# Protocol Documentation ## Table of Contents - [refs/types.proto](#refs/types.proto) - Messages - [Address](#neo.fs.v2.refs.Address) - [Checksum](#neo.fs.v2.refs.Checksum) - [ContainerID](#neo.fs.v2.refs.ContainerID) - [ObjectID](#neo.fs.v2.refs.ObjectID) - [OwnerID](#neo.fs.v2.refs.OwnerID) - [Signature](#neo.fs.v2.refs.Signature) - [SignatureRFC6979](#neo.fs.v2.refs.SignatureRFC6979) - [Version](#neo.fs.v2.refs.Version) - [Scalar Value Types](#scalar-value-types)
## refs/types.proto ### Message Address Objects in FrostFS are addressed by their ContainerID and ObjectID. String presentation of `Address` is a concatenation of string encoded `ContainerID` and `ObjectID` delimited by '/' character. | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | container_id | [ContainerID](#neo.fs.v2.refs.ContainerID) | | Container identifier | | object_id | [ObjectID](#neo.fs.v2.refs.ObjectID) | | Object identifier | ### Message Checksum Checksum message. Depending on checksum algorithm type, the string presentation may vary: * TZ \ Hex encoded string without `0x` prefix * SHA256 \ Hex encoded string without `0x` prefix | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | type | [ChecksumType](#neo.fs.v2.refs.ChecksumType) | | Checksum algorithm type | | sum | [bytes](#bytes) | | Checksum itself | ### Message ContainerID FrostFS container identifier. Container structures are immutable and content-addressed. `ContainerID` is a 32 byte long [SHA256](https://csrc.nist.gov/publications/detail/fips/180/4/final) hash of stable-marshalled container message. String presentation is a [base58](https://tools.ietf.org/html/draft-msporny-base58-02) encoded string. JSON value will be data encoded as a string using standard base64 encoding with paddings. Either [standard](https://tools.ietf.org/html/rfc4648#section-4) or [URL-safe](https://tools.ietf.org/html/rfc4648#section-5) base64 encoding with/without paddings are accepted. | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | value | [bytes](#bytes) | | Container identifier in a binary format. | ### Message ObjectID FrostFS Object unique identifier. Objects are immutable and content-addressed. It means `ObjectID` will change if the `header` or the `payload` changes. `ObjectID` is a 32 byte long [SHA256](https://csrc.nist.gov/publications/detail/fips/180/4/final) hash of the object's `header` field, which, in it's turn, contains the hash of the object's payload. String presentation is a [base58](https://tools.ietf.org/html/draft-msporny-base58-02) encoded string. JSON value will be data encoded as a string using standard base64 encoding with paddings. Either [standard](https://tools.ietf.org/html/rfc4648#section-4) or [URL-safe](https://tools.ietf.org/html/rfc4648#section-5) base64 encoding with/without paddings are accepted. | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | value | [bytes](#bytes) | | Object identifier in a binary format | ### Message OwnerID `OwnerID` is a derivative of a user's main public key. The transformation algorithm is the same as for Neo3 wallet addresses. Neo3 wallet address can be directly used as `OwnerID`. `OwnerID` is a 25 bytes sequence starting with Neo version prefix byte followed by 20 bytes of ScrptHash and 4 bytes of checksum. String presentation is a [Base58 Check](https://en.bitcoin.it/wiki/Base58Check_encoding) Encoded string. JSON value will be data encoded as a string using standard base64 encoding with paddings. Either [standard](https://tools.ietf.org/html/rfc4648#section-4) or [URL-safe](https://tools.ietf.org/html/rfc4648#section-5) base64 encoding with/without paddings are accepted. | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | value | [bytes](#bytes) | | Identifier of the container owner in a binary format | ### Message Signature Signature of something in FrostFS. | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | key | [bytes](#bytes) | | Public key used for signing | | sign | [bytes](#bytes) | | Signature | | scheme | [SignatureScheme](#neo.fs.v2.refs.SignatureScheme) | | Scheme contains digital signature scheme identifier | ### Message SignatureRFC6979 RFC 6979 signature. | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | key | [bytes](#bytes) | | Public key used for signing | | sign | [bytes](#bytes) | | Deterministic ECDSA with SHA-256 hashing | ### Message Version API version used by a node. String presentation is a Semantic Versioning 2.0.0 compatible version string with 'v' prefix. i.e. `vX.Y`, where `X` is the major number, `Y` is the minor number. | Field | Type | Label | Description | | ----- | ---- | ----- | ----------- | | major | [uint32](#uint32) | | Major API version | | minor | [uint32](#uint32) | | Minor API version | ### ChecksumType Checksum algorithm type. | Name | Number | Description | | ---- | ------ | ----------- | | CHECKSUM_TYPE_UNSPECIFIED | 0 | Unknown. Not used | | TZ | 1 | Tillich-Zemor homomorphic hash function | | SHA256 | 2 | SHA-256 | ### SignatureScheme Signature scheme describes digital signing scheme used for (key, signature) pair. | Name | Number | Description | | ---- | ------ | ----------- | | ECDSA_SHA512 | 0 | ECDSA with SHA-512 hashing (FIPS 186-3) | | ECDSA_RFC6979_SHA256 | 1 | Deterministic ECDSA with SHA-256 hashing (RFC 6979) | | ECDSA_RFC6979_SHA256_WALLET_CONNECT | 2 | Deterministic ECDSA with SHA-256 hashing using WalletConnect API. Here the algorithm is the same, but the message format differs. | ## Scalar Value Types | .proto Type | Notes | C++ Type | Java Type | Python Type | | ----------- | ----- | -------- | --------- | ----------- | | double | | double | double | float | | float | | float | float | float | | int32 | Uses variable-length encoding. Inefficient for encoding negative numbers – if your field is likely to have negative values, use sint32 instead. | int32 | int | int | | int64 | Uses variable-length encoding. Inefficient for encoding negative numbers – if your field is likely to have negative values, use sint64 instead. | int64 | long | int/long | | uint32 | Uses variable-length encoding. | uint32 | int | int/long | | uint64 | Uses variable-length encoding. | uint64 | long | int/long | | sint32 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int32s. | int32 | int | int | | sint64 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int64s. | int64 | long | int/long | | fixed32 | Always four bytes. More efficient than uint32 if values are often greater than 2^28. | uint32 | int | int | | fixed64 | Always eight bytes. More efficient than uint64 if values are often greater than 2^56. | uint64 | long | int/long | | sfixed32 | Always four bytes. | int32 | int | int | | sfixed64 | Always eight bytes. | int64 | long | int/long | | bool | | bool | boolean | boolean | | string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode | | bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |