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Cosign Signature Specifications

This document aims to describe how cosign signs containers. The goal is to specify the behavior well enough to promote other implementations and enable interoperability. Container signatures generated with cosign should be verifiable in other tools, and vice-versa.

This document is broken up into a few parts:

  • Properties details the individual components that are used to create and verify signatures.
  • Storage details how signatures are stored and discovered in an OCI registry.
  • Payload details the format of to-be-signed payloads.
  • Signature details the signature schemes supported.

Properties

This section describes the REQUIRED and OPTIONAL properties used to sign and verify an image. Their layout in an OCI object is described below.

  • payload bytes

    This REQUIRED property contains the contents of signed data in byte-form. Because signatures are detached, the payload MUST contain the digest of the image it references, in a well-known location. This location is dependent on the payload format.

  • mediaType string

    This REQUIRED property contains the media type of the payload.

  • signature string

    This REQUIRED property contains the base64-encoded signature. This signature MUST be generated by a supported scheme. For more details on supported schemes, see the Signature section below.

    Example signature: MEYCIQDXmXWj59naoPFlLnCADIPLKgLG3LyFtKrbjpnkYiGNGgIhAJ/eNx5zr/l1MJKSFpFMjPKKr4fjh5RHEtT2DhMamZuT

  • certificate string

    This OPTIONAL property contains a PEM-encoded x509 certificate. If present, this certificate MUST embed the public key that can be used to verify the signature.

    Example certificate:

-----BEGIN CERTIFICATE-----
MIICrjCCAjSgAwIBAgIUAM4mURWUSkg06fmHmFfTmerYKaUwCgYIKoZIzj0EAwMw
KjEVMBMGA1UEChMMc2lnc3RvcmUuZGV2MREwDwYDVQQDEwhzaWdzdG9yZTAeFw0y
MTA0MDExNTU5MDZaFw0yMTA0MDExNjE4NTlaMDoxGzAZBgNVBAoMEmRsb3JlbmNA
Z29vZ2xlLmNvbTEbMBkGA1UEAwwSZGxvcmVuY0Bnb29nbGUuY29tMFkwEwYHKoZI
zj0CAQYIKoZIzj0DAQcDQgAE3R0ZtpfBd3Y8DaXuB1gM8JPlhsDIEfXO/WsMJEN1
4hEn8wajX2HklqL7igZPFICv6tBUGylIHp2mTH2Nhv38mqOCASYwggEiMA4GA1Ud
DwEB/wQEAwIHgDATBgNVHSUEDDAKBggrBgEFBQcDAzAMBgNVHRMBAf8EAjAAMB0G
A1UdDgQWBBTy3UWIop0bNrdNgSrVHHD10qSASTAfBgNVHSMEGDAWgBTIxR0AQZok
KTJRJOsNrkrtSgbT7DCBjQYIKwYBBQUHAQEEgYAwfjB8BggrBgEFBQcwAoZwaHR0
cDovL3ByaXZhdGVjYS1jb250ZW50LTYwM2ZlN2U3LTAwMDAtMjIyNy1iZjc1LWY0
ZjVlODBkMjk1NC5zdG9yYWdlLmdvb2dsZWFwaXMuY29tL2NhMzZhMWU5NjI0MmI5
ZmNiMTQ2L2NhLmNydDAdBgNVHREEFjAUgRJkbG9yZW5jQGdvb2dsZS5jb20wCgYI
KoZIzj0EAwMDaAAwZQIwC15Gtd9F6W9lmJuoXMym9DfWlBpK5HEPak38WPXqowRp
6p+2/3jSLkFT5Nn5fuISAjEAouVlX4zH2rlkfg45HnDJax7o6ZV+E0/6BdAms44D
Ej6T/GLK6XJSB28haSPRWB7k
-----END CERTIFICATE-----
  • chain string This OPTIONAL property contains a PEM-encoded, DER-formatted, ASN.1 x509 certificate chain. The certificate property MUST be present if this property is present. This chain MAY be used by implementations to verify the certificate property.

    Example chain:

----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
  • bundle string This OPTIONAL property contains a JSON formatted bundle type, which can be used for offline verification. Example bundle:
{
  "SignedEntryTimestamp": "MEQCIFRc9xXIoqCxUPXnoYlWyoWL4hX2aGnQOf0fVbxlUXdFAiAUkUBkEv+6Q4T0hdTgcnFgPdEHLwDigT7QD0cUvgRaOw==",
  "Body": "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",
  "IntegratedTime": 1619819449,
  "LogIndex": 3460
}

The following are REQUIRED properties of the bundle: - The SignedEntryTimestamp is a rekor-signed signature over the logIndex, body and integratedTime of the Rekor Log Entry - The Body is the body of the Rekor Log Entry - The IntegratedTime is the UNIX timestamp the log entry was integrated into the transparency log - The LogIndex is the index of the log entry in the transparency log

Storage

cosign image signatures are stored in an OCI registry and are designed to make use of the existing specifications. The full specificatons for the OCI formats and specifications used are available here.

Discovery

Signature object are placed in specific location in an OCI registry to enable consistent, interoperable discovery.

Multiple discovery mechanisms MAY be used. Implementations MUST support at least the following mechanisms:

  • Tag-based Discovery

Tag-based Discovery

In this scheme, signatures are stored in an OCI registry in a predictable location, addressable by tag. The location of signatures corresponding to a specific object can be computed using the digest of the object.

If the object is referenced by tag, the tag must first be resolved to a digest. Then the digest of the object (of the form sha256:abcdef...) is encoded into a tag name using the following rules:

  • Replace the : character with a -
  • Append the .sig suffix

Example digest->tag mapping:

  1. Start with gcr.io/dlorenc-vmtest2/demo:latest
  2. Resolve this to a digest: sha256:97fc222cee7991b5b061d4d4afdb5f3428fcb0c9054e1690313786befa1e4e36
  3. Follow the encoding rules: sha256-97fc222cee7991b5b061d4d4afdb5f3428fcb0c9054e1690313786befa1e4e36.sig
  4. Signature can be found at gcr.io/dlorenc-vmtest2/demo:sha256-97fc222cee7991b5b061d4d4afdb5f3428fcb0c9054e1690313786befa1e4e36.sig

Implementations MAY store signatures objects in the same OCI repository as the target image or a different one.

Object Types

This section describes the way the properties from above are embedded into OCI objects that can be stored in a registry. Implementations MUST support storing signatures in at least the following object types:

OCI Image Manifest V1

This section describes the way the mandatory and optional signature properties are embedded into an OCI Image Manifest V1 object.

Only one image manifest is created for every signed object. Multiple signatures can be embedded in one image manifest.

Payload and mediaType

The payload bytes are uploaded to an OCI registry as a blob, and are referenced by digest, size and mediaType. The digest is embedded into the Image manifest as a layer, via a Descriptor.

The mediaType property for the payload is included in the same descriptor.

Example payload:

{
  "schemaVersion": 2,
  "config": {
    "mediaType": "application/vnd.oci.image.config.v1+json",
    <omitted for brevity>
  },
  "layers": [
    {
      "mediaType": "application/vnd.dev.cosign.simplesigning.v1+json",
      "size": 210,
      "digest": "sha256:1119abab63e605dcc281019bad0424744178b6f61ba57378701fe7391994c999",
    },
    <other layers here>
  ]
}
Signature

The signature is base64-encoded and stored as an annotation on the layer, in the same descriptor. The annotation key is dev.cosignproject.cosign/signature.

Example signature:

"annotations": {
    "dev.cosignproject.cosign/signature": "MEUCIBKI9FIC+YD3m/lWViyPxsJsbnIHj86sSbb7L3qvpEFoAiEA2ZChO/67CuAPQKJLBVsAc7bs9hBK8RpsdfjBsByGKJM="
}
Certificate

The certificate is stored as an annotation on the layer, in the same descriptor. The annotation key is dev.cosignproject.cosign/certificate.

Example certificate:

"annotations": {
     "dev.sigstore.cosign/certificate": "-----BEGIN CERTIFICATE-----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\nEj6T/GLK6XJSB28haSPRWB7k\n-----END CERTIFICATE-----\n",
}
Chain

The chain is stored as an annotation on the layer, in the same descriptor. The annotation key is dev.cosignproject.cosign/chain.

Example chain:

"annotations": {
      "dev.sigstore.cosign/chain": "-----BEGIN CERTIFICATE-----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\nHr/+CxFvaJWmpYqNkLDGRU+9orzh5hI2RrcuaQ==\n-----END CERTIFICATE-----"
}

Payloads

Implementations MUST support at least the following payload types:

  • Simple Signing

Simple Signing

The Simple Signing payload format is specified here

The following additional semantics are applied:

  • The mediaType used to identify this payload format is: application/vnd.dev.cosign.simplesigning.v1+json.
  • The critical.type value used to identify cosign signatures is: cosign container image signature.
  • The critical.identity.docker-reference field is ignored.
  • Optional user-specified claims may be included in the Optional section.

