Store Plugin
Overview
A referrer store in the framework is a component that can store and distribute OCI artifacts with the ability to discover reference types for a subject. It provides the following capabilities
- Retrieve list of referrers for an artifact
- Retrieve manifest for a referrer identified by the OCI reference
- Download the blobs of an artifact
- Retrieves properties of the subject manifest like descriptor to support verification.
- Retrieves the descriptor properties for a subject reference
This document proposes a generic plugin-based solution for integrating different stores into the framework.
Terminology
The following terms will be used throughout the document
- store is the component that will be used to retrieve referrers for a subject and its related data like blobs and manifests.
- framework is the verification framework that coordinates multiple verifiers with the underlying multiple stores
- plugin is a program that implements the store interface and provides the necessary data required for verification.
The following sections of the document aims to specify the interface between "framework" and "plugins"
The key words "must", "must not", "required", "shall", "shall not", "should", "should not", "recommended", "may" and "optional" are used as specified in RFC 2119.
Specification
The store specification defines
- An interface that defines store capabilities
- The format of the configuration used to configure the store plugins.
- A protocol for the framework to make requests to the store plugins
- A process for executing plugins based on the provided configuration.
- Data types of the results returned by plugin to the framework
- Format of error response returned by plugin
- Version compatibility between framework and plugin
Section1 : Store Configuration format
The framework can be configured with a set of parameters that are used by both the framework and plugins. When a specific plugin is executed, its corresponding parameters will be passed as an execution configuration to the plugin. The framework MAY support dynamic updates to the configuration as needed and hence it is recommended for the plugins to not consider this configuration as static and always use the config passed by the framework for execution.
Store Configuration format
The store configuration can be [TBD] YAML/JSON with the following properties
Property | Type | IsRequired | Description |
---|---|---|---|
version | string | true | The semantic version 2.0 of the store specification to which all configuration and data types conform. Currently it is 1.0.0 |
plugins | array | true | The array of store plugins and their configuration. This is a list of plugin configuration object described in the following section. |
Plugin Configuration objects
The following are the keys used to describe configuration of individual plugins.
Property | Type | IsRequired | Description |
---|---|---|---|
name | string | true | The name of the plugin that should match with plugin binary on disk. Must not contain characters disallowed in file paths for the system (e.g. / or ) |
pluginBinDirs | array | false | The list of paths to look for the plugin binary to execute. Default: the home path of the framework. |
Any other fields specified for a plugin other than the above mentioned are considered as opaque. The framework MUST preserve unknown fields and pass through these fields to the plugins at the time of execution. Plugins may define additional fields that they accept and may generate an error if called with unknown fields.
Example store configuration
stores:
version: 1.0.0
plugins:
- name: ociregistry
useHttp: true
- name: filesystem
folderPath: "/home/user/artifacts"
Section2 : Store Interface
The framework defines an interface for all the capabilities provided by a store.
An interace defined in golang
:
type ReferrerStore interface {
Name() string
ListReferrers(ctx context.Context, subjectReference common.Reference, artifactTypes []string, nextToken string) (ListReferrersResult, error)
// Used for small objects.
GetBlobContent(ctx context.Context, subjectReference common.Reference, digest digest.Digest) ([]byte, error)
GetReferenceManifest(ctx context.Context, subjectReference common.Reference, referenceDesc ocispecs.ReferenceDescriptor) (ocispecs.ReferenceManifest, error)
GetSubjectDescriptor(ctx context.Context, subjectReference common.Reference) (*ocispecs.SubjectDescriptor, error)
}
Name
The method is used to get the name of the store.
ListReferrers
This method is used to query all the referrers that are linked to a subject that is identified by a reference. The result will include the list of references and a continution token to support pagination.
GetBlobContent
[TBD] handle large objects through streaming? This method is used to fetch the contents of a blob that is contained within the repository of the subject. The blob is identified by the given digest.
GetReferenceManifest
This method is used to fetch the contents of an artifact manifest that is identified by a reference descriptor. This reference descriptor is a referrer to the given subject.
GetSubjectDescriptor
This method is used to get the descriptor for a subject that includes digest, size and media type properties.
Section 3 : Plugin Based Store
The framework MUST provide a reference implementation of the store interface using the plugin architecture It will execute the configured plugins to implement the methods of the interface.
The rest of the sections of the document defines the protocol for executing the plugins to implement the different methods of the store interface.
Section 4: Plugin Execution Protocol
The protocol is based on the execution of binaries invoked by the framework. The framework passes parameters to the plugin via environment variables and configuration. The configuration is supplied via stdin
. The plugin returns the result on stdout
on success, or an error on stderr
if the verification fails. Configuration and results are encoded using JSON format.
There are two types of inputs that are passed to the plugin. They are parameters which define invokation specific settings and the other is configuration that includes verifier and store configuration settings.
