Compare commits

..

No commits in common. "master" and "master" have entirely different histories.

55 changed files with 1686 additions and 2187 deletions

View file

@ -1,19 +0,0 @@
name: DCO action
on: [pull_request]
jobs:
dco:
name: DCO
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
with:
fetch-depth: 0
- name: Setup Go
uses: actions/setup-go@v3
with:
go-version: '1.22'
- name: Run commit format checker
uses: https://git.frostfs.info/TrueCloudLab/dco-go@v3
with:
from: 'origin/${{ github.event.pull_request.base.ref }}'

View file

@ -1,17 +0,0 @@
name: Formatters
on: [pull_request]
jobs:
fmt:
name: Run fmt
runs-on: ubuntu-22.04
steps:
- uses: actions/checkout@v3
- name: Install deps
run: |
apt update
apt install -y clang-format
- name: Run fmt
run: |
make fmt
git diff --exit-code --quiet

View file

@ -1,18 +0,0 @@
name: Pre-commit hooks
on: [pull_request]
jobs:
pre-commit:
name: Pre-commit
env:
# Skip pre-commit hooks which are executed by other actions.
SKIP: make-fmt
runs-on: ubuntu-22.04
steps:
- uses: actions/checkout@v3
- name: Install deps
run: |
apt update
apt install -y pre-commit
- name: Run pre-commit
run: pre-commit run --all-files --hook-stage manual --color=always

1
.github/CODEOWNERS vendored Normal file
View file

@ -0,0 +1 @@
* @alexvanin @realloc @fyrchik @anatoly-bogatyrev

View file

Before

Width:  |  Height:  |  Size: 5.5 KiB

After

Width:  |  Height:  |  Size: 5.5 KiB

View file

@ -4,11 +4,11 @@
## Table of Contents
{{range .Files}}
{{$file_name := .Name}}- [{{.Name}}](#{{.Name}})
{{if .Services}} - Services
{{range .Services}} - [{{.Name}}](#{{.FullName}})
{{if .Services}} - Services
{{range .Services}}- [{{.Name}}](#{{.FullName}})
{{end}}{{end}}
{{if .Messages}} - Messages
{{range .Messages}} - [{{.LongName}}](#{{.FullName}})
{{range .Messages}}- [{{.LongName}}](#{{.FullName}})
{{end}}{{end}}
{{end}}
- [Scalar Value Types](#scalar-value-types)

36
.github/workflows/buf.yml vendored Normal file
View file

@ -0,0 +1,36 @@
name: Buf lint
on:
pull_request:
branches:
- master
jobs:
lint:
runs-on: ubuntu-20.04
steps:
- uses: actions/checkout@v2
- uses: wizhi/setup-buf@v1
with:
version: 0.20.5
- run: buf check lint
breaking:
runs-on: ubuntu-20.04
steps:
- name: Setup buf
uses: wizhi/setup-buf@v1
with:
version: 0.20.5
- name: Check out ref code
uses: actions/checkout@v2
with:
ref: ${{ github.base_ref }}
path: baseref
- run: cd baseref && buf image build -o image.bin
- name: Check out code
uses: actions/checkout@v2
with:
path: prclone
- run: cd prclone && buf check breaking --against-input ../baseref/image.bin

21
.github/workflows/dco.yml vendored Normal file
View file

@ -0,0 +1,21 @@
name: DCO check
on:
pull_request:
branches:
- master
jobs:
commits_check_job:
runs-on: ubuntu-latest
name: Commits Check
steps:
- name: Get PR Commits
id: 'get-pr-commits'
uses: tim-actions/get-pr-commits@master
with:
token: ${{ secrets.GITHUB_TOKEN }}
- name: DCO Check
uses: tim-actions/dco@master
with:
commits: ${{ steps.get-pr-commits.outputs.commits }}

1
.gitignore vendored
View file

@ -1 +1,2 @@
.idea

View file

@ -1,24 +0,0 @@
repos:
- repo: https://github.com/pre-commit/pre-commit-hooks
rev: v4.6.0
hooks:
- id: check-added-large-files
- id: check-case-conflict
- id: check-executables-have-shebangs
- id: check-shebang-scripts-are-executable
- id: check-merge-conflict
- id: check-json
- id: check-xml
- id: check-yaml
- id: trailing-whitespace
args: [--markdown-linebreak-ext=md]
- id: end-of-file-fixer
exclude: ".svg$"
- repo: local
hooks:
- id: make-fmt
name: Run make fmt
entry: make fmt
language: system
pass_filenames: false

View file

@ -9,7 +9,6 @@
### Removed
- Reputation system (#22)
- All `subnet` related fields and types (#25)
- Storage group (#19)
## [2.14.0] - 2022-09-23 - Anmado (안마도, 鞍馬島)

View file

@ -1 +0,0 @@
.* @alexvanin @realloc @fyrchik @a.bogatyrev

View file

@ -3,8 +3,8 @@
First, thank you for contributing! We love and encourage pull requests from
everyone. Please follow the guidelines:
- Check the open [issues](https://git.frostfs.info/TrueCloudLab/frostfs-api/issues) and
[pull requests](https://git.frostfs.info/TrueCloudLab/frostfs-api/pulls) for existing
- Check the open [issues](https://github.com/TrueCloudLab/frostfs-api/issues) and
[pull requests](https://github.com/TrueCloudLab/frostfs-api/pulls) for existing
discussions.
- Open an issue first, to discuss a new feature or enhancement.
@ -25,20 +25,19 @@ Start by forking the `frostfs-api` repository, make changes in a branch and then
send a pull request. We encourage pull requests to discuss code changes. Here
are the steps in details:
### Set up your repository
Fork [FrostFS upstream](https://git.frostfs.info/TrueCloudLab/frostfs-api/fork) source
### Set up your GitHub Repository
Fork [NeoFS node upstream](https://github.com/TrueCloudLab/frostfs-api/fork) source
repository to your own personal repository. Copy the URL of your fork (you will
need it for the `git clone` command below).
```sh
$ git clone https://git.frostfs.info/TrueCloudLab/frostfs-api
$ git clone https://github.com/TrueCloudLab/frostfs-api
```
### Set up git remote as ``upstream``
```sh
$ cd frostfs-api
$ git remote add upstream https://git.frostfs.info/TrueCloudLab/frostfs-api
$ git remote add upstream https://github.com/TrueCloudLab/frostfs-api
$ git fetch upstream
$ git merge upstream/master
...
@ -87,7 +86,7 @@ $ git push origin feature/123-something_awesome
```
### Create a Pull Request
Pull requests can be created via git.frostfs.info. Refer to [this
Pull requests can be created via GitHub. Refer to [this
document](https://help.github.com/articles/creating-a-pull-request/) for
detailed steps on how to create a pull request. After a Pull Request gets peer
reviewed and approved, it will be merged.

30
Makefile Executable file → Normal file
View file

@ -1,35 +1,21 @@
#!/usr/bin/make -f
SHELL=bash
include help.mk
# BRanch to match for BReaking changes
BRBR?=master
.PHONY: doc fmt pre-commit unpre-commit pre-commit-run
.PHONY: lint
lint:
buf check lint
buf check breaking --against-input '.git#branch=$(BRBR)'
.PHONY: doc
# Regenerate documentation for proto files:
doc:
@for f in `find . -type f -name '*.proto' -exec dirname {} \; | sort -u `; do \
echo "⇒ Documentation for $$(basename $$f)"; \
protoc \
--doc_opt=.forgejo/markdown.tmpl,$${f}.md \
--doc_opt=.github/markdown.tmpl,$${f}.md \
--proto_path=.:/usr/local/include \
--doc_out=proto-docs/ $${f}/*.proto; \
done
# Run clang-format
fmt:
@for f in `ls **/*.proto`; do \
echo "⇒ Formatting $$f"; \
clang-format -i $$f; \
done
# Activate pre-commit hooks
pre-commit:
pre-commit install --hook-type pre-commit
# Deactivate pre-commit hooks
unpre-commit:
pre-commit uninstall --hook-type pre-commit
# Run pre-commit hooks
pre-commit-run:
@pre-commit run --all-files --hook-stage manual

View file

@ -1,18 +1,19 @@
<p align="center">
<img src="./.forgejo/logo.svg" width="500px" alt="FrostFS">
<img src="./.github/logo.svg" width="500px" alt="FrostFS">
</p>
<p align="center">
<a href="https://frostfs.info">FrostFS</a> API language-agnostic protocol definitions
<a href="https://objectstorage.info">FrostFS</a> API language-agnostic protocol definitions
</p>
---
![Release](https://git.frostfs.info/TrueCloudLab/frostfs-api/badges/release.svg)
![GitHub release (latest SemVer)](https://img.shields.io/github/v/release/TrueCloudLab/frostfs-api?sort=semver)
![License](https://img.shields.io/github/license/TrueCloudLab/frostfs-api.svg?style=popout)
## Overview
FrostFS-API repository is the basis for language-specific libraries, e.g.:
- [frostfs-api-go](https://git.frostfs.info/TrueCloudLab/frostfs-api-go)
- [frostfs-api-go](https://github.com/TrueCloudLab/frostfs-api-go)
Those libraries contain compiled protocol buffers definitions, wrapped with
language-specific code. Use them to integrate applications with FrostFS.

View file

@ -9,27 +9,27 @@ import "accounting/types.proto";
import "refs/types.proto";
import "session/types.proto";
// Accounting service provides methods for interaction with FrostFS sidechain
// via other FrostFS nodes to get information about the account balance. Deposit
// and Withdraw operations can't be implemented here, as they require Mainnet
// FrostFS smart contract invocation. Transfer operations between internal
// FrostFS accounts are possible if both use the same token type.
// Accounting service provides methods for interaction with NeoFS sidechain via
// other NeoFS nodes to get information about the account balance. Deposit and
// Withdraw operations can't be implemented here, as they require Mainnet NeoFS
// smart contract invocation. Transfer operations between internal NeoFS
// accounts are possible if both use the same token type.
service AccountingService {
// Returns the amount of funds in GAS token for the requested FrostFS account.
// Returns the amount of funds in GAS token for the requested NeoFS account.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS):
// balance has been successfully read;
// - Common failures (SECTION_FAILURE_COMMON).
rpc Balance(BalanceRequest) returns (BalanceResponse);
rpc Balance (BalanceRequest) returns (BalanceResponse);
}
// BalanceRequest message
message BalanceRequest {
// To indicate the account for which the balance is requested, its identifier
// is used. It can be any existing account in FrostFS sidechain `Balance`
// smart contract. If omitted, client implementation MUST set it to the
// request's signer `OwnerID`.
// is used. It can be any existing account in NeoFS sidechain `Balance` smart
// contract. If omitted, client implementation MUST set it to the request's
// signer `OwnerID`.
message Body {
// Valid user identifier in `OwnerID` format for which the balance is
// requested. Required field.
@ -51,8 +51,7 @@ message BalanceRequest {
// BalanceResponse message
message BalanceResponse {
// The amount of funds in GAS token for the `OwnerID`'s account requested.
// Balance is given in the `Decimal` format to avoid precision issues with
// rounding.
// Balance is given in the `Decimal` format to avoid precision issues with rounding.
message Body {
// Amount of funds in GAS token for the requested account.
Decimal balance = 1;

View file

@ -5,7 +5,7 @@ package neo.fs.v2.accounting;
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/accounting/grpc;accounting";
option csharp_namespace = "Neo.FileStorage.API.Accounting";
// Standard floating point data type can't be used in FrostFS due to inexactness
// Standard floating point data type can't be used in NeoFS due to inexactness
// of the result when doing lots of small number operations. To solve the lost
// precision issue, special `Decimal` format is used for monetary computations.
//
@ -14,9 +14,9 @@ option csharp_namespace = "Neo.FileStorage.API.Accounting";
// description.
message Decimal {
// Number in the smallest Token fractions.
int64 value = 1 [ json_name = "value" ];
int64 value = 1 [json_name = "value"];
// Precision value indicating how many smallest fractions can be in one
// integer.
uint32 precision = 2 [ json_name = "precision" ];
uint32 precision = 2 [json_name = "precision"];
}

View file

@ -6,7 +6,6 @@ option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/acl/grpc;ac
option csharp_namespace = "Neo.FileStorage.API.Acl";
import "refs/types.proto";
import "ape/types.proto";
// Target role of the access control rule in access control list.
enum Role {
@ -20,8 +19,7 @@ enum Role {
// container or an inner ring node
SYSTEM = 2;
// Others target rule is applied if sender is neither a user nor a system
// target
// Others target rule is applied if sender is neither a user nor a system target
OTHERS = 3;
}
@ -89,18 +87,18 @@ enum HeaderType {
// Filter object headers
OBJECT = 2;
// Filter service headers. These are not processed by FrostFS nodes and
// Filter service headers. These are not processed by NeoFS nodes and
// exist for service use only.
SERVICE = 3;
}
// Describes a single eACL rule.
message EACLRecord {
// FrostFS request Verb to match
Operation operation = 1 [ json_name = "operation" ];
// NeoFS request Verb to match
Operation operation = 1 [json_name = "operation"];
// Rule execution result. Either allows or denies access if filters match.
Action action = 2 [ json_name = "action" ];
Action action = 2 [json_name = "action"];
// Filter to check particular properties of the request or the object.
//
@ -134,48 +132,48 @@ message EACLRecord {
// it's possible to take that information from the requested address.
message Filter {
// Define if Object or Request header will be used
HeaderType header_type = 1 [ json_name = "headerType" ];
HeaderType header_type = 1 [json_name = "headerType"];
// Match operation type
MatchType match_type = 2 [ json_name = "matchType" ];
MatchType match_type = 2 [json_name = "matchType"];
// Name of the Header to use
string key = 3 [ json_name = "key" ];
string key = 3 [json_name="key"];
// Expected Header Value or pattern to match
string value = 4 [ json_name = "value" ];
string value = 4 [json_name="value"];
}
// List of filters to match and see if rule is applicable
repeated Filter filters = 3 [ json_name = "filters" ];
repeated Filter filters = 3 [json_name="filters"];
// Target to apply ACL rule. Can be a subject's role class or a list of public
// keys to match.
message Target {
// Target subject's role class
Role role = 1 [ json_name = "role" ];
Role role = 1 [json_name="role"];
// List of public keys to identify target subject
repeated bytes keys = 2 [ json_name = "keys" ];
repeated bytes keys = 2 [json_name="keys"];
}
// List of target subjects to apply ACL rule to
repeated Target targets = 4 [ json_name = "targets" ];
repeated Target targets = 4 [json_name="targets"];
}
// Extended ACL rules table. A list of ACL rules defined additionally to Basic
// ACL. Extended ACL rules can be attached to a container and can be updated
// or may be defined in `BearerToken` structure. Please see the corresponding
// FrostFS Technical Specification section for detailed description.
// NeoFS Technical Specification section for detailed description.
message EACLTable {
// eACL format version. Effectively, the version of API library used to create
// eACL Table.
neo.fs.v2.refs.Version version = 1 [ json_name = "version" ];
neo.fs.v2.refs.Version version = 1 [json_name = "version"];
// Identifier of the container that should use given access control rules
neo.fs.v2.refs.ContainerID container_id = 2 [ json_name = "containerID" ];
neo.fs.v2.refs.ContainerID container_id = 2 [json_name="containerID"];
// List of Extended ACL rules
repeated EACLRecord records = 3 [ json_name = "records" ];
repeated EACLRecord records = 3 [json_name="records"];
}
// BearerToken allows to attach signed Extended ACL rules to the request in
@ -185,65 +183,44 @@ message EACLTable {
// used in the similar use cases, like providing authorisation to externally
// authenticated party.
//
// BearerToken can be issued only by the container's owner and must be signed
// using the key associated with the container's `OwnerID`.
// BearerToken can be issued only by the container's owner and must be signed using
// the key associated with the container's `OwnerID`.
message BearerToken {
// Bearer Token body structure contains Extended ACL table issued by the
// container owner with additional information preventing token abuse.
// Bearer Token body structure contains Extended ACL table issued by the container
// owner with additional information preventing token abuse.
message Body {
// Table of Extended ACL rules to use instead of the ones attached to the
// container. If it contains `container_id` field, bearer token is only
// valid for this specific container. Otherwise, any container of the same
// owner is allowed.
//
// Deprecated: eACL tables are no longer relevant - `APEOverrides` should be
// used instead.
EACLTable eacl_table = 1 [ json_name = "eaclTable" ];
// valid for this specific container. Otherwise, any container of the same owner
// is allowed.
EACLTable eacl_table = 1 [json_name="eaclTable"];
// `OwnerID` defines to whom the token was issued. It must match the request
// originator's `OwnerID`. If empty, any token bearer will be accepted.
neo.fs.v2.refs.OwnerID owner_id = 2 [ json_name = "ownerID" ];
neo.fs.v2.refs.OwnerID owner_id = 2 [json_name="ownerID"];
// Lifetime parameters of the token. Field names taken from
// [rfc7519](https://tools.ietf.org/html/rfc7519).
message TokenLifetime {
// Expiration Epoch
uint64 exp = 1 [ json_name = "exp" ];
uint64 exp = 1 [json_name="exp"];
// Not valid before Epoch
uint64 nbf = 2 [ json_name = "nbf" ];
uint64 nbf = 2 [json_name="nbf"];
// Issued at Epoch
uint64 iat = 3 [ json_name = "iat" ];
uint64 iat = 3 [json_name="iat"];
}
// Token expiration and valid time period parameters
TokenLifetime lifetime = 3 [ json_name = "lifetime" ];
TokenLifetime lifetime = 3 [json_name="lifetime"];
// AllowImpersonate flag to consider token signer as request owner.
// If this field is true extended ACL table in token body isn't processed.
bool allow_impersonate = 4 [ json_name = "allowImpersonate" ];
// APEOverride is the list of APE chains defined for a target.
// These chains are meant to serve as overrides to the already defined (or
// even undefined) APE chains for the target (see contract `Policy`).
//
// The server-side processing of the bearer token with set APE overrides
// must verify if a client is permitted to override chains for the target,
// preventing unauthorized access through the APE mechanism.
message APEOverride {
// Target for which chains are applied.
frostfs.v2.ape.ChainTarget target = 1 [ json_name = "target" ];
// The list of APE chains.
repeated frostfs.v2.ape.Chain chains = 2 [ json_name = "chains" ];
}
// APE override for the target.
APEOverride ape_override = 5 [ json_name = "apeOverride" ];
bool allow_impersonate = 4 [json_name="allowImpersonate"];
}
// Bearer Token body
Body body = 1 [ json_name = "body" ];
Body body = 1 [json_name="body"];
// Signature of BearerToken body
neo.fs.v2.refs.Signature signature = 2 [ json_name = "signature" ];
neo.fs.v2.refs.Signature signature = 2 [json_name="signature"];
}

