipe. *

* * @return The description of the container recipe. */ public String getDescription() { return this.description; } /** *

* The description of the container recipe. *

* * @param description * The description of the container recipe. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withDescription(String description) { setDescription(description); return this; } /** *

* The system platform for the container, such as Windows or Linux. *

* * @param platform * The system platform for the container, such as Windows or Linux. * @see Platform */ public void setPlatform(String platform) { this.platform = platform; } /** *

* The system platform for the container, such as Windows or Linux. *

* * @return The system platform for the container, such as Windows or Linux. * @see Platform */ public String getPlatform() { return this.platform; } /** *

* The system platform for the container, such as Windows or Linux. *

* * @param platform * The system platform for the container, such as Windows or Linux. * @return Returns a reference to this object so that method calls can be chained together. * @see Platform */ public ContainerRecipe withPlatform(String platform) { setPlatform(platform); return this; } /** *

* The system platform for the container, such as Windows or Linux. *

* * @param platform * The system platform for the container, such as Windows or Linux. * @return Returns a reference to this object so that method calls can be chained together. * @see Platform */ public ContainerRecipe withPlatform(Platform platform) { this.platform = platform.toString(); return this; } /** *

* The owner of the container recipe. *

* * @param owner * The owner of the container recipe. */ public void setOwner(String owner) { this.owner = owner; } /** *

* The owner of the container recipe. *

* * @return The owner of the container recipe. */ public String getOwner() { return this.owner; } /** *

* The owner of the container recipe. *

* * @param owner * The owner of the container recipe. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withOwner(String owner) { setOwner(owner); return this; } /** *

* The semantic version of the container recipe. *

* *

* The semantic version has four nodes: <major>.<minor>.<patch>/<build>. You can assign * values for the first three, and can filter on all of them. *

*

* Assignment: For the first three nodes you can assign any positive integer value, including zero, with an * upper limit of 2^30-1, or 1073741823 for each node. Image Builder automatically assigns the build number to the * fourth node. *

*

* Patterns: You can use any numeric pattern that adheres to the assignment requirements for the nodes that * you can assign. For example, you might choose a software version pattern, such as 1.0.0, or a date, such as * 2021.01.01. *

*

* Filtering: With semantic versioning, you have the flexibility to use wildcards (x) to specify the most * recent versions or nodes when selecting the base image or components for your recipe. When you use a wildcard in * any node, all nodes to the right of the first wildcard must also be wildcards. *

* * * @param version * The semantic version of the container recipe.

*

* The semantic version has four nodes: <major>.<minor>.<patch>/<build>. You can * assign values for the first three, and can filter on all of them. *

*

* Assignment: For the first three nodes you can assign any positive integer value, including zero, * with an upper limit of 2^30-1, or 1073741823 for each node. Image Builder automatically assigns the build * number to the fourth node. *

*

* Patterns: You can use any numeric pattern that adheres to the assignment requirements for the nodes * that you can assign. For example, you might choose a software version pattern, such as 1.0.0, or a date, * such as 2021.01.01. *

*

* Filtering: With semantic versioning, you have the flexibility to use wildcards (x) to specify the * most recent versions or nodes when selecting the base image or components for your recipe. When you use a * wildcard in any node, all nodes to the right of the first wildcard must also be wildcards. *

*/ public void setVersion(String version) { this.version = version; } /** *

* The semantic version of the container recipe. *

* *

* The semantic version has four nodes: <major>.<minor>.<patch>/<build>. You can assign * values for the first three, and can filter on all of them. *

*

* Assignment: For the first three nodes you can assign any positive integer value, including zero, with an * upper limit of 2^30-1, or 1073741823 for each node. Image Builder automatically assigns the build number to the * fourth node. *

*

* Patterns: You can use any numeric pattern that adheres to the assignment requirements for the nodes that * you can assign. For example, you might choose a software version pattern, such as 1.0.0, or a date, such as * 2021.01.01. *

*

* Filtering: With semantic versioning, you have the flexibility to use wildcards (x) to specify the most * recent versions or nodes when selecting the base image or components for your recipe. When you use a wildcard in * any node, all nodes to the right of the first wildcard must also be wildcards. *

* * * @return The semantic version of the container recipe.