Parameters
Execution parameters are passed to the plugins via OS environment variables. The parameters that are passed to a store are defined below
- RATIFY_STORE_COMMAND indicates the operation to be executed. Currently they include
LISTREFERRERS
,GETBLOB
,GETREFMANIFEST
,GETSUBJECTDESCRIPTOR
- RATIFY_STORE_SUBJECT is the artifact under verification usually identified by a reference as per the OCI
{DNS/IP}/{Repository}:[name|digest]
- RATIFY_STORE_VERSION is the version of the specification used between the framework and plugin. This value is taken from the
version
field of the store configuration. - RATIFY_STORE_ARGS: Extra arguments passed in by the framework at invocation time. They are key-value pairs separated by semicolons; for example, "digest=sha256:sdfdsdss;nextToken=123;artifactTypes:type1,type2". If the command doesn't need any arguments, this can be empty
Operations & Parameters
The store specification defines 3 operations LISTREFERRERS
, GETBLOB
, GETREFMANIFEST
The operation type is passed to the plugin via the RATIFY_STORE_COMMAND environemnt variable.
LISTREFERRERS
: Get the list of referrers to the given subject. The arguments that are passed to this operation as part of RATIFY_STORE_ARGS are
nextToken
: (string) The continuation token obtained from the previousLISTREFERRERS
oeprationartifactTypes
: (string) Comma separated list of artifact types that are used for filtering the referrers.
GETBLOB
: The arguments that are passed to this oepration as part of RATIFY_STORE_ARGS are
digest
: (string) The digest of the blob that has to be retrieved.
GETREFMANIFEST
: The arguments that are passed to this oepration as part of RATIFY_STORE_ARGS are
digest
: (string) The digest of the artifact manifest that has to be retrieved.
Execution Configuration
When a plugin is registered using the configuration, the framework interprets the configuration per plugin and transforms it to a format that is expected by the plugin. This section describes the transformations made by the framework before the configuration is passed to the plugin.
The execution configuration for a plugin invocation is encoded in JSON. It will contain the plugin configuration that is provided by the user, primarily unchanged except for the specified additions
The execution configuration provided by the framework will contain the following fields.
config
: A JSON object representing the plugin configuration provided as part of registration with the framework and passed unchanged.
Section 5: Operations & Result Types
Plugins can return either a Success or Error result type.
Success
The store specification defines 3 operations LISTREFERRERS
, GETBLOB
, GETREFMANIFEST
The success result types for each of these operations are defined below
LISTREFERRERS
: Get the list of referrers to the given subject. The result JSON returned for this operation has the following properties
referrers
: (list) A list of referrers to the given subject identified by their descriptorsnextToken
: (string) The continuation token that SHOULD be used to get the next page of referrers.
GETBLOB
: The content of the blob is returned as byte array via stdout
GETREFMANIFEST
: The content of the reference manifest is returned as byte array via `stdout
GETSUBJECTDESCRIPTOR
: The contents of the descriptor for the subject is returned as a byte array via stdout
Error
Plugins should output a JSON object with the following properties if they encounter an error
code
: A numeric error code as described belowmsg
: A short message describing the errordetails
: More details describing the error.
[TODO] Add the error codes after the implementation
Section 6: Plugin Implementation
The framework MAY provide libraries that can provide skeletons for writing plugins. These libraries can scaffold the parameter and configuration parsing and transformation and can define methods that the plugin writers can override for the implementation. These libraries also should catch any exceptions retruned from the plugins and return a proper error result to the framework. A simple CLI for example ratify plugin store add mystore
to create a stub for a plugin using these libraries MAY be provided by the framework.
Appendix : Examples
A example protocol sequence for a LISTREFERRERS
operation is given below
- The following framework configuration will be used for the example ([TBD] need to decide if it is JSON or YAML)
stores:
version: 1.0.0
plugins:
- name: ociregistry
useHttp: true
verifiers:
version: 1.0.0
plugins:
- name: notation
artifactTypes: application/vnd.cncf.notary.signature
verificationCerts:
- "/home/user/.notary/keys/wabbit-networks.crt"
- name: sbom
artifactTypes: application/x.example.sbom.v0
nestedReferences: application/vnd.cncf.notary.signature
executor:
cache: false
policy:
type: opa
policy: |
package ratify.rules
verify_artifact{
regex.match(".+.azurecr.io$", input.subject)
}
- An example subject
registry.wabbit-networks.io:5000/net-monitor:signed@sha256:a0fc570a245b09ed752c42d600ee3bb5b4f77bbd70d8898780b7ab43454530eb
will be used to query for its referrers of typeapplication/vnd.cncf.notary.signature
. - The framework calls the plugin
ociregistry
with the following environment variables
- RATIFY_STORE_COMMAND :
LISTREFERRERS
- RATIFY_STORE_SUBJECT:
registry.wabbit-networks.io:5000/net-monitor:signed@sha256:a0fc570a245b09ed752c42d600ee3bb5b4f77bbd70d8898780b7ab43454530eb
- RATIFY_STORE_VERSION:
1.0.0
- RATIFY_STORE_ARGS :
artifactTypes:application/vnd.cncf.notary.signature
- It calls the plugin with the following JSON execution configuration
{
"config": {
"name": "ociregistry",
"useHttp": true
}
}
- The
ociregistry
queries the registry using the provided configuration and returns a following JSON result
{
"referrers" : [
{
"mediaType": "application/vnd.cncf.oras.artifact.manifest.v1+json",
"digest": "sha256:5b0bcabd1ed22e9fb1310cf6c2dec7cdef19f0ad69efa1f392e94a4333501270",
"size": 7682,
"artifactType": "application/vnd.cncf.notary.signature"
}
],
"nextToken":""
}