View file

@ -1,33 +0,0 @@
syntax = "proto3";
package frostfs.v2.ape;
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/ape/grpc;ape";
// TargetType is a type target to which a rule chain is defined.
enum TargetType {
UNDEFINED = 0;
NAMESPACE = 1;
CONTAINER = 2;
USER = 3;
GROUP = 4;
}
// ChainTarget is an object to which a rule chain is defined.
message ChainTarget {
TargetType type = 1;
string name = 2;
}
// Chain is a chain of rules defined for a specific target.
message Chain {
oneof kind {
// Raw representation of a serizalized rule chain.
bytes raw = 1;
}
}

View file

@ -1,171 +0,0 @@
syntax = "proto3";
package frostfs.v2.apemanager;
import "ape/types.proto";
import "session/types.proto";
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/apemanager/grpc;apemanager";
// `APEManagerService` provides API to manage rule chains within sidechain's
// `Policy` smart contract.
service APEManagerService {
// Add a rule chain for a specific target to `Policy` smart contract.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// the chain has been successfully added;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// container (as target) not found;
// - **APE_MANAGER_ACCESS_DENIED** (5120, SECTION_APE_MANAGER): \
// the operation is denied by the service.
rpc AddChain(AddChainRequest) returns (AddChainResponse);
// Remove a rule chain for a specific target from `Policy` smart contract.
// RemoveChain is an idempotent operation: removal of non-existing rule chain
// also means success.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// the chain has been successfully removed;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// container (as target) not found;
// - **APE_MANAGER_ACCESS_DENIED** (5120, SECTION_APE_MANAGER): \
// the operation is denied by the service.
rpc RemoveChain(RemoveChainRequest) returns (RemoveChainResponse);
// List chains defined for a specific target from `Policy` smart contract.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// chains have been successfully listed;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// container (as target) not found;
// - **APE_MANAGER_ACCESS_DENIED** (5120, SECTION_APE_MANAGER): \
// the operation is denied by the service.
rpc ListChains(ListChainsRequest) returns (ListChainsResponse);
}
message AddChainRequest {
message Body {
// A target for which a rule chain is added.
frostfs.v2.ape.ChainTarget target = 1;
// The chain to set for the target.
frostfs.v2.ape.Chain chain = 2;
}
// The request's body.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
message AddChainResponse {
message Body {
// Chain ID assigned for the added rule chain.
// If chain ID is left empty in the request, then
// it will be generated.
bytes chain_id = 1;
}
// The response's body.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
message RemoveChainRequest {
message Body {
// Target for which a rule chain is removed.
frostfs.v2.ape.ChainTarget target = 1;
// Chain ID assigned for the rule chain.
bytes chain_id = 2;
}
// The request's body.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
message RemoveChainResponse {
// Since RemoveChain is an idempotent operation, then the only indicator that
// operation could not be performed is an error returning to a client.
message Body {}
// The response's body.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
message ListChainsRequest {
message Body {
// Target for which rule chains are listed.
frostfs.v2.ape.ChainTarget target = 1;
}
// The request's body.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
message ListChainsResponse {
message Body {
// The list of chains defined for the reqeusted target.
repeated frostfs.v2.ape.Chain chains = 1;
}
// The response's body.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}

59
audit/types.proto Normal file
View file

@ -0,0 +1,59 @@
syntax = "proto3";
package neo.fs.v2.audit;
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/audit/grpc;audit";
option csharp_namespace = "Neo.FileStorage.API.Audit";
import "refs/types.proto";
// DataAuditResult keeps record of conducted Data Audits. The detailed report is
// generated separately.
message DataAuditResult {
// Data Audit Result format version. Effectively, the version of API library
// used to report DataAuditResult structure.
neo.fs.v2.refs.Version version = 1 [json_name = "version"];
// Epoch number when the Data Audit was conducted
fixed64 audit_epoch = 2 [json_name = "auditEpoch"];
// Container under audit
neo.fs.v2.refs.ContainerID container_id = 3 [json_name = "containerID"];
// Public key of the auditing InnerRing node in a binary format
bytes public_key = 4 [json_name = "publicKey"];
// Shows if Data Audit process was complete in time or if it was cancelled
bool complete = 5 [json_name = "complete"];
// Number of request done at PoR stage
uint32 requests = 6 [json_name = "requests"];
// Number of retries done at PoR stage
uint32 retries = 7 [json_name = "retries"];
// List of Storage Groups that passed audit PoR stage
repeated neo.fs.v2.refs.ObjectID pass_sg = 8 [json_name = "passSG"];
// List of Storage Groups that failed audit PoR stage
repeated neo.fs.v2.refs.ObjectID fail_sg = 9 [json_name = "failSG"];
// Number of sampled objects under the audit placed in an optimal way according to
// the containers placement policy when checking PoP
uint32 hit = 10 [json_name = "hit"];
// Number of sampled objects under the audit placed in suboptimal way according to
// the containers placement policy, but still at a satisfactory level when
// checking PoP
uint32 miss = 11 [json_name = "miss"];
// Number of sampled objects under the audit stored inconsistently with the
// placement policy or not found at all when checking PoP
uint32 fail = 12 [json_name = "fail"];
// List of storage node public keys that passed at least one PDP
repeated bytes pass_nodes = 13 [json_name = "passNodes"];
// List of storage node public keys that failed at least one PDP
repeated bytes fail_nodes = 14 [json_name = "failNodes"];
}

10
buf.yaml Normal file
View file

@ -0,0 +1,10 @@
lint:
use:
- DEFAULT
- COMMENTS
- ENUM_FIRST_VALUE_ZERO
except:
- PACKAGE_DIRECTORY_MATCH
- PACKAGE_VERSION_SUFFIX
- ENUM_VALUE_PREFIX
- ENUM_ZERO_VALUE_SUFFIX

View file

@ -5,39 +5,36 @@ package neo.fs.v2.container;
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/container/grpc;container";
option csharp_namespace = "Neo.FileStorage.API.Container";
import "acl/types.proto";
import "container/types.proto";
import "refs/types.proto";
import "session/types.proto";
// `ContainerService` provides API to interact with `Container` smart contract
// in FrostFS sidechain via other FrostFS nodes. All of those actions can be
// done equivalently by directly issuing transactions and RPC calls to sidechain
// in NeoFS sidechain via other NeoFS nodes. All of those actions can be done
// equivalently by directly issuing transactions and RPC calls to sidechain
// nodes.
service ContainerService {
// `Put` invokes `Container` smart contract's `Put` method and returns
// response immediately. After a new block is issued in sidechain, request is
// verified by Inner Ring nodes. After one more block in sidechain, the
// container is added into smart contract storage.
// verified by Inner Ring nodes. After one more block in sidechain, the container
// is added into smart contract storage.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// request to save the container has been sent to the sidechain;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// container create access denied.
// - Common failures (SECTION_FAILURE_COMMON).
rpc Put(PutRequest) returns (PutResponse);
// `Delete` invokes `Container` smart contract's `Delete` method and returns
// response immediately. After a new block is issued in sidechain, request is
// verified by Inner Ring nodes. After one more block in sidechain, the
// container is added into smart contract storage.
// verified by Inner Ring nodes. After one more block in sidechain, the container
// is added into smart contract storage.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// request to remove the container has been sent to the sidechain;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// container delete access denied.
// - Common failures (SECTION_FAILURE_COMMON).
rpc Delete(DeleteRequest) returns (DeleteResponse);
// Returns container structure from `Container` smart contract storage.
@ -47,9 +44,7 @@ service ContainerService {
// container has been successfully read;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// requested container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied.
// requested container not found.
rpc Get(GetRequest) returns (GetResponse);
// Returns all owner's containers from 'Container` smart contract' storage.
@ -57,13 +52,42 @@ service ContainerService {
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// container list has been successfully read;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// container list access denied.
// - Common failures (SECTION_FAILURE_COMMON).
rpc List(ListRequest) returns (ListResponse);
// Invokes 'SetEACL' method of 'Container` smart contract and returns response
// immediately. After one more block in sidechain, changes in an Extended ACL are
// added into smart contract storage.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// request to save container eACL has been sent to the sidechain;
// - Common failures (SECTION_FAILURE_COMMON).
rpc SetExtendedACL(SetExtendedACLRequest) returns (SetExtendedACLResponse);
// Returns Extended ACL table and signature from `Container` smart contract
// storage.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// container eACL has been successfully read;
// - Common failures (SECTION_FAILURE_COMMON);
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// container not found;
// - **EACL_NOT_FOUND** (3073, SECTION_CONTAINER): \
// eACL table not found.
rpc GetExtendedACL(GetExtendedACLRequest) returns (GetExtendedACLResponse);
// Announces the space values used by the container for P2P synchronization.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// estimation of used space has been successfully announced;
// - Common failures (SECTION_FAILURE_COMMON).
rpc AnnounceUsedSpace(AnnounceUsedSpaceRequest) returns (AnnounceUsedSpaceResponse);
}
// New FrostFS Container creation request
// New NeoFS Container creation request
message PutRequest {
// Container creation request has container structure's signature as a
// separate field. It's not stored in sidechain, just verified on container
@ -71,7 +95,7 @@ message PutRequest {
// the stable-marshalled container strucutre, hence there is no need for
// additional signature checks.
message Body {
// Container structure to register in FrostFS
// Container structure to register in NeoFS
container.Container container = 1;
// Signature of a stable-marshalled container according to RFC-6979.
@ -90,7 +114,7 @@ message PutRequest {
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// New FrostFS Container creation response
// New NeoFS Container creation response
message PutResponse {
// Container put response body contains information about the newly registered
// container as seen by `Container` smart contract. `ContainerID` can be
@ -119,11 +143,10 @@ message DeleteRequest {
// the container owner's intent. The signature will be verified by `Container`
// smart contract, so signing algorithm must be supported by NeoVM.
message Body {
// Identifier of the container to delete from FrostFS
// Identifier of the container to delete from NeoFS
neo.fs.v2.refs.ContainerID container_id = 1;
// `ContainerID` signed with the container owner's key according to
// RFC-6979.
// `ContainerID` signed with the container owner's key according to RFC-6979.
neo.fs.v2.refs.SignatureRFC6979 signature = 2;
}
// Body of container delete request message.
@ -245,3 +268,150 @@ message ListResponse {
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
// Set Extended ACL
message SetExtendedACLRequest {
// Set Extended ACL request body does not have separate `ContainerID`
// reference. It will be taken from `EACLTable.container_id` field.
message Body {
// Extended ACL table to set for the container
neo.fs.v2.acl.EACLTable eacl = 1;
// Signature of stable-marshalled Extended ACL table according to RFC-6979.
neo.fs.v2.refs.SignatureRFC6979 signature = 2;
}
// Body of set extended acl request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// Set Extended ACL
message SetExtendedACLResponse {
// `SetExtendedACLResponse` has an empty body because the operation is
// asynchronous and the update should be reflected in `Container` smart contract's
// storage after next block is issued in sidechain.
message Body { }
// Body of set extended acl response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
// Get Extended ACL
message GetExtendedACLRequest {
// Get Extended ACL request body
message Body {
// Identifier of the container having Extended ACL
neo.fs.v2.refs.ContainerID container_id = 1;
}
// Body of get extended acl request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// Get Extended ACL
message GetExtendedACLResponse {
// Get Extended ACL Response body can be empty if the requested container does
// not have Extended ACL Table attached or Extended ACL has not been allowed at
// the time of container creation.
message Body {
// Extended ACL requested, if available
neo.fs.v2.acl.EACLTable eacl = 1;
// Signature of stable-marshalled Extended ACL according to RFC-6979.
neo.fs.v2.refs.SignatureRFC6979 signature = 2;
// Session token if Extended ACL was set within a session
neo.fs.v2.session.SessionToken session_token = 3;
}
// Body of get extended acl response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
// Announce container used space
message AnnounceUsedSpaceRequest {
// Container used space announcement body.
message Body {
// Announcement contains used space information for a single container.
message Announcement {
// Epoch number for which the container size estimation was produced.
uint64 epoch = 1;
// Identifier of the container.
neo.fs.v2.refs.ContainerID container_id = 2;
// Used space is a sum of object payload sizes of a specified
// container, stored in the node. It must not include inhumed objects.
uint64 used_space = 3;
}
// List of announcements. If nodes share several containers,
// announcements are transferred in a batch.
repeated Announcement announcements = 1;
}
// Body of announce used space request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// Announce container used space
message AnnounceUsedSpaceResponse {
// `AnnounceUsedSpaceResponse` has an empty body because announcements are
// one way communication.
message Body { }
// Body of announce used space response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}

View file

@ -10,26 +10,26 @@ import "refs/types.proto";
// Container is a structure that defines object placement behaviour. Objects can
// be stored only within containers. They define placement rule, attributes and
// access control information. An ID of a container is a 32 byte long SHA256
// hash of stable-marshalled container message.
// access control information. An ID of a container is a 32 byte long SHA256 hash
// of stable-marshalled container message.
message Container {
// Container format version. Effectively, the version of API library used to
// create the container.
neo.fs.v2.refs.Version version = 1 [ json_name = "version" ];
neo.fs.v2.refs.Version version = 1 [json_name = "version"];
// Identifier of the container owner
neo.fs.v2.refs.OwnerID owner_id = 2 [ json_name = "ownerID" ];
neo.fs.v2.refs.OwnerID owner_id = 2 [json_name = "ownerID"];
// Nonce is a 16 byte UUIDv4, used to avoid collisions of `ContainerID`s
bytes nonce = 3 [ json_name = "nonce" ];
bytes nonce = 3 [json_name = "nonce"];
// `BasicACL` contains access control rules for the owner, system and others
// groups, as well as permission bits for `BearerToken` and `Extended ACL`
uint32 basic_acl = 4 [ json_name = "basicACL" ];
// `BasicACL` contains access control rules for the owner, system and others groups,
// as well as permission bits for `BearerToken` and `Extended ACL`
uint32 basic_acl = 4 [json_name = "basicACL"];
// `Attribute` is a user-defined Key-Value metadata pair attached to the
// container. Container attributes are immutable. They are set at the moment
// of container creation and can never be added or updated.
// container. Container attributes are immutable. They are set at the moment of
// container creation and can never be added or updated.
//
// Key name must be a container-unique valid UTF-8 string. Value can't be
// empty. Containers with duplicated attribute names or attributes with empty
@ -43,16 +43,15 @@ message Container {
// NNS contract.
// * [ __SYSTEM__ZONE ] \
// (`__NEOFS__ZONE` is deprecated) \
// String of a zone for `__SYSTEM__NAME` (`__NEOFS__NAME` is deprecated).
// Used as a TLD of a domain name in NNS contract. If no zone is specified,
// use default zone: `container`.
// String of a zone for `__SYSTEM__NAME` (`__NEOFS__NAME` is deprecated). Used as a TLD of a domain name in NNS
// contract. If no zone is specified, use default zone: `container`.
// * [ __SYSTEM__DISABLE_HOMOMORPHIC_HASHING ] \
// (`__NEOFS__DISABLE_HOMOMORPHIC_HASHING` is deprecated) \
// Disables homomorphic hashing for the container if the value equals "true"
// string. Any other values are interpreted as missing attribute. Container
// could be accepted in a FrostFS network only if the global network hashing
// configuration value corresponds with that attribute's value. After
// container inclusion, network setting is ignored.
// Disables homomorphic hashing for the container if the value equals "true" string.
// Any other values are interpreted as missing attribute. Container could be
// accepted in a NeoFS network only if the global network hashing configuration
// value corresponds with that attribute's value. After container inclusion, network
// setting is ignored.
//
// And some well-known attributes used by applications only:
//
@ -62,15 +61,14 @@ message Container {
// User-defined local time of container creation in Unix Timestamp format
message Attribute {
// Attribute name key
string key = 1 [ json_name = "key" ];
string key = 1 [json_name = "key"];
// Attribute value
string value = 2 [ json_name = "value" ];
string value = 2 [json_name = "value"];
}
// Attributes represent immutable container's meta data
repeated Attribute attributes = 5 [ json_name = "attributes" ];
repeated Attribute attributes = 5 [json_name = "attributes"];
// Placement policy for the object inside the container
neo.fs.v2.netmap.PlacementPolicy placement_policy = 6
[ json_name = "placementPolicy" ];
neo.fs.v2.netmap.PlacementPolicy placement_policy = 6 [json_name = "placementPolicy"];
}

View file

@ -1,6 +1,6 @@
# Release instructions
This documents outlines the frostfs-api release process and can be used as a TODO
This documents outlines the neofs-api release process and can be used as a TODO
list for a new release.
## Pre-release checks
@ -20,7 +20,7 @@ Add an entry to the CHANGELOG.md following the style established there.
Add a codename for releases with the new major version, version and release date in
the heading. Write a paragraph describing the most significant changes done in
this release. Then add sections with what has been added, changed and removed,
describing each change briefly with a reference to issues, where
describing each change briefly with a reference to GitHub issues, where
available.
## Release commit
@ -38,7 +38,7 @@ Release v2.9.0 - Anmyeondo (안면도, 安眠島)
Use `vX.Y.Z` tag following the semantic versioning standard. For pre-release
versions use `vX.Y.Z-rc.N` scheme.
## Push changes and release tag to repository
## Push changes and release tag to Github
This step should bypass the default PR mechanism to get a correct result (so
that releasing requires admin privileges for the project), both the `master`
@ -48,9 +48,9 @@ branch update and tag must be pushed simultaneously like this:
$ git push origin master v2.7.0
```
## Make a proper release
## Make a proper Github release
Edit an automatically-created release on git.frostfs.info
Edit an automatically-created release on Github.
Release title has to follow `<version> <Romanized codename> (<Hangeul, Hanja
codename> )` scheme for major releases and just `<version>` for regular point
@ -58,5 +58,6 @@ releases.
## Post-release actions
* Close corresponding X.Y.Z milestone
* Close corresponding X.Y.Z Github milestone
* Make announcements in Matrix and Discord channels
* Update [NeoFS Technical Specification](https://github.com/nspcc-dev/neofs-spec)

11
help.mk
View file

@ -1,11 +0,0 @@
.PHONY: help
# Show this help prompt
help:
@echo ' Usage:'
@echo ''
@echo ' make <target>'
@echo ''
@echo ' Targets:'
@echo ''
@awk '/^#/{ comment = substr($$0,3) } /^[a-zA-Z][a-zA-Z0-9_-]+:/{ print " ", $$1, comment; comment = "" }' $(MAKEFILE_LIST) | column -t -s ':' | grep -v 'IGNORE' | sort | uniq

View file

@ -9,11 +9,10 @@ import "refs/types.proto";
// Lock objects protects a list of objects from being deleted. The lifetime of a
// lock object is limited similar to regular objects in
// `__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated)
// attribute. Lock object MUST have expiration epoch. It is impossible to delete
// a lock object via ObjectService.Delete RPC call.
// `__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated) attribute. Lock object MUST have expiration epoch.
// It is impossible to delete a lock object via ObjectService.Delete RPC call.
message Lock {
// List of objects to lock. Must not be empty or carry empty IDs.
// All members must be of the `REGULAR` type.
repeated neo.fs.v2.refs.ObjectID members = 1 [ json_name = "members" ];
repeated neo.fs.v2.refs.ObjectID members = 1 [json_name = "members"];
}

View file

@ -9,45 +9,45 @@ import "netmap/types.proto";
import "refs/types.proto";
import "session/types.proto";
// `NetmapService` provides methods to work with `Network Map` and the
// information required to build it. The resulting `Network Map` is stored in
// sidechain `Netmap` smart contract, while related information can be obtained
// from other FrostFS nodes.
// `NetmapService` provides methods to work with `Network Map` and the information
// required to build it. The resulting `Network Map` is stored in sidechain
// `Netmap` smart contract, while related information can be obtained from other
// NeoFS nodes.
service NetmapService {
// Get NodeInfo structure from the particular node directly.
// Node information can be taken from `Netmap` smart contract. In some cases,
// though, one may want to get recent information directly or to talk to the
// node not yet present in the `Network Map` to find out what API version can
// be used for further communication. This can be also used to check if a node
// is up and running.
// Node information can be taken from `Netmap` smart contract. In some cases, though,
// one may want to get recent information directly or to talk to the node not yet
// present in the `Network Map` to find out what API version can be used for
// further communication. This can be also used to check if a node is up and running.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS):
// information about the server has been successfully read;
// - Common failures (SECTION_FAILURE_COMMON).
rpc LocalNodeInfo(LocalNodeInfoRequest) returns (LocalNodeInfoResponse);
rpc LocalNodeInfo (LocalNodeInfoRequest) returns (LocalNodeInfoResponse);
// Read recent information about the FrostFS network.
// Read recent information about the NeoFS network.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS):
// information about the current network state has been successfully read;
// - Common failures (SECTION_FAILURE_COMMON).
rpc NetworkInfo(NetworkInfoRequest) returns (NetworkInfoResponse);
rpc NetworkInfo (NetworkInfoRequest) returns (NetworkInfoResponse);
// Returns network map snapshot of the current FrostFS epoch.
// Returns network map snapshot of the current NeoFS epoch.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS):
// information about the current network map has been successfully read;
// - Common failures (SECTION_FAILURE_COMMON).
rpc NetmapSnapshot(NetmapSnapshotRequest) returns (NetmapSnapshotResponse);
rpc NetmapSnapshot (NetmapSnapshotRequest) returns (NetmapSnapshotResponse);
}
// Get NodeInfo structure directly from a particular node
message LocalNodeInfoRequest {
// LocalNodeInfo request body is empty.
message Body {}
message Body {
}
// Body of the LocalNodeInfo request message
Body body = 1;
@ -65,7 +65,7 @@ message LocalNodeInfoRequest {
message LocalNodeInfoResponse {
// Local Node Info, including API Version in use.
message Body {
// Latest FrostFS API version in use
// Latest NeoFS API version in use
neo.fs.v2.refs.Version version = 1;
// NodeInfo structure with recent information from node itself
@ -86,77 +86,81 @@ message LocalNodeInfoResponse {
// Get NetworkInfo structure with the network view from a particular node.
message NetworkInfoRequest {
// NetworkInfo request body is empty.
message Body {}
// Body of the NetworkInfo request message
Body body = 1;
// NetworkInfo request body is empty.
message Body {
}
// Body of the NetworkInfo request message
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// Response with NetworkInfo structure including current epoch and
// sidechain magic number.
message NetworkInfoResponse {
// Information about the network.
message Body {
// NetworkInfo structure with recent information.
NetworkInfo network_info = 1;
}
// Body of the NetworkInfo response message.
Body body = 1;
// Information about the network.
message Body {
// NetworkInfo structure with recent information.
NetworkInfo network_info = 1;
}
// Body of the NetworkInfo response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect response execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect response execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
// Get netmap snapshot request
message NetmapSnapshotRequest {
// Get netmap snapshot request body.
message Body {}
// Get netmap snapshot request body.
message Body {
}
// Body of get netmap snapshot request message.
Body body = 1;
// Body of get netmap snapshot request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// Response with current netmap snapshot
message NetmapSnapshotResponse {
// Get netmap snapshot response body
message Body {
// Structure of the requested network map.
Netmap netmap = 1 [ json_name = "netmap" ];
}
// Get netmap snapshot response body
message Body {
// Structure of the requested network map.
Netmap netmap = 1 [json_name = "netmap"];
}
// Body of get netmap snapshot response message.
Body body = 1;
// Body of get netmap snapshot response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect response execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect response execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}

View file

@ -36,9 +36,6 @@ enum Operation {
// Logical negation
NOT = 9;
// Matches pattern
LIKE = 10;
}
// Selector modifier shows how the node set will be formed. By default selector
@ -55,46 +52,46 @@ enum Clause {
DISTINCT = 2;
}
// This filter will return the subset of nodes from `NetworkMap` or another
// filter's results that will satisfy filter's conditions.
// This filter will return the subset of nodes from `NetworkMap` or another filter's
// results that will satisfy filter's conditions.
message Filter {
// Name of the filter or a reference to a named filter. '*' means
// application to the whole unfiltered NetworkMap. At top level it's used as a
// filter name. At lower levels it's considered to be a reference to another
// named filter
string name = 1 [ json_name = "name" ];
string name = 1 [json_name = "name"];
// Key to filter
string key = 2 [ json_name = "key" ];
string key = 2 [json_name = "key"];
// Filtering operation
Operation op = 3 [ json_name = "op" ];
Operation op = 3 [json_name = "op"];
// Value to match
string value = 4 [ json_name = "value" ];
string value = 4 [json_name = "value"];
// List of inner filters. Top level operation will be applied to the whole
// list.
repeated Filter filters = 5 [ json_name = "filters" ];
repeated Filter filters = 5 [json_name = "filters"];
}
// Selector chooses a number of nodes from the bucket taking the nearest nodes
// to the provided `ContainerID` by hash distance.
message Selector {
// Selector name to reference in object placement section
string name = 1 [ json_name = "name" ];
string name = 1 [json_name = "name"];
// How many nodes to select from the bucket
uint32 count = 2 [ json_name = "count" ];
uint32 count = 2 [json_name = "count"];
// Selector modifier showing how to form a bucket
Clause clause = 3 [ json_name = "clause" ];
Clause clause = 3 [json_name = "clause"];
// Bucket attribute to select from
string attribute = 4 [ json_name = "attribute" ];
string attribute = 4 [json_name = "attribute"];
// Filter reference to select from
string filter = 5 [ json_name = "filter" ];
string filter = 5 [json_name = "filter"];
}
// Number of object replicas in a set of nodes from the defined selector. If no
@ -102,16 +99,10 @@ message Selector {
// default.
message Replica {
// How many object replicas to put
uint32 count = 1 [ json_name = "count" ];
uint32 count = 1 [json_name = "count"];
// Named selector bucket to put replicas
string selector = 2 [ json_name = "selector" ];
// Data shards count
uint32 ec_data_count = 3 [ json_name = "ecDataCount" ];
// Parity shards count
uint32 ec_parity_count = 4 [ json_name = "ecParityCount" ];
string selector = 2 [json_name = "selector"];
}
// Set of rules to select a subset of nodes from `NetworkMap` able to store
@ -120,45 +111,45 @@ message Replica {
message PlacementPolicy {
// Rules to set number of object replicas and place each one into a named
// bucket
repeated Replica replicas = 1 [ json_name = "replicas" ];
repeated Replica replicas = 1 [json_name = "replicas"];
// Container backup factor controls how deep FrostFS will search for nodes
// Container backup factor controls how deep NeoFS will search for nodes
// alternatives to include into container's nodes subset
uint32 container_backup_factor = 2 [ json_name = "containerBackupFactor" ];
uint32 container_backup_factor = 2 [json_name = "containerBackupFactor"];
// Set of Selectors to form the container's nodes subset
repeated Selector selectors = 3 [ json_name = "selectors" ];
repeated Selector selectors = 3 [json_name = "selectors"];
// List of named filters to reference in selectors
repeated Filter filters = 4 [ json_name = "filters" ];
repeated Filter filters = 4 [json_name = "filters"];
// Unique flag defines non-overlapping application for replicas
bool unique = 5 [ json_name = "unique" ];
bool unique = 5 [json_name = "unique"];
}
// FrostFS node description
// NeoFS node description
message NodeInfo {
// Public key of the FrostFS node in a binary format
bytes public_key = 1 [ json_name = "publicKey" ];
// Public key of the NeoFS node in a binary format
bytes public_key = 1 [json_name = "publicKey"];
// Ways to connect to a node
repeated string addresses = 2 [ json_name = "addresses" ];
repeated string addresses = 2 [json_name = "addresses"];
// Administrator-defined Attributes of the FrostFS Storage Node.
// Administrator-defined Attributes of the NeoFS Storage Node.
//
// `Attribute` is a Key-Value metadata pair. Key name must be a valid UTF-8
// string. Value can't be empty.
//
// Attributes can be constructed into a chain of attributes: any attribute can
// have a parent attribute and a child attribute (except the first and the
// last one). A string representation of the chain of attributes in FrostFS
// Storage Node configuration uses ":" and "/" symbols, e.g.:
// have a parent attribute and a child attribute (except the first and the last
// one). A string representation of the chain of attributes in NeoFS Storage
// Node configuration uses ":" and "/" symbols, e.g.:
//
// `FrostFS_NODE_ATTRIBUTE_1=key1:val1/key2:val2`
// `NEOFS_NODE_ATTRIBUTE_1=key1:val1/key2:val2`
//
// Therefore the string attribute representation in the Node configuration
// must use "\:", "\/" and "\\" escaped symbols if any of them appears in an
// attribute's key or value.
// Therefore the string attribute representation in the Node configuration must
// use "\:", "\/" and "\\" escaped symbols if any of them appears in an attribute's
// key or value.
//
// Node's attributes are mostly used during Storage Policy evaluation to
// calculate object's placement and find a set of nodes satisfying policy
@ -201,8 +192,8 @@ message NodeInfo {
// [ISO 3166-2](https://en.wikipedia.org/wiki/ISO_3166-2). Calculated
// automatically from `UN-LOCODE` attribute.
// * Continent \
// Node's continent name according to the [Seven-Continent
// model](https://en.wikipedia.org/wiki/Continent#Number). Calculated
// Node's continent name according to the [Seven-Continent model]
// (https://en.wikipedia.org/wiki/Continent#Number). Calculated
// automatically from `UN-LOCODE` attribute.
// * ExternalAddr
// Node's preferred way for communications with external clients.
@ -210,25 +201,25 @@ message NodeInfo {
// Must contain a comma-separated list of multi-addresses.
//
// For detailed description of each well-known attribute please see the
// corresponding section in FrostFS Technical Specification.
// corresponding section in NeoFS Technical Specification.
message Attribute {
// Key of the node attribute
string key = 1 [ json_name = "key" ];
string key = 1 [json_name = "key"];
// Value of the node attribute
string value = 2 [ json_name = "value" ];
string value = 2 [json_name = "value"];
// Parent keys, if any. For example for `City` it could be `Region` and
// `Country`.
repeated string parents = 3 [ json_name = "parents" ];
repeated string parents = 3 [json_name = "parents"];
}
// Carries list of the FrostFS node attributes in a key-value form. Key name
// Carries list of the NeoFS node attributes in a key-value form. Key name
// must be a node-unique valid UTF-8 string. Value can't be empty. NodeInfo
// structures with duplicated attribute names or attributes with empty values
// will be considered invalid.
repeated Attribute attributes = 3 [ json_name = "attributes" ];
repeated Attribute attributes = 3 [json_name = "attributes"];
// Represents the enumeration of various states of the FrostFS node.
// Represents the enumeration of various states of the NeoFS node.
enum State {
// Unknown state
UNSPECIFIED = 0;
@ -243,20 +234,20 @@ message NodeInfo {
MAINTENANCE = 3;
}
// Carries state of the FrostFS node
State state = 4 [ json_name = "state" ];
// Carries state of the NeoFS node
State state = 4 [json_name = "state"];
}
// Network map structure
message Netmap {
// Network map revision number.
uint64 epoch = 1 [ json_name = "epoch" ];
// Network map revision number.
uint64 epoch = 1 [json_name = "epoch"];
// Nodes presented in network.
repeated NodeInfo nodes = 2 [ json_name = "nodes" ];
// Nodes presented in network.