*

* The semantic version has four nodes: <major>.<minor>.<patch>/<build>. You can * assign values for the first three, and can filter on all of them. *

*

* Assignment: For the first three nodes you can assign any positive integer value, including zero, * with an upper limit of 2^30-1, or 1073741823 for each node. Image Builder automatically assigns the build * number to the fourth node. *

*

* Patterns: You can use any numeric pattern that adheres to the assignment requirements for the * nodes that you can assign. For example, you might choose a software version pattern, such as 1.0.0, or a * date, such as 2021.01.01. *

*

* Filtering: With semantic versioning, you have the flexibility to use wildcards (x) to specify the * most recent versions or nodes when selecting the base image or components for your recipe. When you use a * wildcard in any node, all nodes to the right of the first wildcard must also be wildcards. *

*/ public String getVersion() { return this.version; } /** *

* The semantic version of the container recipe. *

* *

* The semantic version has four nodes: <major>.<minor>.<patch>/<build>. You can assign * values for the first three, and can filter on all of them. *

*

* Assignment: For the first three nodes you can assign any positive integer value, including zero, with an * upper limit of 2^30-1, or 1073741823 for each node. Image Builder automatically assigns the build number to the * fourth node. *

*

* Patterns: You can use any numeric pattern that adheres to the assignment requirements for the nodes that * you can assign. For example, you might choose a software version pattern, such as 1.0.0, or a date, such as * 2021.01.01. *

*

* Filtering: With semantic versioning, you have the flexibility to use wildcards (x) to specify the most * recent versions or nodes when selecting the base image or components for your recipe. When you use a wildcard in * any node, all nodes to the right of the first wildcard must also be wildcards. *

* * * @param version * The semantic version of the container recipe.

*

* The semantic version has four nodes: <major>.<minor>.<patch>/<build>. You can * assign values for the first three, and can filter on all of them. *

*

* Assignment: For the first three nodes you can assign any positive integer value, including zero, * with an upper limit of 2^30-1, or 1073741823 for each node. Image Builder automatically assigns the build * number to the fourth node. *

*

* Patterns: You can use any numeric pattern that adheres to the assignment requirements for the nodes * that you can assign. For example, you might choose a software version pattern, such as 1.0.0, or a date, * such as 2021.01.01. *

*

* Filtering: With semantic versioning, you have the flexibility to use wildcards (x) to specify the * most recent versions or nodes when selecting the base image or components for your recipe. When you use a * wildcard in any node, all nodes to the right of the first wildcard must also be wildcards. *

* @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withVersion(String version) { setVersion(version); return this; } /** *

* Build and test components that are included in the container recipe. Recipes require a minimum of one build * component, and can have a maximum of 20 build and test components in any combination. *

* * @return Build and test components that are included in the container recipe. Recipes require a minimum of one * build component, and can have a maximum of 20 build and test components in any combination. */ public java.util.List getComponents() { return components; } /** *

* Build and test components that are included in the container recipe. Recipes require a minimum of one build * component, and can have a maximum of 20 build and test components in any combination. *

* * @param components * Build and test components that are included in the container recipe. Recipes require a minimum of one * build component, and can have a maximum of 20 build and test components in any combination. */ public void setComponents(java.util.Collection components) { if (components == null) { this.components = null; return; } this.components = new java.util.ArrayList(components); } /** *

* Build and test components that are included in the container recipe. Recipes require a minimum of one build * component, and can have a maximum of 20 build and test components in any combination. *

*

* NOTE: This method appends the values to the existing list (if any). Use * {@link #setComponents(java.util.Collection)} or {@link #withComponents(java.util.Collection)} if you want to * override the existing values. *

* * @param components * Build and test components that are included in the container recipe. Recipes require a minimum of one * build component, and can have a maximum of 20 build and test components in any combination. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withComponents(ComponentConfiguration... components) { if (this.components == null) { setComponents(new java.util.ArrayList(components.length)); } for (ComponentConfiguration ele : components) { this.components.add(ele); } return this; } /** *

* Build and test components that are included in the container recipe. Recipes require a minimum of one build * component, and can have a maximum of 20 build and test components in any combination. *

* * @param components * Build and test components that are included in the container recipe. Recipes require a minimum of one * build component, and can have a maximum of 20 build and test components in any combination. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withComponents(java.util.Collection components) { setComponents(components); return this; } /** *

* A group of options that can be used to configure an instance for building and testing container images. *

* * @param instanceConfiguration * A group of options that can be used to configure an instance for building and testing container images. */ public void setInstanceConfiguration(InstanceConfiguration instanceConfiguration) { this.instanceConfiguration = instanceConfiguration; } /** *

* A group of options that can be used to configure an instance for building and testing container images. *

* * @return A group of options that can be used to configure an instance for building and testing container images. */ public InstanceConfiguration getInstanceConfiguration() { return this.instanceConfiguration; } /** *

* A group of options that can be used to configure an instance for building and testing container images. *