For example:

{
    "critical": {
           "identity": {
               "docker-reference": "testing/manifest"
           },
           "image": {
               "Docker-manifest-digest": "sha256:20be...fe55"
           },
           "type": "cosign container image signature"
    },
    "optional": {
           "creator": "atomic",
           "timestamp": 1458239713
    }
}

Signature Schemes

Implementations must support at least the following schemes:

  • ECDSA-P256

No information about the signature scheme is included in the object. Clients must determine the signature scheme out-of-band during the verification process.

Hashing Algorithms

Signers and verifiers must know the hash algorithm used in addition to the signature scheme. In an attempt to avoid specifying a particular hashing algorithm, we require that digest be calculated using the SAME algorithm as the OCI registry. In practice, this means sha256.

When the payload is stored as a blob in the OCI registry, it is exposed and referenced via a Content Addressable API.

Example referenced payload:

{
  "mediaType": "application/vnd.dev.cosign.simplesigning.v1+json",
  "size": 210,
  "digest": "sha256:1119abab63e605dcc281019bad0424744178b6f61ba57378701fe7391994c999",
}

Here, 1119abab63e605dcc281019bad0424744178b6f61ba57378701fe7391994c999 is the hex-encoded digest, and the sha256: prefix specifies the algorithm. This value is already calculated and verified by both the registry and client-tooling.

This means that our signatures is "linked" to a "container image" happens via two hops:

Sign(sha256(SimpleSigningPayload(sha256(Image Manifest))))

Allowing flexibility in hashing algorithms of the digital signature would only allow manipulation of the "outer" one - the image manifest itself is always referenced by sha256 today. This means using a different hashing algorithm as part of the final signature, even one perceived as "stronger", would result in limited cryptographic benefits.

Put simply: implementations MUST use the same hash algorithm used by the underlying registry to reference the payload. Any future algorithmic-agility will come from the storage layer as part of the OCI specification.

Rationales and Commentary

This document, while labeled a Specification, aims to specify as few things as possible. Instead, we prescribe the usage of other specifications.

This section contains a rationale for each choice, as well as comparisons to alternatives considered.

Payload/Attestation Format: Simple Signing

We chose Simple Signing because it has the most existing usage and meets our requirements:

  • Critical/Optional sections
  • Extensible with more attestations
  • Cross-language serialization support

Alternatives

  • OCI Descriptor.

    This has the fields we need, with a few problems.

    • The annotations section is limiting with map[string]string.
    • The URLs field is not meant for this use-case.
    • No real benefit, since it's stored as a blob (not parsed by the registry).
  • Plain digest

    This doesn't have any attestation/annotation support.

  • Something new

    See above, we've tried to avoid making any new types where possible.

OCI Type - Docker Manifest/OCI Manifest

We're currently using Docker but will switch to OCI. The format support across registries is a toss-up, but likely to improve for OCI. OCI supports custom media-types and has other "correctness" benefits.

Discovery - Tag Based

We use the tag based mechanism because it's the only option we can think of. It meets the two hard requirements: works everywhere today and requires no extra services. It also does not mutate the signed object (like an attached signature or index might).

Support for multiple signatures works but is racy.

Alternatives Considered

Notary v1/Grafeas both require another database. A few other proprietary APIs exist, but they're not cross-registry.

Hash Algorithm - None!

Most common signature schemes support customizable hash algorithms. These are typically stored with the signature for convenience, presenting a possible attack/confusion vector.

We decided to pin to the registry hash algorithm. This removes an entire moving part without sacrificing agility.

The registry/client-tooling already perform hash validation as part of the CAS. While their spec does not completely pin to specific algorithm, SHA256 is ubiquitous in practice. This means that our signed payload object references the actual image "target" by a sha-256 digest - the entire signature already relies on the strength of this algorithm.

Trading off this perceived agility for the reduction in attack surface is a win.

** Note **: This is only possible if we store the payload in a blob by itself. Serializing the payload and signature together in something like a JWT for storage would mean the payload is no longer directly hashed into the CAS. There is also a performance benefit: we can validate the signature (stored in the manifest) against the payload (stored as a blob) without fetching the blob, because the blob's digest is also present in the manifest.

Algorithms

We only require ECDSA-P256 (with the SHA256 hash algorithm, see above), but will allow for other schemes. We will bias toward algorithms well-supported in the Go ecosystem, but will accept others. We will bias toward support for algorithms with wide industry adoption, API support, and hardware availability.

Compatibility

We are compatible with the In-Toto Metablock and JWS rfc7515 formats. This means we can convert to these formats during verification, and from these formats during upload/signature. You can think of this spec as an "on-registry serialization format" for either of these specififed formats.