repeated NodeInfo nodes = 2 [json_name = "nodes"];
}
// FrostFS network configuration
// NeoFS network configuration
message NetworkConfig {
// Single configuration parameter. Key MUST be network-unique.
//
@ -275,7 +266,7 @@ message NetworkConfig {
// Fee paid for container creation by the container owner.
// Value: little-endian integer. Default: 0.
// - **EpochDuration** \
// FrostFS epoch duration measured in Sidechain blocks.
// NeoFS epoch duration measured in Sidechain blocks.
// Value: little-endian integer. Default: 0.
// - **HomomorphicHashingDisabled** \
// Flag of disabling the homomorphic hashing of objects' payload.
@ -287,71 +278,33 @@ message NetworkConfig {
// Flag allowing setting the MAINTENANCE state to storage nodes.
// Value: true if any byte != 0. Default: false.
// - **MaxObjectSize** \
// Maximum size of physically stored FrostFS object measured in bytes.
// Maximum size of physically stored NeoFS object measured in bytes.
// Value: little-endian integer. Default: 0.
//
// This value refers to the maximum size of a **physically** stored object
// in FrostFS. However, from a user's perspective, the **logical** size of a
// stored object can be significantly larger. The relationship between the
// physical and logical object sizes is governed by the following formula
//
// ```math
// \mathrm{Stored\ Object\ Size} \le
// \frac{
// \left(\mathrm{Max\ Object\ Size}\right)^2
// }{
// \mathrm{Object\ ID\ Size}
// }
// ```
//
// This arises from the fact that a tombstone, also being an object, stores
// the IDs of inhumed objects and cannot be divided into smaller objects,
// thus having an upper limit for its size.
//
// For example, if:
// * Max Object Size Size = 64 MiB;
// * Object ID Size = 32 B;
//
// then:
// ```math
// \mathrm{Stored\ Object\ Size} \le
// \frac{\left(64\ \mathrm{MiB}\right)^2}{32\ \mathrm{B}} =
// \frac{2^{52}}{2^5}\ \mathrm{B} =
// 2^{47}\ \mathrm{B} =
// 128\ \mathrm{TiB}
// ```
// - **WithdrawFee** \
// Fee paid for withdrawal of funds paid by the account owner.
// Value: little-endian integer. Default: 0.
// - **MaxECDataCount** \
// Maximum number of data shards for EC placement policy.
// Value: little-endian integer. Default: 0.
// - **MaxECParityCount** \
// Maximum number of parity shards for EC placement policy.
// Value: little-endian integer. Default: 0.
message Parameter {
// Parameter key. UTF-8 encoded string
bytes key = 1 [ json_name = "key" ];
bytes key = 1 [json_name = "key"];
// Parameter value
bytes value = 2 [ json_name = "value" ];
bytes value = 2 [json_name = "value"];
}
// List of parameter values
repeated Parameter parameters = 1 [ json_name = "parameters" ];
repeated Parameter parameters = 1 [json_name = "parameters"];
}
// Information about FrostFS network
// Information about NeoFS network
message NetworkInfo {
// Number of the current epoch in the FrostFS network
uint64 current_epoch = 1 [ json_name = "currentEpoch" ];
// Number of the current epoch in the NeoFS network
uint64 current_epoch = 1 [json_name = "currentEpoch"];
// Magic number of the sidechain of the FrostFS network
uint64 magic_number = 2 [ json_name = "magicNumber" ];
// Magic number of the sidechain of the NeoFS network
uint64 magic_number = 2 [json_name = "magicNumber"];
// MillisecondsPerBlock network parameter of the sidechain of the FrostFS
// network
int64 ms_per_block = 3 [ json_name = "msPerBlock" ];
// MillisecondsPerBlock network parameter of the sidechain of the NeoFS network
int64 ms_per_block = 3 [json_name = "msPerBlock"];
// FrostFS network configuration
NetworkConfig network_config = 4 [ json_name = "networkConfig" ];
// NeoFS network configuration
NetworkConfig network_config = 4 [json_name = "networkConfig"];
}

View file

@ -13,11 +13,11 @@ import "session/types.proto";
// not affect the sidechain and are only served by nodes in p2p style.
service ObjectService {
// Receive full object structure, including Headers and payload. Response uses
// gRPC stream. First response message carries the object with the requested
// address. Chunk messages are parts of the object's payload if it is needed.
// All messages, except the first one, carry payload chunks. The requested
// object can be restored by concatenation of object message payload and all
// chunks keeping the receiving order.
// gRPC stream. First response message carries the object with the requested address.
// Chunk messages are parts of the object's payload if it is needed. All
// messages, except the first one, carry payload chunks. The requested object can
// be restored by concatenation of object message payload and all chunks
// keeping the receiving order.
//
// Extended headers can change `Get` behaviour:
// * [ __SYSTEM__NETMAP_EPOCH ] \
@ -26,10 +26,9 @@ service ObjectService {
// calculation.
// * [ __SYSTEM__NETMAP_LOOKUP_DEPTH ] \
// (`__NEOFS__NETMAP_LOOKUP_DEPTH` is deprecated) \
// Will try older versions (starting from `__SYSTEM__NETMAP_EPOCH`
// (`__NEOFS__NETMAP_EPOCH` is deprecated) if specified or the latest one
// otherwise) of Network Map to find an object until the depth limit is
// reached.
// Will try older versions (starting from `__SYSTEM__NETMAP_EPOCH` (`__NEOFS__NETMAP_EPOCH` is deprecated) if specified or
// the latest one otherwise) of Network Map to find an object until the depth
// limit is reached.
//
// Please refer to detailed `XHeader` description.
//
@ -45,8 +44,6 @@ service ObjectService {
// the requested object has been marked as deleted;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc Get(GetRequest) returns (stream GetResponse);
@ -73,18 +70,15 @@ service ObjectService {
// - **ACCESS_DENIED** (2048, SECTION_OBJECT): \
// write access to the container is denied;
// - **LOCKED** (2050, SECTION_OBJECT): \
// placement of an object of type TOMBSTONE that includes at least one
// locked object is prohibited;
// placement of an object of type TOMBSTONE that includes at least one locked
// object is prohibited;
// - **LOCK_NON_REGULAR_OBJECT** (2051, SECTION_OBJECT): \
// placement of an object of type LOCK that includes at least one object of
// type other than REGULAR is prohibited;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object storage container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_NOT_FOUND** (4096, SECTION_SESSION): \
// (for trusted object preparation) session private key does not exist or
// has
// (for trusted object preparation) session private key does not exist or has
// been deleted;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
@ -107,15 +101,10 @@ service ObjectService {
// - Common failures (SECTION_FAILURE_COMMON);
// - **ACCESS_DENIED** (2048, SECTION_OBJECT): \
// delete access to the object is denied;
// - **OBJECT_NOT_FOUND** (2049, SECTION_OBJECT): \
// the object could not be deleted because it has not been \
// found within the container;
// - **LOCKED** (2050, SECTION_OBJECT): \
// deleting a locked object is prohibited;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc Delete(DeleteRequest) returns (DeleteResponse);
@ -144,14 +133,12 @@ service ObjectService {
// the requested object has been marked as deleted;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc Head(HeadRequest) returns (HeadResponse);
// Search objects in container. Search query allows to match by Object
// Header's filed values. Please see the corresponding FrostFS Technical
// Header's filed values. Please see the corresponding NeoFS Technical
// Specification section for more details.
//
// Extended headers can change `Search` behaviour:
@ -170,16 +157,14 @@ service ObjectService {
// access to operation SEARCH of the object is denied;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// search container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc Search(SearchRequest) returns (stream SearchResponse);
// Get byte range of data payload. Range is set as an (offset, length) tuple.
// Like in `Get` method, the response uses gRPC stream. Requested range can be
// restored by concatenation of all received payload chunks keeping the
// receiving order.
// restored by concatenation of all received payload chunks keeping the receiving
// order.
//
// Extended headers can change `GetRange` behaviour:
// * [ __SYSTEM__NETMAP_EPOCH ] \
@ -207,8 +192,6 @@ service ObjectService {
// the requested range is out of bounds;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc GetRange(GetRangeRequest) returns (stream GetRangeResponse);
@ -242,96 +225,9 @@ service ObjectService {
// the requested range is out of bounds;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc GetRangeHash(GetRangeHashRequest) returns (GetRangeHashResponse);
// Put the prepared object into container.
// `ContainerID`, `ObjectID`, `OwnerID`, `PayloadHash` and `PayloadLength` of
// an object MUST be set.
//
// Extended headers can change `Put` behaviour:
// * [ __SYSTEM__NETMAP_EPOCH \
// (`__NEOFS__NETMAP_EPOCH` is deprecated) \
// Will use the requested version of Network Map for object placement
// calculation.
//
// Please refer to detailed `XHeader` description.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// object has been successfully saved in the container;
// - Common failures (SECTION_FAILURE_COMMON);
// - **ACCESS_DENIED** (2048, SECTION_OBJECT): \
// write access to the container is denied;
// - **LOCKED** (2050, SECTION_OBJECT): \
// placement of an object of type TOMBSTONE that includes at least one
// locked object is prohibited;
// - **LOCK_NON_REGULAR_OBJECT** (2051, SECTION_OBJECT): \
// placement of an object of type LOCK that includes at least one object of
// type other than REGULAR is prohibited;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object storage container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_NOT_FOUND** (4096, SECTION_SESSION): \
// (for trusted object preparation) session private key does not exist or
// has
// been deleted;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc PutSingle(PutSingleRequest) returns (PutSingleResponse);
// Patch the object. Request uses gRPC stream. First message must set
// the address of the object that is going to get patched. If the object's
// attributes are patched, then these attrubutes must be set only within the
// first stream message.
//
// If the patch request is performed by NOT the object's owner but if the
// actor has the permission to perform the patch, then `OwnerID` of the object
// is changed. In this case the object's owner loses the object's ownership
// after the patch request is successfully done.
//
// As objects are content-addressable the patching causes new object ID
// generation for the patched object. This object id is set witihn
// `PatchResponse`. But the object id may remain unchanged in such cases:
// 1. The chunk of the applying patch contains the same value as the object's
// payload within the same range;
// 2. The patch that reverts the changes applied by preceding patch;
// 3. The application of the same patches for the object a few times.
//
// Extended headers can change `Patch` behaviour:
// * [ __SYSTEM__NETMAP_EPOCH \
// (`__NEOFS__NETMAP_EPOCH` is deprecated) \
// Will use the requsted version of Network Map for object placement
// calculation.
//
// Please refer to detailed `XHeader` description.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// object has been successfully patched and saved in the container;
// - Common failures (SECTION_FAILURE_COMMON);
// - **ACCESS_DENIED** (2048, SECTION_OBJECT): \
// write access to the container is denied;
// - **OBJECT_NOT_FOUND** (2049, SECTION_OBJECT): \
// object not found in container;
// - **OBJECT_ALREADY_REMOVED** (2052, SECTION_OBJECT): \
// the requested object has been marked as deleted.
// - **OUT_OF_RANGE** (2053, SECTION_OBJECT): \
// the requested range is out of bounds;
// - **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
// object storage container not found;
// - **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
// access to container is denied;
// - **TOKEN_NOT_FOUND** (4096, SECTION_SESSION): \
// (for trusted object preparation) session private key does not exist or
// has been deleted;
// - **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
// provided session token has expired.
rpc Patch(stream PatchRequest) returns (PatchResponse);
}
// GET object request
@ -384,9 +280,6 @@ message GetResponse {
// Meta information of split hierarchy for object assembly.
SplitInfo split_info = 3;
// Meta information for EC object assembly.
ECInfo ec_info = 4;
}
}
// Body of get object response message.
@ -418,16 +311,16 @@ message PutRequest {
// Object's Header
Header header = 3;
// Number of copies of the object to store within the RPC call. By
// default, object is processed according to the container's placement
// policy. Can be one of:
// Number of copies of the object to store within the RPC call. By default,
// object is processed according to the container's placement policy.
// Can be one of:
// 1. A single number; applied to the whole request and is treated as
// a minimal number of nodes that must store an object to complete the
// request successfully.
// 2. An ordered array; every number is treated as a minimal number of
// nodes in a corresponding placement vector that must store an object
// to complete the request successfully. The length MUST equal the
// placement vectors number, otherwise request is considered malformed.
// to complete the request successfully. The length MUST equal the placement
// vectors number, otherwise request is considered malformed.
repeated uint32 copies_number = 4;
}
// Single message in the request stream.
@ -478,7 +371,7 @@ message DeleteRequest {
message Body {
// Address of the object to be deleted
neo.fs.v2.refs.Address address = 1;
}
}
// Body of delete object request message.
Body body = 1;
@ -550,10 +443,10 @@ message HeadRequest {
// 3. Check if `ObjectID` signature in `signature` field is correct
message HeaderWithSignature {
// Full object header
Header header = 1 [ json_name = "header" ];
Header header = 1 [json_name = "header"];
// Signed `ObjectID` to verify full header's authenticity
neo.fs.v2.refs.Signature signature = 2 [ json_name = "signature" ];
neo.fs.v2.refs.Signature signature = 2 [json_name = "signature"];
}
// Object HEAD response
@ -562,7 +455,7 @@ message HeadResponse {
message Body {
// Requested object header, it's part or meta information about split
// object.
oneof head {
oneof head{
// Full object's `Header` with `ObjectID` signature
HeaderWithSignature header = 1;
@ -571,9 +464,6 @@ message HeadResponse {
// Meta information of split hierarchy.
SplitInfo split_info = 3;
// Meta information for EC object assembly.
ECInfo ec_info = 4;
}
}
// Body of head object response message.
@ -598,11 +488,11 @@ message SearchRequest {
// Version of the Query Language used
uint32 version = 2;
// Filter structure checks if the object header field or the attribute
// content matches a value.
// Filter structure checks if the object header field or the attribute content
// matches a value.
//
// If no filters are set, search request will return all objects of the
// container, including Regular object and Tombstone
// container, including Regular object, Tombstones and Storage Group
// objects. Most human users expect to get only object they can directly
// work with. In that case, `$Object:ROOT` filter should be used.
//
@ -632,19 +522,16 @@ message SearchRequest {
// object_id of parent
// * $Object:split.splitID \
// 16 byte UUIDv4 used to identify the split object hierarchy parts
// * $Object:ec.parent \
// If the object is stored according to EC policy, then ec_parent
// attribute is set to return an id list of all related EC chunks.
//
// There are some well-known filter aliases to match objects by certain
// properties:
//
// * $Object:ROOT \
// Returns only `REGULAR` type objects that are not split or that are the
// top level root objects in a split hierarchy. This includes objects not
// Returns only `REGULAR` type objects that are not split or that are the top
// level root objects in a split hierarchy. This includes objects not
// present physically, like large objects split into smaller objects
// without a separate top-level root object. Objects of other types like