* * @param instanceConfiguration * A group of options that can be used to configure an instance for building and testing container images. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withInstanceConfiguration(InstanceConfiguration instanceConfiguration) { setInstanceConfiguration(instanceConfiguration); return this; } /** *

* Dockerfiles are text documents that are used to build Docker containers, and ensure that they contain all of the * elements required by the application running inside. The template data consists of contextual variables where * Image Builder places build information or scripts, based on your container image recipe. *

* * @param dockerfileTemplateData * Dockerfiles are text documents that are used to build Docker containers, and ensure that they contain all * of the elements required by the application running inside. The template data consists of contextual * variables where Image Builder places build information or scripts, based on your container image recipe. */ public void setDockerfileTemplateData(String dockerfileTemplateData) { this.dockerfileTemplateData = dockerfileTemplateData; } /** *

* Dockerfiles are text documents that are used to build Docker containers, and ensure that they contain all of the * elements required by the application running inside. The template data consists of contextual variables where * Image Builder places build information or scripts, based on your container image recipe. *

* * @return Dockerfiles are text documents that are used to build Docker containers, and ensure that they contain all * of the elements required by the application running inside. The template data consists of contextual * variables where Image Builder places build information or scripts, based on your container image recipe. */ public String getDockerfileTemplateData() { return this.dockerfileTemplateData; } /** *

* Dockerfiles are text documents that are used to build Docker containers, and ensure that they contain all of the * elements required by the application running inside. The template data consists of contextual variables where * Image Builder places build information or scripts, based on your container image recipe. *

* * @param dockerfileTemplateData * Dockerfiles are text documents that are used to build Docker containers, and ensure that they contain all * of the elements required by the application running inside. The template data consists of contextual * variables where Image Builder places build information or scripts, based on your container image recipe. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withDockerfileTemplateData(String dockerfileTemplateData) { setDockerfileTemplateData(dockerfileTemplateData); return this; } /** *

* Identifies which KMS key is used to encrypt the container image for distribution to the target Region. *

* * @param kmsKeyId * Identifies which KMS key is used to encrypt the container image for distribution to the target Region. */ public void setKmsKeyId(String kmsKeyId) { this.kmsKeyId = kmsKeyId; } /** *

* Identifies which KMS key is used to encrypt the container image for distribution to the target Region. *

* * @return Identifies which KMS key is used to encrypt the container image for distribution to the target Region. */ public String getKmsKeyId() { return this.kmsKeyId; } /** *

* Identifies which KMS key is used to encrypt the container image for distribution to the target Region. *

* * @param kmsKeyId * Identifies which KMS key is used to encrypt the container image for distribution to the target Region. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withKmsKeyId(String kmsKeyId) { setKmsKeyId(kmsKeyId); return this; } /** *

* A flag that indicates if the target container is encrypted. *

* * @param encrypted * A flag that indicates if the target container is encrypted. */ public void setEncrypted(Boolean encrypted) { this.encrypted = encrypted; } /** *

* A flag that indicates if the target container is encrypted. *

* * @return A flag that indicates if the target container is encrypted. */ public Boolean getEncrypted() { return this.encrypted; } /** *

* A flag that indicates if the target container is encrypted. *

* * @param encrypted * A flag that indicates if the target container is encrypted. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withEncrypted(Boolean encrypted) { setEncrypted(encrypted); return this; } /** *

* A flag that indicates if the target container is encrypted. *

* * @return A flag that indicates if the target container is encrypted. */ public Boolean isEncrypted() { return this.encrypted; } /** *

* The base image for the container recipe. *

* * @param parentImage * The base image for the container recipe. */ public void setParentImage(String parentImage) { this.parentImage = parentImage; } /** *

* The base image for the container recipe. *

* * @return The base image for the container recipe. */ public String getParentImage() { return this.parentImage; } /** *

* The base image for the container recipe. *

* * @param parentImage * The base image for the container recipe. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withParentImage(String parentImage) { setParentImage(parentImage); return this; } /** *

* The date when this container recipe was created. *

* * @param dateCreated * The date when this container recipe was created. */ public void setDateCreated(String dateCreated) { this.dateCreated = dateCreated; } /** *

* The date when this container recipe was created. *

* * @return The date when this container recipe was created. */ public String getDateCreated() { return this.dateCreated; } /** *

* The date when this container recipe was created. *

* * @param dateCreated * The date when this container recipe was created. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withDateCreated(String dateCreated) { setDateCreated(dateCreated); return this; } /** *

* Tags that are attached to the container recipe. *

* * @return Tags that are attached to the container recipe. */ public java.util.Map getTags() { return tags; } /** *

* Tags that are attached to the container recipe. *

* * @param tags * Tags that are attached to the container recipe. */ public void setTags(java.util.Map tags) { this.tags = tags; } /** *

* Tags that are attached to the container recipe. *

* * @param tags * Tags that are attached to the container recipe. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withTags(java.util.Map tags) { setTags(tags); return this; } /** * Add a single Tags entry * * @see ContainerRecipe#withTags * @returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe addTagsEntry(String key, String value) { if (null == this.tags) { this.tags = new java.util.HashMap(); } if (this.tags.containsKey(key)) throw new IllegalArgumentException("Duplicated keys (" + key.toString() + ") are provided."); this.tags.put(key, value); return this; } /** * Removes all the entries added into Tags. * * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe clearTagsEntries() { this.tags = null; return this; } /** *

* The working directory for use during build and test workflows. *

* * @param workingDirectory * The working directory for use during build and test workflows. */ public void setWorkingDirectory(String workingDirectory) { this.workingDirectory = workingDirectory; } /** *

* The working directory for use during build and test workflows. *

* * @return The working directory for use during build and test workflows. */ public String getWorkingDirectory() { return this.workingDirectory; } /** *

* The working directory for use during build and test workflows. *

* * @param workingDirectory * The working directory for use during build and test workflows. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withWorkingDirectory(String workingDirectory) { setWorkingDirectory(workingDirectory); return this; } /** *

* The destination repository for the container image. *

* * @param targetRepository * The destination repository for the container image. */ public void setTargetRepository(TargetContainerRepository targetRepository) { this.targetRepository = targetRepository; } /** *

* The destination repository for the container image. *

* * @return The destination repository for the container image. */ public TargetContainerRepository getTargetRepository() { return this.targetRepository; } /** *