// Locks and Tombstones will not be shown. This filter may be
// StorageGroups and Tombstones will not be shown. This filter may be
// useful for listing objects like `ls` command of some virtual file
// system. This filter is activated if the `key` exists, disregarding the
// value and matcher type.
@ -653,17 +540,17 @@ message SearchRequest {
// activated if the `key` exists, disregarding the value and matcher type.
//
// Note: using filters with a key with prefix `$Object:` and match type
// `NOT_PRESENT `is not recommended since this is not a cross-version
// approach. Behavior when processing this kind of filters is undefined.
// `NOT_PRESENT `is not recommended since this is not a cross-version approach.
// Behavior when processing this kind of filters is undefined.
message Filter {
// Match type to use
MatchType match_type = 1 [ json_name = "matchType" ];
MatchType match_type = 1 [json_name = "matchType"];
// Attribute or Header fields to match
string key = 2 [ json_name = "key" ];
string key = 2 [json_name = "key"];
// Value to match
string value = 3 [ json_name = "value" ];
string value = 3 [json_name = "value"];
}
// List of search expressions
repeated Filter filters = 3;
@ -746,15 +633,12 @@ message GetRangeResponse {
// chunks.
message Body {
// Requested object range or meta information about split object.
oneof range_part {
oneof range_part{
// Chunked object payload's range.
bytes chunk = 1;
// Meta information of split hierarchy.
SplitInfo split_info = 2;
// Meta information for EC object assembly.
ECInfo ec_info = 3;
}
}
@ -822,118 +706,3 @@ message GetRangeHashResponse {
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
// Object PUT Single request
message PutSingleRequest {
// PUT Single request body
message Body {
// Prepared object with payload.
Object object = 1;
// Number of copies of the object to store within the RPC call. By default,
// object is processed according to the container's placement policy.
// Every number is treated as a minimal number of
// nodes in a corresponding placement vector that must store an object
// to complete the request successfully. The length MUST equal the placement
// vectors number, otherwise request is considered malformed.
repeated uint32 copies_number = 2;
}
// Body of put single object request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// Object PUT Single response
message PutSingleResponse {
// PUT Single Object response body
message Body {}
// Body of put single object response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}
// Object PATCH request
message PatchRequest {
// PATCH request body
message Body {
// The address of the object that is requested to get patched.
neo.fs.v2.refs.Address address = 1;
// New attributes for the object. See `replace_attributes` flag usage to
// define how new attributes should be set.
repeated neo.fs.v2.object.Header.Attribute new_attributes = 2;
// If this flag is set, then the object's attributes will be entirely
// replaced by `new_attributes` list. The empty `new_attributes` list with
// `replace_attributes = true` just resets attributes list for the object.
//
// Default `false` value for this flag means the attributes will be just
// merged. If the incoming `new_attributes` list contains already existing
// key, then it just replaces it while merging the lists.
bool replace_attributes = 3;
// The patch for the object's payload.
message Patch {
// The range of the source object for which the payload is replaced by the
// patch's chunk. If the range's `length = 0`, then the patch's chunk is
// just appended to the original payload starting from the `offest`
// without any replace.
Range source_range = 1;
// The chunk that is being appended to or that replaces the original
// payload on the given range.
bytes chunk = 2;
}
// The patch that is applied for the object.
Patch patch = 4;
}
// Body for patch request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.RequestMetaHeader meta_header = 2;
// Carries request verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.RequestVerificationHeader verify_header = 3;
}
// Object PATCH response
message PatchResponse {
// PATCH response body
message Body {
// The object ID of the saved patched object.
neo.fs.v2.refs.ObjectID object_id = 1;
}
// Body for patch response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
neo.fs.v2.session.ResponseMetaHeader meta_header = 2;
// Carries response verification information. This header is used to
// authenticate the nodes of the message route and check the correctness of
// transmission.
neo.fs.v2.session.ResponseVerificationHeader verify_header = 3;
}

View file

@ -9,12 +9,13 @@ import "refs/types.proto";
import "session/types.proto";
// Type of the object payload content. Only `REGULAR` type objects can be split,
// hence `TOMBSTONE` and `LOCK` payload is limited by the
// maximum object size.
// hence `TOMBSTONE`, `STORAGE_GROUP` and `LOCK` payload is limited by the maximum
// object size.
//
// String presentation of object type is the same as definition:
// * REGULAR
// * TOMBSTONE
// * STORAGE_GROUP
// * LOCK
enum ObjectType {
// Just a normal object
@ -23,8 +24,8 @@ enum ObjectType {
// Used internally to identify deleted objects
TOMBSTONE = 1;
// Unused (previously storageGroup information)
// _ = 2;
// StorageGroup information
STORAGE_GROUP = 2;
// Object lock
LOCK = 3;
@ -52,62 +53,59 @@ enum MatchType {
message ShortHeader {
// Object format version. Effectively, the version of API library used to
// create particular object.
neo.fs.v2.refs.Version version = 1 [ json_name = "version" ];
neo.fs.v2.refs.Version version = 1 [json_name = "version"];
// Epoch when the object was created
uint64 creation_epoch = 2 [ json_name = "creationEpoch" ];
uint64 creation_epoch = 2 [json_name = "creationEpoch"];
// Object's owner
neo.fs.v2.refs.OwnerID owner_id = 3 [ json_name = "ownerID" ];
neo.fs.v2.refs.OwnerID owner_id = 3 [json_name = "ownerID"];
// Type of the object payload content
ObjectType object_type = 4 [ json_name = "objectType" ];
ObjectType object_type = 4 [json_name = "objectType"];
// Size of payload in bytes.
// `0xFFFFFFFFFFFFFFFF` means `payload_length` is unknown
uint64 payload_length = 5 [ json_name = "payloadLength" ];
uint64 payload_length = 5 [json_name = "payloadLength"];
// Hash of payload bytes
neo.fs.v2.refs.Checksum payload_hash = 6 [ json_name = "payloadHash" ];
neo.fs.v2.refs.Checksum payload_hash = 6 [json_name = "payloadHash"];
// Homomorphic hash of the object payload
neo.fs.v2.refs.Checksum homomorphic_hash = 7
[ json_name = "homomorphicHash" ];
neo.fs.v2.refs.Checksum homomorphic_hash = 7 [json_name = "homomorphicHash"];
}
// Object Header
message Header {
// Object format version. Effectively, the version of API library used to
// create particular object
neo.fs.v2.refs.Version version = 1 [ json_name = "version" ];
neo.fs.v2.refs.Version version = 1 [json_name = "version"];
// Object's container
neo.fs.v2.refs.ContainerID container_id = 2 [ json_name = "containerID" ];
neo.fs.v2.refs.ContainerID container_id = 2 [json_name = "containerID"];
// Object's owner
neo.fs.v2.refs.OwnerID owner_id = 3 [ json_name = "ownerID" ];
neo.fs.v2.refs.OwnerID owner_id = 3 [json_name = "ownerID"];
// Object creation Epoch
uint64 creation_epoch = 4 [ json_name = "creationEpoch" ];
uint64 creation_epoch = 4 [json_name = "creationEpoch"];
// Size of payload in bytes.
// `0xFFFFFFFFFFFFFFFF` means `payload_length` is unknown.
uint64 payload_length = 5 [ json_name = "payloadLength" ];
uint64 payload_length = 5 [json_name = "payloadLength"];
// Hash of payload bytes
neo.fs.v2.refs.Checksum payload_hash = 6 [ json_name = "payloadHash" ];
neo.fs.v2.refs.Checksum payload_hash = 6 [json_name = "payloadHash"];
// Type of the object payload content
ObjectType object_type = 7 [ json_name = "objectType" ];
ObjectType object_type = 7 [json_name = "objectType"];
// Homomorphic hash of the object payload
neo.fs.v2.refs.Checksum homomorphic_hash = 8
[ json_name = "homomorphicHash" ];
neo.fs.v2.refs.Checksum homomorphic_hash = 8 [json_name = "homomorphicHash"];
// Session token, if it was used during Object creation. Need it to verify
// integrity and authenticity out of Request scope.
neo.fs.v2.session.SessionToken session_token = 9
[ json_name = "sessionToken" ];
neo.fs.v2.session.SessionToken session_token = 9 [json_name = "sessionToken"];
// `Attribute` is a user-defined Key-Value metadata pair attached to an
// object.
@ -116,16 +114,15 @@ message Header {
// Objects with duplicated attribute names or attributes with empty values
// will be considered invalid.
//
// There are some "well-known" attributes starting with `__SYSTEM__`
// (`__NEOFS__` is deprecated) prefix that affect system behaviour:
// There are some "well-known" attributes starting with `__SYSTEM__` (`__NEOFS__` is deprecated) prefix
// that affect system behaviour:
//
// * [ __SYSTEM__UPLOAD_ID ] \
// (`__NEOFS__UPLOAD_ID` is deprecated) \
// Marks smaller parts of a split bigger object
// * [ __SYSTEM__EXPIRATION_EPOCH ] \
// (`__NEOFS__EXPIRATION_EPOCH` is deprecated) \
// The epoch after which object with no LOCKs on it becomes unavailable.
// Locked object continues to be available until each of the LOCKs expire.
// Tells GC to delete object after that epoch
// * [ __SYSTEM__TICK_EPOCH ] \
// (`__NEOFS__TICK_EPOCH` is deprecated) \
// Decimal number that defines what epoch must produce
@ -155,15 +152,15 @@ message Header {
// MIME Content Type of object's payload
//
// For detailed description of each well-known attribute please see the
// corresponding section in FrostFS Technical Specification.
// corresponding section in NeoFS Technical Specification.
message Attribute {
// string key to the object attribute
string key = 1 [ json_name = "key" ];
string key = 1 [json_name = "key"];
// string value of the object attribute
string value = 2 [ json_name = "value" ];
string value = 2 [json_name = "value"];
}
// User-defined object attributes
repeated Attribute attributes = 10 [ json_name = "attributes" ];
repeated Attribute attributes = 10 [json_name = "attributes"];
// Bigger objects can be split into a chain of smaller objects. Information
// about inter-dependencies between spawned objects and how to re-construct
@ -171,84 +168,54 @@ message Header {
// must be within the same container.
message Split {
// Identifier of the origin object. Known only to the minor child.
neo.fs.v2.refs.ObjectID parent = 1 [ json_name = "parent" ];
neo.fs.v2.refs.ObjectID parent = 1 [json_name = "parent"];
// Identifier of the left split neighbor
neo.fs.v2.refs.ObjectID previous = 2 [ json_name = "previous" ];
neo.fs.v2.refs.ObjectID previous = 2 [json_name = "previous"];
// `signature` field of the parent object. Used to reconstruct parent.
neo.fs.v2.refs.Signature parent_signature = 3
[ json_name = "parentSignature" ];
neo.fs.v2.refs.Signature parent_signature = 3 [json_name = "parentSignature"];
// `header` field of the parent object. Used to reconstruct parent.
Header parent_header = 4 [ json_name = "parentHeader" ];
Header parent_header = 4 [json_name = "parentHeader"];
// List of identifiers of the objects generated by splitting current one.
repeated neo.fs.v2.refs.ObjectID children = 5 [ json_name = "children" ];
repeated neo.fs.v2.refs.ObjectID children = 5 [json_name = "children"];
// 16 byte UUIDv4 used to identify the split object hierarchy parts. Must be
// unique inside container. All objects participating in the split must have
// the same `split_id` value.
bytes split_id = 6 [ json_name = "splitID" ];
bytes split_id = 6 [json_name = "splitID"];
}
// Position of the object in the split hierarchy
Split split = 11 [ json_name = "split" ];
// Erasure code can be applied to any object.
// Information about encoded object structure is stored in `EC` header.
// All objects belonging to a single EC group have the same `parent` field.
message EC {
// Identifier of the origin object. Known to all chunks.
neo.fs.v2.refs.ObjectID parent = 1 [ json_name = "parent" ];
// Index of this chunk.
uint32 index = 2 [ json_name = "index" ];
// Total number of chunks in this split.
uint32 total = 3 [ json_name = "total" ];
// Total length of a parent header. Used to trim padding zeroes.
uint32 header_length = 4 [ json_name = "headerLength" ];
// Chunk of a parent header.
bytes header = 5 [ json_name = "header" ];
// As the origin object is EC-splitted its identifier is known to all
// chunks as parent. But parent itself can be a part of Split (does not
// relate to EC-split). In this case parent_split_id should be set.
bytes parent_split_id = 6 [ json_name = "parentSplitID" ];
// EC-parent's parent ID. parent_split_parent_id is set if EC-parent,
// itself, is a part of Split and if an object ID of its parent is
// presented. The field allows to determine how EC-chunk is placed in Split
// hierarchy.
neo.fs.v2.refs.ObjectID parent_split_parent_id = 7
[ json_name = "parentSplitParentID" ];
// EC parent's attributes.
repeated Attribute parent_attributes = 8 [ json_name = "parentAttributes" ];
}
// Erasure code chunk information.
EC ec = 12 [ json_name = "ec" ];
Split split = 11 [json_name = "split"];
}
// Object structure. Object is immutable and content-addressed. It means
// `ObjectID` will change if the header or the payload changes. It's calculated
// as a hash of header field which contains hash of the object's payload.
// `ObjectID` will change if the header or the payload changes. It's calculated as a
// hash of header field which contains hash of the object's payload.
//
// For non-regular object types payload format depends on object type specified
// in the header.
message Object {
// Object's unique identifier.
neo.fs.v2.refs.ObjectID object_id = 1 [ json_name = "objectID" ];
neo.fs.v2.refs.ObjectID object_id = 1 [json_name = "objectID"];
// Signed object_id
neo.fs.v2.refs.Signature signature = 2 [ json_name = "signature" ];
neo.fs.v2.refs.Signature signature = 2 [json_name = "signature"];
// Object metadata headers
Header header = 3 [ json_name = "header" ];
Header header = 3 [json_name = "header"];
// Payload bytes
bytes payload = 4 [ json_name = "payload" ];
bytes payload = 4 [json_name = "payload"];
}
// Meta information of split hierarchy for object assembly. With the last part
// one can traverse linked list of split hierarchy back to the first part and
// assemble the original object. With a linking object one can assemble an
// object right from the object parts.
// assemble the original object. With a linking object one can assemble an object
// right from the object parts.
message SplitInfo {
// 16 byte UUID used to identify the split object hierarchy parts.
bytes split_id = 1;
@ -262,17 +229,3 @@ message SplitInfo {
// object parts.
neo.fs.v2.refs.ObjectID link = 3;
}
// Meta information for the erasure-encoded object.
message ECInfo {
message Chunk {
// Object ID of the chunk.
neo.fs.v2.refs.ObjectID id = 1;
// Index of the chunk.
uint32 index = 2;
// Total number of chunks in this split.
uint32 total = 3;
}
// Chunk stored on the node.
repeated Chunk chunks = 1;
}

View file

@ -4,20 +4,20 @@
## Table of Contents
- [accounting/service.proto](#accounting/service.proto)
- Services
- [AccountingService](#neo.fs.v2.accounting.AccountingService)
- Services
- [AccountingService](#neo.fs.v2.accounting.AccountingService)
- Messages
- [BalanceRequest](#neo.fs.v2.accounting.BalanceRequest)
- [BalanceRequest.Body](#neo.fs.v2.accounting.BalanceRequest.Body)
- [BalanceResponse](#neo.fs.v2.accounting.BalanceResponse)
- [BalanceResponse.Body](#neo.fs.v2.accounting.BalanceResponse.Body)
- [BalanceRequest](#neo.fs.v2.accounting.BalanceRequest)
- [BalanceRequest.Body](#neo.fs.v2.accounting.BalanceRequest.Body)
- [BalanceResponse](#neo.fs.v2.accounting.BalanceResponse)
- [BalanceResponse.Body](#neo.fs.v2.accounting.BalanceResponse.Body)
- [accounting/types.proto](#accounting/types.proto)
- Messages
- [Decimal](#neo.fs.v2.accounting.Decimal)
- [Decimal](#neo.fs.v2.accounting.Decimal)
- [Scalar Value Types](#scalar-value-types)
@ -35,11 +35,11 @@
<a name="neo.fs.v2.accounting.AccountingService"></a>
### Service "neo.fs.v2.accounting.AccountingService"
Accounting service provides methods for interaction with FrostFS sidechain
via other FrostFS nodes to get information about the account balance. Deposit
and Withdraw operations can't be implemented here, as they require Mainnet
FrostFS smart contract invocation. Transfer operations between internal
FrostFS accounts are possible if both use the same token type.
Accounting service provides methods for interaction with NeoFS sidechain via
other NeoFS nodes to get information about the account balance. Deposit and
Withdraw operations can't be implemented here, as they require Mainnet NeoFS
smart contract invocation. Transfer operations between internal NeoFS
accounts are possible if both use the same token type.
```
rpc Balance(BalanceRequest) returns (BalanceResponse);
@ -48,7 +48,7 @@ rpc Balance(BalanceRequest) returns (BalanceResponse);
#### Method Balance
Returns the amount of funds in GAS token for the requested FrostFS account.
Returns the amount of funds in GAS token for the requested NeoFS account.
Statuses:
- **OK** (0, SECTION_SUCCESS):
@ -78,9 +78,9 @@ BalanceRequest message
### Message BalanceRequest.Body
To indicate the account for which the balance is requested, its identifier
is used. It can be any existing account in FrostFS sidechain `Balance`
smart contract. If omitted, client implementation MUST set it to the
request's signer `OwnerID`.
is used. It can be any existing account in NeoFS sidechain `Balance` smart
contract. If omitted, client implementation MUST set it to the request's
signer `OwnerID`.
| Field | Type | Label | Description |
@ -105,8 +105,7 @@ BalanceResponse message
### Message BalanceResponse.Body
The amount of funds in GAS token for the `OwnerID`'s account requested.
Balance is given in the `Decimal` format to avoid precision issues with
rounding.
Balance is given in the `Decimal` format to avoid precision issues with rounding.
| Field | Type | Label | Description |
@ -131,7 +130,7 @@ rounding.
<a name="neo.fs.v2.accounting.Decimal"></a>
### Message Decimal
Standard floating point data type can't be used in FrostFS due to inexactness
Standard floating point data type can't be used in NeoFS due to inexactness
of the result when doing lots of small number operations. To solve the lost
precision issue, special `Decimal` format is used for monetary computations.
@ -170,3 +169,4 @@ description.
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -6,14 +6,13 @@
- [acl/types.proto](#acl/types.proto)
- Messages
- [BearerToken](#neo.fs.v2.acl.BearerToken)
- [BearerToken.Body](#neo.fs.v2.acl.BearerToken.Body)
- [BearerToken.Body.APEOverride](#neo.fs.v2.acl.BearerToken.Body.APEOverride)
- [BearerToken.Body.TokenLifetime](#neo.fs.v2.acl.BearerToken.Body.TokenLifetime)
- [EACLRecord](#neo.fs.v2.acl.EACLRecord)
- [EACLRecord.Filter](#neo.fs.v2.acl.EACLRecord.Filter)
- [EACLRecord.Target](#neo.fs.v2.acl.EACLRecord.Target)
- [EACLTable](#neo.fs.v2.acl.EACLTable)
- [BearerToken](#neo.fs.v2.acl.BearerToken)
- [BearerToken.Body](#neo.fs.v2.acl.BearerToken.Body)
- [BearerToken.Body.TokenLifetime](#neo.fs.v2.acl.BearerToken.Body.TokenLifetime)
- [EACLRecord](#neo.fs.v2.acl.EACLRecord)
- [EACLRecord.Filter](#neo.fs.v2.acl.EACLRecord.Filter)
- [EACLRecord.Target](#neo.fs.v2.acl.EACLRecord.Target)
- [EACLTable](#neo.fs.v2.acl.EACLTable)
- [Scalar Value Types](#scalar-value-types)
@ -39,8 +38,8 @@ like [JWT](https://jwt.io), it has a limited lifetime and scope, hence can be
used in the similar use cases, like providing authorisation to externally
authenticated party.
BearerToken can be issued only by the container's owner and must be signed
using the key associated with the container's `OwnerID`.
BearerToken can be issued only by the container's owner and must be signed using
the key associated with the container's `OwnerID`.
| Field | Type | Label | Description |
@ -52,37 +51,16 @@ using the key associated with the container's `OwnerID`.
<a name="neo.fs.v2.acl.BearerToken.Body"></a>
### Message BearerToken.Body
Bearer Token body structure contains Extended ACL table issued by the
container owner with additional information preventing token abuse.
Bearer Token body structure contains Extended ACL table issued by the container
owner with additional information preventing token abuse.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| eacl_table | [EACLTable](#neo.fs.v2.acl.EACLTable) | | Table of Extended ACL rules to use instead of the ones attached to the container. If it contains `container_id` field, bearer token is only valid for this specific container. Otherwise, any container of the same owner is allowed.
Deprecated: eACL tables are no longer relevant - `APEOverrides` should be used instead. |
| eacl_table | [EACLTable](#neo.fs.v2.acl.EACLTable) | | Table of Extended ACL rules to use instead of the ones attached to the container. If it contains `container_id` field, bearer token is only valid for this specific container. Otherwise, any container of the same owner is allowed. |
| owner_id | [neo.fs.v2.refs.OwnerID](#neo.fs.v2.refs.OwnerID) | | `OwnerID` defines to whom the token was issued. It must match the request originator's `OwnerID`. If empty, any token bearer will be accepted. |
| lifetime | [BearerToken.Body.TokenLifetime](#neo.fs.v2.acl.BearerToken.Body.TokenLifetime) | | Token expiration and valid time period parameters |
| allow_impersonate | [bool](#bool) | | AllowImpersonate flag to consider token signer as request owner. If this field is true extended ACL table in token body isn't processed. |
| ape_override | [BearerToken.Body.APEOverride](#neo.fs.v2.acl.BearerToken.Body.APEOverride) | | APE override for the target. |
<a name="neo.fs.v2.acl.BearerToken.Body.APEOverride"></a>
### Message BearerToken.Body.APEOverride
APEOverride is the list of APE chains defined for a target.
These chains are meant to serve as overrides to the already defined (or
even undefined) APE chains for the target (see contract `Policy`).
The server-side processing of the bearer token with set APE overrides
must verify if a client is permitted to override chains for the target,
preventing unauthorized access through the APE mechanism.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| target | [frostfs.v2.ape.ChainTarget](#frostfs.v2.ape.ChainTarget) | | Target for which chains are applied. |
| chains | [frostfs.v2.ape.Chain](#frostfs.v2.ape.Chain) | repeated | The list of APE chains. |
<a name="neo.fs.v2.acl.BearerToken.Body.TokenLifetime"></a>
@ -107,7 +85,7 @@ Describes a single eACL rule.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| operation | [Operation](#neo.fs.v2.acl.Operation) | | FrostFS request Verb to match |
| operation | [Operation](#neo.fs.v2.acl.Operation) | | NeoFS request Verb to match |
| action | [Action](#neo.fs.v2.acl.Action) | | Rule execution result. Either allows or denies access if filters match. |
| filters | [EACLRecord.Filter](#neo.fs.v2.acl.EACLRecord.Filter) | repeated | List of filters to match and see if rule is applicable |
| targets | [EACLRecord.Target](#neo.fs.v2.acl.EACLRecord.Target) | repeated | List of target subjects to apply ACL rule to |
@ -175,7 +153,7 @@ keys to match.
Extended ACL rules table. A list of ACL rules defined additionally to Basic
ACL. Extended ACL rules can be attached to a container and can be updated
or may be defined in `BearerToken` structure. Please see the corresponding
FrostFS Technical Specification section for detailed description.
NeoFS Technical Specification section for detailed description.
| Field | Type | Label | Description |
@ -211,7 +189,7 @@ Enumeration of possible sources of Headers to apply filters.
| HEADER_UNSPECIFIED | 0 | Unspecified header, default value. |
| REQUEST | 1 | Filter request headers |
| OBJECT | 2 | Filter object headers |
| SERVICE | 3 | Filter service headers. These are not processed by FrostFS nodes and exist for service use only. |
| SERVICE | 3 | Filter service headers. These are not processed by NeoFS nodes and exist for service use only. |
@ -283,3 +261,4 @@ Target role of the access control rule in access control list.
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -1,269 +0,0 @@
# Protocol Documentation
<a name="top"></a>
## Table of Contents
- [apemanager/service.proto](#apemanager/service.proto)
- Services
- [APEManagerService](#frostfs.v2.apemanager.APEManagerService)
- Messages
- [AddChainRequest](#frostfs.v2.apemanager.AddChainRequest)
- [AddChainRequest.Body](#frostfs.v2.apemanager.AddChainRequest.Body)
- [AddChainResponse](#frostfs.v2.apemanager.AddChainResponse)
- [AddChainResponse.Body](#frostfs.v2.apemanager.AddChainResponse.Body)
- [ListChainsRequest](#frostfs.v2.apemanager.ListChainsRequest)
- [ListChainsRequest.Body](#frostfs.v2.apemanager.ListChainsRequest.Body)
- [ListChainsResponse](#frostfs.v2.apemanager.ListChainsResponse)
- [ListChainsResponse.Body](#frostfs.v2.apemanager.ListChainsResponse.Body)
- [RemoveChainRequest](#frostfs.v2.apemanager.RemoveChainRequest)
- [RemoveChainRequest.Body](#frostfs.v2.apemanager.RemoveChainRequest.Body)
- [RemoveChainResponse](#frostfs.v2.apemanager.RemoveChainResponse)
- [RemoveChainResponse.Body](#frostfs.v2.apemanager.RemoveChainResponse.Body)
- [Scalar Value Types](#scalar-value-types)
<a name="apemanager/service.proto"></a>
<p align="right"><a href="#top">Top</a></p>
## apemanager/service.proto
<a name="frostfs.v2.apemanager.APEManagerService"></a>
### Service "frostfs.v2.apemanager.APEManagerService"
`APEManagerService` provides API to manage rule chains within sidechain's
`Policy` smart contract.
```
rpc AddChain(AddChainRequest) returns (AddChainResponse);
rpc RemoveChain(RemoveChainRequest) returns (RemoveChainResponse);
rpc ListChains(ListChainsRequest) returns (ListChainsResponse);
```
#### Method AddChain
Add a rule chain for a specific target to `Policy` smart contract.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
the chain has been successfully added;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
container (as target) not found;
- **APE_MANAGER_ACCESS_DENIED** (5120, SECTION_APE_MANAGER): \
the operation is denied by the service.
| Name | Input | Output |
| ---- | ----- | ------ |
| AddChain | [AddChainRequest](#frostfs.v2.apemanager.AddChainRequest) | [AddChainResponse](#frostfs.v2.apemanager.AddChainResponse) |
#### Method RemoveChain
Remove a rule chain for a specific target from `Policy` smart contract.
RemoveChain is an idempotent operation: removal of non-existing rule chain
also means success.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
the chain has been successfully removed;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
container (as target) not found;
- **APE_MANAGER_ACCESS_DENIED** (5120, SECTION_APE_MANAGER): \
the operation is denied by the service.
| Name | Input | Output |
| ---- | ----- | ------ |
| RemoveChain | [RemoveChainRequest](#frostfs.v2.apemanager.RemoveChainRequest) | [RemoveChainResponse](#frostfs.v2.apemanager.RemoveChainResponse) |
#### Method ListChains
List chains defined for a specific target from `Policy` smart contract.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
chains have been successfully listed;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
container (as target) not found;
- **APE_MANAGER_ACCESS_DENIED** (5120, SECTION_APE_MANAGER): \
the operation is denied by the service.
| Name | Input | Output |
| ---- | ----- | ------ |
| ListChains | [ListChainsRequest](#frostfs.v2.apemanager.ListChainsRequest) | [ListChainsResponse](#frostfs.v2.apemanager.ListChainsResponse) |
<!-- end services -->
<a name="frostfs.v2.apemanager.AddChainRequest"></a>
### Message AddChainRequest
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [AddChainRequest.Body](#frostfs.v2.apemanager.AddChainRequest.Body) | | The request's body. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="frostfs.v2.apemanager.AddChainRequest.Body"></a>
### Message AddChainRequest.Body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| target | [frostfs.v2.ape.ChainTarget](#frostfs.v2.ape.ChainTarget) | | A target for which a rule chain is added. |
| chain | [frostfs.v2.ape.Chain](#frostfs.v2.ape.Chain) | | The chain to set for the target. |
<a name="frostfs.v2.apemanager.AddChainResponse"></a>
### Message AddChainResponse
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [AddChainResponse.Body](#frostfs.v2.apemanager.AddChainResponse.Body) | | The response's body. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="frostfs.v2.apemanager.AddChainResponse.Body"></a>
### Message AddChainResponse.Body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| chain_id | [bytes](#bytes) | | Chain ID assigned for the added rule chain. If chain ID is left empty in the request, then it will be generated. |
<a name="frostfs.v2.apemanager.ListChainsRequest"></a>
### Message ListChainsRequest
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [ListChainsRequest.Body](#frostfs.v2.apemanager.ListChainsRequest.Body) | | The request's body. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="frostfs.v2.apemanager.ListChainsRequest.Body"></a>
### Message ListChainsRequest.Body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| target | [frostfs.v2.ape.ChainTarget](#frostfs.v2.ape.ChainTarget) | | Target for which rule chains are listed. |
<a name="frostfs.v2.apemanager.ListChainsResponse"></a>
### Message ListChainsResponse
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [ListChainsResponse.Body](#frostfs.v2.apemanager.ListChainsResponse.Body) | | The response's body. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="frostfs.v2.apemanager.ListChainsResponse.Body"></a>
### Message ListChainsResponse.Body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| chains | [frostfs.v2.ape.Chain](#frostfs.v2.ape.Chain) | repeated | The list of chains defined for the reqeusted target. |
<a name="frostfs.v2.apemanager.RemoveChainRequest"></a>
### Message RemoveChainRequest
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [RemoveChainRequest.Body](#frostfs.v2.apemanager.RemoveChainRequest.Body) | | The request's body. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="frostfs.v2.apemanager.RemoveChainRequest.Body"></a>
### Message RemoveChainRequest.Body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| target | [frostfs.v2.ape.ChainTarget](#frostfs.v2.ape.ChainTarget) | | Target for which a rule chain is removed. |
| chain_id | [bytes](#bytes) | | Chain ID assigned for the rule chain. |
<a name="frostfs.v2.apemanager.RemoveChainResponse"></a>
### Message RemoveChainResponse
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [RemoveChainResponse.Body](#frostfs.v2.apemanager.RemoveChainResponse.Body) | | The response's body. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="frostfs.v2.apemanager.RemoveChainResponse.Body"></a>
### Message RemoveChainResponse.Body
Since RemoveChain is an idempotent operation, then the only indicator that
operation could not be performed is an error returning to a client.
<!-- end messages -->
<!-- end enums -->
## Scalar Value Types
| .proto Type | Notes | C++ Type | Java Type | Python Type |
| ----------- | ----- | -------- | --------- | ----------- |
| <a name="double" /> double | | double | double | float |
| <a name="float" /> float | | float | float | float |
| <a name="int32" /> 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 |
| <a name="int64" /> 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 |
| <a name="uint32" /> uint32 | Uses variable-length encoding. | uint32 | int | int/long |
| <a name="uint64" /> uint64 | Uses variable-length encoding. | uint64 | long | int/long |
| <a name="sint32" /> sint32 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int32s. | int32 | int | int |
| <a name="sint64" /> sint64 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int64s. | int64 | long | int/long |
| <a name="fixed32" /> fixed32 | Always four bytes. More efficient than uint32 if values are often greater than 2^28. | uint32 | int | int |
| <a name="fixed64" /> fixed64 | Always eight bytes. More efficient than uint64 if values are often greater than 2^56. | uint64 | long | int/long |
| <a name="sfixed32" /> sfixed32 | Always four bytes. | int32 | int | int |
| <a name="sfixed64" /> sfixed64 | Always eight bytes. | int64 | long | int/long |
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

74
proto-docs/audit.md Normal file
View file

@ -0,0 +1,74 @@
# Protocol Documentation
<a name="top"></a>
## Table of Contents
- [audit/types.proto](#audit/types.proto)
- Messages
- [DataAuditResult](#neo.fs.v2.audit.DataAuditResult)
- [Scalar Value Types](#scalar-value-types)
<a name="audit/types.proto"></a>
<p align="right"><a href="#top">Top</a></p>
## audit/types.proto
<!-- end services -->
<a name="neo.fs.v2.audit.DataAuditResult"></a>
### Message DataAuditResult
DataAuditResult keeps record of conducted Data Audits. The detailed report is
generated separately.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| version | [neo.fs.v2.refs.Version](#neo.fs.v2.refs.Version) | | Data Audit Result format version. Effectively, the version of API library used to report DataAuditResult structure. |
| audit_epoch | [fixed64](#fixed64) | | Epoch number when the Data Audit was conducted |
| container_id | [neo.fs.v2.refs.ContainerID](#neo.fs.v2.refs.ContainerID) | | Container under audit |
| public_key | [bytes](#bytes) | | Public key of the auditing InnerRing node in a binary format |
| complete | [bool](#bool) | | Shows if Data Audit process was complete in time or if it was cancelled |
| requests | [uint32](#uint32) | | Number of request done at PoR stage |
| retries | [uint32](#uint32) | | Number of retries done at PoR stage |
| pass_sg | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | repeated | List of Storage Groups that passed audit PoR stage |
| fail_sg | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | repeated | List of Storage Groups that failed audit PoR stage |
| hit | [uint32](#uint32) | | Number of sampled objects under the audit placed in an optimal way according to the containers placement policy when checking PoP |
| miss | [uint32](#uint32) | | Number of sampled objects under the audit placed in suboptimal way according to the containers placement policy, but still at a satisfactory level when checking PoP |
| fail | [uint32](#uint32) | | Number of sampled objects under the audit stored inconsistently with the placement policy or not found at all when checking PoP |
| pass_nodes | [bytes](#bytes) | repeated | List of storage node public keys that passed at least one PDP |
| fail_nodes | [bytes](#bytes) | repeated | List of storage node public keys that failed at least one PDP |
<!-- end messages -->
<!-- end enums -->
## Scalar Value Types
| .proto Type | Notes | C++ Type | Java Type | Python Type |
| ----------- | ----- | -------- | --------- | ----------- |
| <a name="double" /> double | | double | double | float |
| <a name="float" /> float | | float | float | float |
| <a name="int32" /> 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 |
| <a name="int64" /> 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 |
| <a name="uint32" /> uint32 | Uses variable-length encoding. | uint32 | int | int/long |
| <a name="uint64" /> uint64 | Uses variable-length encoding. | uint64 | long | int/long |
| <a name="sint32" /> sint32 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int32s. | int32 | int | int |
| <a name="sint64" /> sint64 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int64s. | int64 | long | int/long |
| <a name="fixed32" /> fixed32 | Always four bytes. More efficient than uint32 if values are often greater than 2^28. | uint32 | int | int |
| <a name="fixed64" /> fixed64 | Always eight bytes. More efficient than uint64 if values are often greater than 2^56. | uint64 | long | int/long |
| <a name="sfixed32" /> sfixed32 | Always four bytes. | int32 | int | int |
| <a name="sfixed64" /> sfixed64 | Always eight bytes. | int64 | long | int/long |
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -3,63 +3,64 @@
## Table of Contents
- [ape/types.proto](#ape/types.proto)
- [bootstrap/types.proto](#bootstrap/types.proto)
- Messages
- [Chain](#frostfs.v2.ape.Chain)
- [ChainTarget](#frostfs.v2.ape.ChainTarget)
- [NodeInfo](#bootstrap.NodeInfo)
- [NodeInfo.Attribute](#bootstrap.NodeInfo.Attribute)
- [Scalar Value Types](#scalar-value-types)
<a name="ape/types.proto"></a>
<a name="bootstrap/types.proto"></a>
<p align="right"><a href="#top">Top</a></p>
## ape/types.proto
## bootstrap/types.proto
<!-- end services -->
<a name="frostfs.v2.ape.Chain"></a>
<a name="bootstrap.NodeInfo"></a>
### Message Chain
Chain is a chain of rules defined for a specific target.
### Message NodeInfo
Groups the information about the NeoFS node.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| raw | [bytes](#bytes) | | Raw representation of a serizalized rule chain. |
| Address | [string](#string) | | Carries network address of the NeoFS node. |
| PublicKey | [bytes](#bytes) | | Carries public key of the NeoFS node in a binary format. |
| Attributes | [NodeInfo.Attribute](#bootstrap.NodeInfo.Attribute) | repeated | Carries list of the NeoFS node attributes in a string key-value format. |
| state | [NodeInfo.State](#bootstrap.NodeInfo.State) | | Carries state of the NeoFS node. |
<a name="frostfs.v2.ape.ChainTarget"></a>
<a name="bootstrap.NodeInfo.Attribute"></a>
### Message ChainTarget
ChainTarget is an object to which a rule chain is defined.
### Message NodeInfo.Attribute
Groups attributes of the NeoFS node.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| type | [TargetType](#frostfs.v2.ape.TargetType) | | |
| name | [string](#string) | | |
| Key | [string](#string) | | Carries string key to the node attribute. |
| Value | [string](#string) | | Carries string value of the node attribute. |
<!-- end messages -->
<a name="frostfs.v2.ape.TargetType"></a>
<a name="bootstrap.NodeInfo.State"></a>
### TargetType
TargetType is a type target to which a rule chain is defined.
### NodeInfo.State
Represents the enumeration of various states of the NeoFS node.
| Name | Number | Description |
| ---- | ------ | ----------- |
| UNDEFINED | 0 | |
| NAMESPACE | 1 | |
| CONTAINER | 2 | |
| USER | 3 | |
| GROUP | 4 | |
| Unknown | 0 | Undefined state. |
| Online | 1 | Active state on the network. |
| Offline | 2 | Network unavailable state. |
<!-- end enums -->
@ -85,3 +86,4 @@ TargetType is a type target to which a rule chain is defined.
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -3,37 +3,50 @@
## Table of Contents
- [container/service.proto](#container/service.proto)
- Services
- [ContainerService](#neo.fs.v2.container.ContainerService)
- Messages
- [DeleteRequest](#neo.fs.v2.container.DeleteRequest)
- [DeleteRequest.Body](#neo.fs.v2.container.DeleteRequest.Body)
- [DeleteResponse](#neo.fs.v2.container.DeleteResponse)
- [DeleteResponse.Body](#neo.fs.v2.container.DeleteResponse.Body)
- [GetRequest](#neo.fs.v2.container.GetRequest)
- [GetRequest.Body](#neo.fs.v2.container.GetRequest.Body)
- [GetResponse](#neo.fs.v2.container.GetResponse)
- [GetResponse.Body](#neo.fs.v2.container.GetResponse.Body)
- [ListRequest](#neo.fs.v2.container.ListRequest)
- [ListRequest.Body](#neo.fs.v2.container.ListRequest.Body)
- [ListResponse](#neo.fs.v2.container.ListResponse)
- [ListResponse.Body](#neo.fs.v2.container.ListResponse.Body)
- [PutRequest](#neo.fs.v2.container.PutRequest)
- [PutRequest.Body](#neo.fs.v2.container.PutRequest.Body)
- [PutResponse](#neo.fs.v2.container.PutResponse)
- [PutResponse.Body](#neo.fs.v2.container.PutResponse.Body)
- [container/types.proto](#container/types.proto)
- Messages
- [Container](#neo.fs.v2.container.Container)
- [Container.Attribute](#neo.fs.v2.container.Container.Attribute)
- [Scalar Value Types](#scalar-value-types)
- [Protocol Documentation](#protocol-documentation)
- [Table of Contents](#table-of-contents)
- [container/service.proto](#containerserviceproto)
- [Service "neo.fs.v2.container.ContainerService"](#service-neofsv2containercontainerservice)
- [Method Put](#method-put)
- [Method Delete](#method-delete)
- [Method Get](#method-get)
- [Method List](#method-list)
- [Method SetExtendedACL](#method-setextendedacl)
- [Method GetExtendedACL](#method-getextendedacl)
- [Method AnnounceUsedSpace](#method-announceusedspace)
- [Message AnnounceUsedSpaceRequest](#message-announceusedspacerequest)
- [Message AnnounceUsedSpaceRequest.Body](#message-announceusedspacerequestbody)
- [Message AnnounceUsedSpaceRequest.Body.Announcement](#message-announceusedspacerequestbodyannouncement)
- [Message AnnounceUsedSpaceResponse](#message-announceusedspaceresponse)
- [Message AnnounceUsedSpaceResponse.Body](#message-announceusedspaceresponsebody)
- [Message DeleteRequest](#message-deleterequest)
- [Message DeleteRequest.Body](#message-deleterequestbody)
- [Message DeleteResponse](#message-deleteresponse)
- [Message DeleteResponse.Body](#message-deleteresponsebody)
- [Message GetExtendedACLRequest](#message-getextendedaclrequest)
- [Message GetExtendedACLRequest.Body](#message-getextendedaclrequestbody)
- [Message GetExtendedACLResponse](#message-getextendedaclresponse)
- [Message GetExtendedACLResponse.Body](#message-getextendedaclresponsebody)
- [Message GetRequest](#message-getrequest)
- [Message GetRequest.Body](#message-getrequestbody)
- [Message GetResponse](#message-getresponse)
- [Message GetResponse.Body](#message-getresponsebody)
- [Message ListRequest](#message-listrequest)
- [Message ListRequest.Body](#message-listrequestbody)
- [Message ListResponse](#message-listresponse)
- [Message ListResponse.Body](#message-listresponsebody)
- [Message PutRequest](#message-putrequest)
- [Message PutRequest.Body](#message-putrequestbody)
- [Message PutResponse](#message-putresponse)
- [Message PutResponse.Body](#message-putresponsebody)
- [Message SetExtendedACLRequest](#message-setextendedaclrequest)
- [Message SetExtendedACLRequest.Body](#message-setextendedaclrequestbody)
- [Message SetExtendedACLResponse](#message-setextendedaclresponse)
- [Message SetExtendedACLResponse.Body](#message-setextendedaclresponsebody)
- [container/types.proto](#containertypesproto)
- [Message Container](#message-container)
- [Message Container.Attribute](#message-containerattribute)
- [Scalar Value Types](#scalar-value-types)
@ -49,8 +62,8 @@
### Service "neo.fs.v2.container.ContainerService"
`ContainerService` provides API to interact with `Container` smart contract
in FrostFS sidechain via other FrostFS nodes. All of those actions can be
done equivalently by directly issuing transactions and RPC calls to sidechain
in NeoFS sidechain via other NeoFS nodes. All of those actions can be done
equivalently by directly issuing transactions and RPC calls to sidechain
nodes.
```
@ -58,6 +71,9 @@ rpc Put(PutRequest) returns (PutResponse);
rpc Delete(DeleteRequest) returns (DeleteResponse);
rpc Get(GetRequest) returns (GetResponse);
rpc List(ListRequest) returns (ListResponse);
rpc SetExtendedACL(SetExtendedACLRequest) returns (SetExtendedACLResponse);
rpc GetExtendedACL(GetExtendedACLRequest) returns (GetExtendedACLResponse);
rpc AnnounceUsedSpace(AnnounceUsedSpaceRequest) returns (AnnounceUsedSpaceResponse);
```
@ -65,15 +81,13 @@ rpc List(ListRequest) returns (ListResponse);
`Put` invokes `Container` smart contract's `Put` method and returns
response immediately. After a new block is issued in sidechain, request is
verified by Inner Ring nodes. After one more block in sidechain, the
container is added into smart contract storage.
verified by Inner Ring nodes. After one more block in sidechain, the container
is added into smart contract storage.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
request to save the container has been sent to the sidechain;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
container create access denied.
- Common failures (SECTION_FAILURE_COMMON).
| Name | Input | Output |
| ---- | ----- | ------ |
@ -82,15 +96,13 @@ Statuses:
`Delete` invokes `Container` smart contract's `Delete` method and returns
response immediately. After a new block is issued in sidechain, request is
verified by Inner Ring nodes. After one more block in sidechain, the
container is added into smart contract storage.
verified by Inner Ring nodes. After one more block in sidechain, the container
is added into smart contract storage.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
request to remove the container has been sent to the sidechain;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
container delete access denied.
- Common failures (SECTION_FAILURE_COMMON).
| Name | Input | Output |
| ---- | ----- | ------ |
@ -104,9 +116,7 @@ Statuses:
container has been successfully read;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
requested container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied.
requested container not found.
| Name | Input | Output |
| ---- | ----- | ------ |
@ -118,16 +128,115 @@ Returns all owner's containers from 'Container` smart contract' storage.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
container list has been successfully read;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
container list access denied.
- Common failures (SECTION_FAILURE_COMMON).
| Name | Input | Output |
| ---- | ----- | ------ |
| List | [ListRequest](#neo.fs.v2.container.ListRequest) | [ListResponse](#neo.fs.v2.container.ListResponse) |
#### Method SetExtendedACL
Invokes 'SetEACL' method of 'Container` smart contract and returns response
immediately. After one more block in sidechain, changes in an Extended ACL are
added into smart contract storage.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
request to save container eACL has been sent to the sidechain;
- Common failures (SECTION_FAILURE_COMMON).
| Name | Input | Output |
| ---- | ----- | ------ |
| SetExtendedACL | [SetExtendedACLRequest](#neo.fs.v2.container.SetExtendedACLRequest) | [SetExtendedACLResponse](#neo.fs.v2.container.SetExtendedACLResponse) |
#### Method GetExtendedACL
Returns Extended ACL table and signature from `Container` smart contract
storage.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
container eACL has been successfully read;
- Common failures (SECTION_FAILURE_COMMON);
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
container not found;
- **EACL_NOT_FOUND** (3073, SECTION_CONTAINER): \
eACL table not found.
| Name | Input | Output |
| ---- | ----- | ------ |
| GetExtendedACL | [GetExtendedACLRequest](#neo.fs.v2.container.GetExtendedACLRequest) | [GetExtendedACLResponse](#neo.fs.v2.container.GetExtendedACLResponse) |
#### Method AnnounceUsedSpace
Announces the space values used by the container for P2P synchronization.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
estimation of used space has been successfully announced;
- Common failures (SECTION_FAILURE_COMMON).
| Name | Input | Output |
| ---- | ----- | ------ |
| AnnounceUsedSpace | [AnnounceUsedSpaceRequest](#neo.fs.v2.container.AnnounceUsedSpaceRequest) | [AnnounceUsedSpaceResponse](#neo.fs.v2.container.AnnounceUsedSpaceResponse) |
<!-- end services -->
<a name="neo.fs.v2.container.AnnounceUsedSpaceRequest"></a>
### Message AnnounceUsedSpaceRequest
Announce container used space
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [AnnounceUsedSpaceRequest.Body](#neo.fs.v2.container.AnnounceUsedSpaceRequest.Body) | | Body of announce used space request message. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.container.AnnounceUsedSpaceRequest.Body"></a>
### Message AnnounceUsedSpaceRequest.Body
Container used space announcement body.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| announcements | [AnnounceUsedSpaceRequest.Body.Announcement](#neo.fs.v2.container.AnnounceUsedSpaceRequest.Body.Announcement) | repeated | List of announcements. If nodes share several containers, announcements are transferred in a batch. |
<a name="neo.fs.v2.container.AnnounceUsedSpaceRequest.Body.Announcement"></a>
### Message AnnounceUsedSpaceRequest.Body.Announcement
Announcement contains used space information for a single container.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| epoch | [uint64](#uint64) | | Epoch number for which the container size estimation was produced. |
| container_id | [neo.fs.v2.refs.ContainerID](#neo.fs.v2.refs.ContainerID) | | Identifier of the container. |
| used_space | [uint64](#uint64) | | Used space is a sum of object payload sizes of a specified container, stored in the node. It must not include inhumed objects. |
<a name="neo.fs.v2.container.AnnounceUsedSpaceResponse"></a>
### Message AnnounceUsedSpaceResponse
Announce container used space
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [AnnounceUsedSpaceResponse.Body](#neo.fs.v2.container.AnnounceUsedSpaceResponse.Body) | | Body of announce used space response message. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.container.AnnounceUsedSpaceResponse.Body"></a>
### Message AnnounceUsedSpaceResponse.Body
`AnnounceUsedSpaceResponse` has an empty body because announcements are
one way communication.
<a name="neo.fs.v2.container.DeleteRequest"></a>
### Message DeleteRequest
@ -151,7 +260,7 @@ smart contract, so signing algorithm must be supported by NeoVM.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| container_id | [neo.fs.v2.refs.ContainerID](#neo.fs.v2.refs.ContainerID) | | Identifier of the container to delete from FrostFS |
| container_id | [neo.fs.v2.refs.ContainerID](#neo.fs.v2.refs.ContainerID) | | Identifier of the container to delete from NeoFS |
| signature | [neo.fs.v2.refs.SignatureRFC6979](#neo.fs.v2.refs.SignatureRFC6979) | | `ContainerID` signed with the container owner's key according to RFC-6979. |
@ -177,6 +286,58 @@ and done via consensus in Inner Ring nodes.
<a name="neo.fs.v2.container.GetExtendedACLRequest"></a>
### Message GetExtendedACLRequest
Get Extended ACL
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [GetExtendedACLRequest.Body](#neo.fs.v2.container.GetExtendedACLRequest.Body) | | Body of get extended acl request message. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.container.GetExtendedACLRequest.Body"></a>
### Message GetExtendedACLRequest.Body
Get Extended ACL request body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| container_id | [neo.fs.v2.refs.ContainerID](#neo.fs.v2.refs.ContainerID) | | Identifier of the container having Extended ACL |
<a name="neo.fs.v2.container.GetExtendedACLResponse"></a>
### Message GetExtendedACLResponse
Get Extended ACL
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [GetExtendedACLResponse.Body](#neo.fs.v2.container.GetExtendedACLResponse.Body) | | Body of get extended acl response message. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.container.GetExtendedACLResponse.Body"></a>
### Message GetExtendedACLResponse.Body
Get Extended ACL Response body can be empty if the requested container does
not have Extended ACL Table attached or Extended ACL has not been allowed at
the time of container creation.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| eacl | [neo.fs.v2.acl.EACLTable](#neo.fs.v2.acl.EACLTable) | | Extended ACL requested, if available |
| signature | [neo.fs.v2.refs.SignatureRFC6979](#neo.fs.v2.refs.SignatureRFC6979) | | Signature of stable-marshalled Extended ACL according to RFC-6979. |
| session_token | [neo.fs.v2.session.SessionToken](#neo.fs.v2.session.SessionToken) | | Session token if Extended ACL was set within a session |
<a name="neo.fs.v2.container.GetRequest"></a>
### Message GetRequest
@ -279,7 +440,7 @@ List containers response body.
<a name="neo.fs.v2.container.PutRequest"></a>
### Message PutRequest
New FrostFS Container creation request
New NeoFS Container creation request
| Field | Type | Label | Description |
@ -301,14 +462,14 @@ additional signature checks.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| container | [Container](#neo.fs.v2.container.Container) | | Container structure to register in FrostFS |
| container | [Container](#neo.fs.v2.container.Container) | | Container structure to register in NeoFS |
| signature | [neo.fs.v2.refs.SignatureRFC6979](#neo.fs.v2.refs.SignatureRFC6979) | | Signature of a stable-marshalled container according to RFC-6979. |
<a name="neo.fs.v2.container.PutResponse"></a>
### Message PutResponse
New FrostFS Container creation response
New NeoFS Container creation response
| Field | Type | Label | Description |
@ -331,6 +492,54 @@ returned here to make sure everything has been done as expected.
| ----- | ---- | ----- | ----------- |
| container_id | [neo.fs.v2.refs.ContainerID](#neo.fs.v2.refs.ContainerID) | | Unique identifier of the newly created container |
<a name="neo.fs.v2.container.SetExtendedACLRequest"></a>