* The destination repository for the container image. *

* * @param targetRepository * The destination repository for the container image. * @return Returns a reference to this object so that method calls can be chained together. */ public ContainerRecipe withTargetRepository(TargetContainerRepository targetRepository) { setTargetRepository(targetRepository); 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 (getArn() != null) sb.append("Arn: ").append(getArn()).append(","); if (getContainerType() != null) sb.append("ContainerType: ").append(getContainerType()).append(","); if (getName() != null) sb.append("Name: ").append(getName()).append(","); if (getDescription() != null) sb.append("Description: ").append(getDescription()).append(","); if (getPlatform() != null) sb.append("Platform: ").append(getPlatform()).append(","); if (getOwner() != null) sb.append("Owner: ").append(getOwner()).append(","); if (getVersion() != null) sb.append("Version: ").append(getVersion()).append(","); if (getComponents() != null) sb.append("Components: ").append(getComponents()).append(","); if (getInstanceConfiguration() != null) sb.append("InstanceConfiguration: ").append(getInstanceConfiguration()).append(","); if (getDockerfileTemplateData() != null) sb.append("DockerfileTemplateData: ").append(getDockerfileTemplateData()).append(","); if (getKmsKeyId() != null) sb.append("KmsKeyId: ").append(getKmsKeyId()).append(","); if (getEncrypted() != null) sb.append("Encrypted: ").append(getEncrypted()).append(","); if (getParentImage() != null) sb.append("ParentImage: ").append(getParentImage()).append(","); if (getDateCreated() != null) sb.append("DateCreated: ").append(getDateCreated()).append(","); if (getTags() != null) sb.append("Tags: ").append(getTags()).append(","); if (getWorkingDirectory() != null) sb.append("WorkingDirectory: ").append(getWorkingDirectory()).append(","); if (getTargetRepository() != null) sb.append("TargetRepository: ").append(getTargetRepository()); sb.append("}"); return sb.toString(); } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (obj instanceof ContainerRecipe == false) return false; ContainerRecipe other = (ContainerRecipe) obj; if (other.getArn() == null ^ this.getArn() == null) return false; if (other.getArn() != null && other.getArn().equals(this.getArn()) == false) return false; if (other.getContainerType() == null ^ this.getContainerType() == null) return false; if (other.getContainerType() != null && other.getContainerType().equals(this.getContainerType()) == false) return false; if (other.getName() == null ^ this.getName() == null) return false; if (other.getName() != null && other.getName().equals(this.getName()) == false) return false; if (other.getDescription() == null ^ this.getDescription() == null) return false; if (other.getDescription() != null && other.getDescription().equals(this.getDescription()) == false) return false; if (other.getPlatform() == null ^ this.getPlatform() == null) return false; if (other.getPlatform() != null && other.getPlatform().equals(this.getPlatform()) == false) return false; if (other.getOwner() == null ^ this.getOwner() == null) return false; if (other.getOwner() != null && other.getOwner().equals(this.getOwner()) == false) return false; if (other.getVersion() == null ^ this.getVersion() == null) return false; if (other.getVersion() != null && other.getVersion().equals(this.getVersion()) == false) return false; if (other.getComponents() == null ^ this.getComponents() == null) return false; if (other.getComponents() != null && other.getComponents().equals(this.getComponents()) == false) return false; if (other.getInstanceConfiguration() == null ^ this.getInstanceConfiguration() == null) return false; if (other.getInstanceConfiguration() != null && other.getInstanceConfiguration().equals(this.getInstanceConfiguration()) == false) return false; if (other.getDockerfileTemplateData() == null ^ this.getDockerfileTemplateData() == null) return false; if (other.getDockerfileTemplateData() != null && other.getDockerfileTemplateData().equals(this.getDockerfileTemplateData()) == false) return false; if (other.getKmsKeyId() == null ^ this.getKmsKeyId() == null) return false; if (other.getKmsKeyId() != null && other.getKmsKeyId().equals(this.getKmsKeyId()) == false) return false; if (other.getEncrypted() == null ^ this.getEncrypted() == null) return false; if (other.getEncrypted() != null && other.getEncrypted().equals(this.getEncrypted()) == false) return false; if (other.getParentImage() == null ^ this.getParentImage() == null) return false; if (other.getParentImage() != null && other.getParentImage().equals(this.getParentImage()) == false) return false; if (other.getDateCreated() == null ^ this.getDateCreated() == null) return false; if (other.getDateCreated() != null && other.getDateCreated().equals(this.getDateCreated()) == false) return false; if (other.getTags() == null ^ this.getTags() == null) return false; if (other.getTags() != null && other.getTags().equals(this.getTags()) == false) return false; if (other.getWorkingDirectory() == null ^ this.getWorkingDirectory() == null) return false; if (other.getWorkingDirectory() != null && other.getWorkingDirectory().equals(this.getWorkingDirectory()) == false) return false; if (other.getTargetRepository() == null ^ this.getTargetRepository() == null) return false; if (other.getTargetRepository() != null && other.getTargetRepository().equals(this.getTargetRepository()) == false) return false; return true; } @Override public int hashCode() { final int prime = 31; int hashCode = 1; hashCode = prime * hashCode + ((getArn() == null) ? 0 : getArn().hashCode()); hashCode = prime * hashCode + ((getContainerType() == null) ? 0 : getContainerType().hashCode()); hashCode = prime * hashCode + ((getName() == null) ? 0 : getName().hashCode()); hashCode = prime * hashCode + ((getDescription() == null) ? 0 : getDescription().hashCode()); hashCode = prime * hashCode + ((getPlatform() == null) ? 0 : getPlatform().hashCode()); hashCode = prime * hashCode + ((getOwner() == null) ? 0 : getOwner().hashCode()); hashCode = prime * hashCode + ((getVersion() == null) ? 0 : getVersion().hashCode()); hashCode = prime * hashCode + ((getComponents() == null) ? 0 : getComponents().hashCode()); hashCode = prime * hashCode + ((getInstanceConfiguration() == null) ? 0 : getInstanceConfiguration().hashCode()); hashCode = prime * hashCode + ((getDockerfileTemplateData() == null) ? 0 : getDockerfileTemplateData().hashCode()); hashCode = prime * hashCode + ((getKmsKeyId() == null) ? 0 : getKmsKeyId().hashCode()); hashCode = prime * hashCode + ((getEncrypted() == null) ? 0 : getEncrypted().hashCode()); hashCode = prime * hashCode + ((getParentImage() == null) ? 0 : getParentImage().hashCode()); hashCode = prime * hashCode + ((getDateCreated() == null) ? 0 : getDateCreated().hashCode()); hashCode = prime * hashCode + ((getTags() == null) ? 0 : getTags().hashCode()); hashCode = prime * hashCode + ((getWorkingDirectory() == null) ? 0 : getWorkingDirectory().hashCode()); hashCode = prime * hashCode + ((getTargetRepository() == null) ? 0 : getTargetRepository().hashCode()); return hashCode; } @Override public ContainerRecipe clone() { try { return (ContainerRecipe) super.clone(); } catch (CloneNotSupportedException e) { throw new IllegalStateException("Got a CloneNotSupportedException from Object.clone() " + "even though we're Cloneable!", e); } } @com.amazonaws.annotation.SdkInternalApi @Override public void marshall(ProtocolMarshaller protocolMarshaller) { com.amazonaws.services.imagebuilder.model.transform.ContainerRecipeMarshaller.getInstance().marshall(this, protocolMarshaller); } }