### Message SetExtendedACLRequest
Set Extended ACL
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [SetExtendedACLRequest.Body](#neo.fs.v2.container.SetExtendedACLRequest.Body) | | Body of set extended acl request message. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.container.SetExtendedACLRequest.Body"></a>
### Message SetExtendedACLRequest.Body
Set Extended ACL request body does not have separate `ContainerID`
reference. It will be taken from `EACLTable.container_id` field.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| eacl | [neo.fs.v2.acl.EACLTable](#neo.fs.v2.acl.EACLTable) | | Extended ACL table to set for the container |
| signature | [neo.fs.v2.refs.SignatureRFC6979](#neo.fs.v2.refs.SignatureRFC6979) | | Signature of stable-marshalled Extended ACL table according to RFC-6979. |
<a name="neo.fs.v2.container.SetExtendedACLResponse"></a>
### Message SetExtendedACLResponse
Set Extended ACL
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [SetExtendedACLResponse.Body](#neo.fs.v2.container.SetExtendedACLResponse.Body) | | Body of set extended acl response message. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.container.SetExtendedACLResponse.Body"></a>
### Message SetExtendedACLResponse.Body
`SetExtendedACLResponse` has an empty body because the operation is
asynchronous and the update should be reflected in `Container` smart contract's
storage after next block is issued in sidechain.
<!-- end messages -->
<!-- end enums -->
@ -351,8 +560,8 @@ returned here to make sure everything has been done as expected.
### Message Container
Container is a structure that defines object placement behaviour. Objects can
be stored only within containers. They define placement rule, attributes and
access control information. An ID of a container is a 32 byte long SHA256
hash of stable-marshalled container message.
access control information. An ID of a container is a 32 byte long SHA256 hash
of stable-marshalled container message.
| Field | Type | Label | Description |
@ -369,8 +578,8 @@ hash of stable-marshalled container message.
### Message Container.Attribute
`Attribute` is a user-defined Key-Value metadata pair attached to the
container. Container attributes are immutable. They are set at the moment
of container creation and can never be added or updated.
container. Container attributes are immutable. They are set at the moment of
container creation and can never be added or updated.
Key name must be a container-unique valid UTF-8 string. Value can't be
empty. Containers with duplicated attribute names or attributes with empty
@ -384,16 +593,15 @@ There are some "well-known" attributes affecting system behaviour:
NNS contract.
* [ __SYSTEM__ZONE ] \
(`__NEOFS__ZONE` is deprecated) \
String of a zone for `__SYSTEM__NAME` (`__NEOFS__NAME` is deprecated).
Used as a TLD of a domain name in NNS contract. If no zone is specified,
use default zone: `container`.
String of a zone for `__SYSTEM__NAME` (`__NEOFS__NAME` is deprecated). Used as a TLD of a domain name in NNS
contract. If no zone is specified, use default zone: `container`.
* [ __SYSTEM__DISABLE_HOMOMORPHIC_HASHING ] \
(`__NEOFS__DISABLE_HOMOMORPHIC_HASHING` is deprecated) \
Disables homomorphic hashing for the container if the value equals "true"
string. Any other values are interpreted as missing attribute. Container
could be accepted in a FrostFS network only if the global network hashing
configuration value corresponds with that attribute's value. After
container inclusion, network setting is ignored.
Disables homomorphic hashing for the container if the value equals "true" string.
Any other values are interpreted as missing attribute. Container could be
accepted in a NeoFS network only if the global network hashing configuration
value corresponds with that attribute's value. After container inclusion, network
setting is ignored.
And some well-known attributes used by applications only:
@ -433,3 +641,4 @@ And some well-known attributes used by applications only:
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -6,7 +6,7 @@
- [lock/types.proto](#lock/types.proto)
- Messages
- [Lock](#neo.fs.v2.lock.Lock)
- [Lock](#neo.fs.v2.lock.Lock)
- [Scalar Value Types](#scalar-value-types)
@ -27,9 +27,8 @@
### Message Lock
Lock objects protects a list of objects from being deleted. The lifetime of a
lock object is limited similar to regular objects in
`__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated)
attribute. Lock object MUST have expiration epoch. It is impossible to delete
a lock object via ObjectService.Delete RPC call.
`__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated) attribute. Lock object MUST have expiration epoch.
It is impossible to delete a lock object via ObjectService.Delete RPC call.
| Field | Type | Label | Description |
@ -61,3 +60,4 @@ a lock object via ObjectService.Delete RPC call.
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -3,41 +3,40 @@
## Table of Contents
- [netmap/service.proto](#netmap/service.proto)
- Services
- [NetmapService](#neo.fs.v2.netmap.NetmapService)
- Messages
- [LocalNodeInfoRequest](#neo.fs.v2.netmap.LocalNodeInfoRequest)
- [LocalNodeInfoRequest.Body](#neo.fs.v2.netmap.LocalNodeInfoRequest.Body)
- [LocalNodeInfoResponse](#neo.fs.v2.netmap.LocalNodeInfoResponse)
- [LocalNodeInfoResponse.Body](#neo.fs.v2.netmap.LocalNodeInfoResponse.Body)
- [NetmapSnapshotRequest](#neo.fs.v2.netmap.NetmapSnapshotRequest)
- [NetmapSnapshotRequest.Body](#neo.fs.v2.netmap.NetmapSnapshotRequest.Body)
- [NetmapSnapshotResponse](#neo.fs.v2.netmap.NetmapSnapshotResponse)
- [NetmapSnapshotResponse.Body](#neo.fs.v2.netmap.NetmapSnapshotResponse.Body)
- [NetworkInfoRequest](#neo.fs.v2.netmap.NetworkInfoRequest)
- [NetworkInfoRequest.Body](#neo.fs.v2.netmap.NetworkInfoRequest.Body)
- [NetworkInfoResponse](#neo.fs.v2.netmap.NetworkInfoResponse)
- [NetworkInfoResponse.Body](#neo.fs.v2.netmap.NetworkInfoResponse.Body)
- [netmap/types.proto](#netmap/types.proto)
- Messages
- [Filter](#neo.fs.v2.netmap.Filter)
- [Netmap](#neo.fs.v2.netmap.Netmap)
- [NetworkConfig](#neo.fs.v2.netmap.NetworkConfig)
- [NetworkConfig.Parameter](#neo.fs.v2.netmap.NetworkConfig.Parameter)
- [NetworkInfo](#neo.fs.v2.netmap.NetworkInfo)
- [NodeInfo](#neo.fs.v2.netmap.NodeInfo)
- [NodeInfo.Attribute](#neo.fs.v2.netmap.NodeInfo.Attribute)
- [PlacementPolicy](#neo.fs.v2.netmap.PlacementPolicy)
- [Replica](#neo.fs.v2.netmap.Replica)
- [Selector](#neo.fs.v2.netmap.Selector)
- [Scalar Value Types](#scalar-value-types)
- [Protocol Documentation](#protocol-documentation)
- [Table of Contents](#table-of-contents)
- [netmap/service.proto](#netmapserviceproto)
- [Service "neo.fs.v2.netmap.NetmapService"](#service-neofsv2netmapnetmapservice)
- [Method LocalNodeInfo](#method-localnodeinfo)
- [Method NetworkInfo](#method-networkinfo)
- [Method NetmapSnapshot](#method-netmapsnapshot)
- [Message LocalNodeInfoRequest](#message-localnodeinforequest)
- [Message LocalNodeInfoRequest.Body](#message-localnodeinforequestbody)
- [Message LocalNodeInfoResponse](#message-localnodeinforesponse)
- [Message LocalNodeInfoResponse.Body](#message-localnodeinforesponsebody)
- [Message NetmapSnapshotRequest](#message-netmapsnapshotrequest)
- [Message NetmapSnapshotRequest.Body](#message-netmapsnapshotrequestbody)
- [Message NetmapSnapshotResponse](#message-netmapsnapshotresponse)
- [Message NetmapSnapshotResponse.Body](#message-netmapsnapshotresponsebody)
- [Message NetworkInfoRequest](#message-networkinforequest)
- [Message NetworkInfoRequest.Body](#message-networkinforequestbody)
- [Message NetworkInfoResponse](#message-networkinforesponse)
- [Message NetworkInfoResponse.Body](#message-networkinforesponsebody)
- [netmap/types.proto](#netmaptypesproto)
- [Message Filter](#message-filter)
- [Message Netmap](#message-netmap)
- [Message NetworkConfig](#message-networkconfig)
- [Message NetworkConfig.Parameter](#message-networkconfigparameter)
- [Message NetworkInfo](#message-networkinfo)
- [Message NodeInfo](#message-nodeinfo)
- [Message NodeInfo.Attribute](#message-nodeinfoattribute)
- [Message PlacementPolicy](#message-placementpolicy)
- [Message Replica](#message-replica)
- [Message Selector](#message-selector)
- [Clause](#clause)
- [NodeInfo.State](#nodeinfostate)
- [Operation](#operation)
- [Scalar Value Types](#scalar-value-types)
@ -52,10 +51,10 @@
<a name="neo.fs.v2.netmap.NetmapService"></a>
### Service "neo.fs.v2.netmap.NetmapService"
`NetmapService` provides methods to work with `Network Map` and the
information required to build it. The resulting `Network Map` is stored in
sidechain `Netmap` smart contract, while related information can be obtained
from other FrostFS nodes.
`NetmapService` provides methods to work with `Network Map` and the information
required to build it. The resulting `Network Map` is stored in sidechain
`Netmap` smart contract, while related information can be obtained from other
NeoFS nodes.
```
rpc LocalNodeInfo(LocalNodeInfoRequest) returns (LocalNodeInfoResponse);
@ -67,11 +66,10 @@ rpc NetmapSnapshot(NetmapSnapshotRequest) returns (NetmapSnapshotResponse);
#### Method LocalNodeInfo
Get NodeInfo structure from the particular node directly.
Node information can be taken from `Netmap` smart contract. In some cases,
though, one may want to get recent information directly or to talk to the
node not yet present in the `Network Map` to find out what API version can
be used for further communication. This can be also used to check if a node
is up and running.
Node information can be taken from `Netmap` smart contract. In some cases, though,
one may want to get recent information directly or to talk to the node not yet
present in the `Network Map` to find out what API version can be used for
further communication. This can be also used to check if a node is up and running.
Statuses:
- **OK** (0, SECTION_SUCCESS):
@ -83,7 +81,7 @@ information about the server has been successfully read;
| LocalNodeInfo | [LocalNodeInfoRequest](#neo.fs.v2.netmap.LocalNodeInfoRequest) | [LocalNodeInfoResponse](#neo.fs.v2.netmap.LocalNodeInfoResponse) |
#### Method NetworkInfo
Read recent information about the FrostFS network.
Read recent information about the NeoFS network.
Statuses:
- **OK** (0, SECTION_SUCCESS):
@ -95,7 +93,7 @@ information about the current network state has been successfully read;
| NetworkInfo | [NetworkInfoRequest](#neo.fs.v2.netmap.NetworkInfoRequest) | [NetworkInfoResponse](#neo.fs.v2.netmap.NetworkInfoResponse) |
#### Method NetmapSnapshot
Returns network map snapshot of the current FrostFS epoch.
Returns network map snapshot of the current NeoFS epoch.
Statuses:
- **OK** (0, SECTION_SUCCESS):
@ -149,7 +147,7 @@ Local Node Info, including API Version in use.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| version | [neo.fs.v2.refs.Version](#neo.fs.v2.refs.Version) | | Latest FrostFS API version in use |
| version | [neo.fs.v2.refs.Version](#neo.fs.v2.refs.Version) | | Latest NeoFS API version in use |
| node_info | [NodeInfo](#neo.fs.v2.netmap.NodeInfo) | | NodeInfo structure with recent information from node itself |
@ -259,8 +257,8 @@ Information about the network.
<a name="neo.fs.v2.netmap.Filter"></a>
### Message Filter
This filter will return the subset of nodes from `NetworkMap` or another
filter's results that will satisfy filter's conditions.
This filter will return the subset of nodes from `NetworkMap` or another filter's
results that will satisfy filter's conditions.
| Field | Type | Label | Description |
@ -287,7 +285,7 @@ Network map structure
<a name="neo.fs.v2.netmap.NetworkConfig"></a>
### Message NetworkConfig
FrostFS network configuration
NeoFS network configuration
| Field | Type | Label | Description |
@ -315,7 +313,7 @@ System parameters:
Fee paid for container creation by the container owner.
Value: little-endian integer. Default: 0.
- **EpochDuration** \
FrostFS epoch duration measured in Sidechain blocks.
NeoFS epoch duration measured in Sidechain blocks.
Value: little-endian integer. Default: 0.
- **HomomorphicHashingDisabled** \
Flag of disabling the homomorphic hashing of objects' payload.
@ -327,48 +325,11 @@ System parameters:
Flag allowing setting the MAINTENANCE state to storage nodes.
Value: true if any byte != 0. Default: false.
- **MaxObjectSize** \
Maximum size of physically stored FrostFS object measured in bytes.
Maximum size of physically stored NeoFS object measured in bytes.
Value: little-endian integer. Default: 0.
This value refers to the maximum size of a **physically** stored object
in FrostFS. However, from a user's perspective, the **logical** size of a
stored object can be significantly larger. The relationship between the
physical and logical object sizes is governed by the following formula
```math
\mathrm{Stored\ Object\ Size} \le
\frac{
\left(\mathrm{Max\ Object\ Size}\right)^2
}{
\mathrm{Object\ ID\ Size}
}
```
This arises from the fact that a tombstone, also being an object, stores
the IDs of inhumed objects and cannot be divided into smaller objects,
thus having an upper limit for its size.
For example, if:
* Max Object Size Size = 64 MiB;
* Object ID Size = 32 B;
then:
```math
\mathrm{Stored\ Object\ Size} \le
\frac{\left(64\ \mathrm{MiB}\right)^2}{32\ \mathrm{B}} =
\frac{2^{52}}{2^5}\ \mathrm{B} =
2^{47}\ \mathrm{B} =
128\ \mathrm{TiB}
```
- **WithdrawFee** \
Fee paid for withdrawal of funds paid by the account owner.
Value: little-endian integer. Default: 0.
- **MaxECDataCount** \
Maximum number of data shards for EC placement policy.
Value: little-endian integer. Default: 0.
- **MaxECParityCount** \
Maximum number of parity shards for EC placement policy.
Value: little-endian integer. Default: 0.
| Field | Type | Label | Description |
@ -380,49 +341,49 @@ System parameters:
<a name="neo.fs.v2.netmap.NetworkInfo"></a>
### Message NetworkInfo
Information about FrostFS network
Information about NeoFS network
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| current_epoch | [uint64](#uint64) | | Number of the current epoch in the FrostFS network |
| magic_number | [uint64](#uint64) | | Magic number of the sidechain of the FrostFS network |
| ms_per_block | [int64](#int64) | | MillisecondsPerBlock network parameter of the sidechain of the FrostFS network |
| network_config | [NetworkConfig](#neo.fs.v2.netmap.NetworkConfig) | | FrostFS network configuration |
| current_epoch | [uint64](#uint64) | | Number of the current epoch in the NeoFS network |
| magic_number | [uint64](#uint64) | | Magic number of the sidechain of the NeoFS network |
| ms_per_block | [int64](#int64) | | MillisecondsPerBlock network parameter of the sidechain of the NeoFS network |
| network_config | [NetworkConfig](#neo.fs.v2.netmap.NetworkConfig) | | NeoFS network configuration |
<a name="neo.fs.v2.netmap.NodeInfo"></a>
### Message NodeInfo
FrostFS node description
NeoFS node description
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| public_key | [bytes](#bytes) | | Public key of the FrostFS node in a binary format |
| public_key | [bytes](#bytes) | | Public key of the NeoFS node in a binary format |
| addresses | [string](#string) | repeated | Ways to connect to a node |
| attributes | [NodeInfo.Attribute](#neo.fs.v2.netmap.NodeInfo.Attribute) | repeated | Carries list of the FrostFS node attributes in a key-value form. Key name must be a node-unique valid UTF-8 string. Value can't be empty. NodeInfo structures with duplicated attribute names or attributes with empty values will be considered invalid. |
| state | [NodeInfo.State](#neo.fs.v2.netmap.NodeInfo.State) | | Carries state of the FrostFS node |
| attributes | [NodeInfo.Attribute](#neo.fs.v2.netmap.NodeInfo.Attribute) | repeated | Carries list of the NeoFS node attributes in a key-value form. Key name must be a node-unique valid UTF-8 string. Value can't be empty. NodeInfo structures with duplicated attribute names or attributes with empty values will be considered invalid. |
| state | [NodeInfo.State](#neo.fs.v2.netmap.NodeInfo.State) | | Carries state of the NeoFS node |
<a name="neo.fs.v2.netmap.NodeInfo.Attribute"></a>
### Message NodeInfo.Attribute
Administrator-defined Attributes of the FrostFS Storage Node.
Administrator-defined Attributes of the NeoFS Storage Node.
`Attribute` is a Key-Value metadata pair. Key name must be a valid UTF-8
string. Value can't be empty.
Attributes can be constructed into a chain of attributes: any attribute can
have a parent attribute and a child attribute (except the first and the
last one). A string representation of the chain of attributes in FrostFS
Storage Node configuration uses ":" and "/" symbols, e.g.:
have a parent attribute and a child attribute (except the first and the last
one). A string representation of the chain of attributes in NeoFS Storage
Node configuration uses ":" and "/" symbols, e.g.:
`FrostFS_NODE_ATTRIBUTE_1=key1:val1/key2:val2`
`NEOFS_NODE_ATTRIBUTE_1=key1:val1/key2:val2`
Therefore the string attribute representation in the Node configuration
must use "\:", "\/" and "\\" escaped symbols if any of them appears in an
attribute's key or value.
Therefore the string attribute representation in the Node configuration must
use "\:", "\/" and "\\" escaped symbols if any of them appears in an attribute's
key or value.
Node's attributes are mostly used during Storage Policy evaluation to
calculate object's placement and find a set of nodes satisfying policy
@ -465,8 +426,8 @@ explicitly set:
[ISO 3166-2](https://en.wikipedia.org/wiki/ISO_3166-2). Calculated
automatically from `UN-LOCODE` attribute.
* Continent \
Node's continent name according to the [Seven-Continent
model](https://en.wikipedia.org/wiki/Continent#Number). Calculated
Node's continent name according to the [Seven-Continent model]
(https://en.wikipedia.org/wiki/Continent#Number). Calculated
automatically from `UN-LOCODE` attribute.
* ExternalAddr
Node's preferred way for communications with external clients.
@ -474,7 +435,7 @@ explicitly set:
Must contain a comma-separated list of multi-addresses.
For detailed description of each well-known attribute please see the
corresponding section in FrostFS Technical Specification.
corresponding section in NeoFS Technical Specification.
| Field | Type | Label | Description |
@ -495,10 +456,9 @@ storage policy definition languages.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| replicas | [Replica](#neo.fs.v2.netmap.Replica) | repeated | Rules to set number of object replicas and place each one into a named bucket |
| container_backup_factor | [uint32](#uint32) | | Container backup factor controls how deep FrostFS will search for nodes alternatives to include into container's nodes subset |
| container_backup_factor | [uint32](#uint32) | | Container backup factor controls how deep NeoFS will search for nodes alternatives to include into container's nodes subset |
| selectors | [Selector](#neo.fs.v2.netmap.Selector) | repeated | Set of Selectors to form the container's nodes subset |
| filters | [Filter](#neo.fs.v2.netmap.Filter) | repeated | List of named filters to reference in selectors |
| unique | [bool](#bool) | | Unique flag defines non-overlapping application for replicas |
<a name="neo.fs.v2.netmap.Replica"></a>
@ -513,8 +473,6 @@ default.
| ----- | ---- | ----- | ----------- |
| count | [uint32](#uint32) | | How many object replicas to put |
| selector | [string](#string) | | Named selector bucket to put replicas |
| ec_data_count | [uint32](#uint32) | | Data shards count |
| ec_parity_count | [uint32](#uint32) | | Parity shards count |
<a name="neo.fs.v2.netmap.Selector"></a>
@ -553,7 +511,7 @@ hash distance.
<a name="neo.fs.v2.netmap.NodeInfo.State"></a>
### NodeInfo.State
Represents the enumeration of various states of the FrostFS node.
Represents the enumeration of various states of the NeoFS node.
| Name | Number | Description |
| ---- | ------ | ----------- |
@ -580,8 +538,6 @@ Operations on filters
| LE | 6 | Less or equal |
| OR | 7 | Logical OR |
| AND | 8 | Logical AND |
| NOT | 9 | Logical negation |
| LIKE | 10 | Matches pattern |
<!-- end enums -->
@ -607,3 +563,4 @@ Operations on filters
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -4,66 +4,54 @@
## Table of Contents
- [object/service.proto](#object/service.proto)
- Services
- [ObjectService](#neo.fs.v2.object.ObjectService)
- Services
- [ObjectService](#neo.fs.v2.object.ObjectService)
- Messages
- [DeleteRequest](#neo.fs.v2.object.DeleteRequest)
- [DeleteRequest.Body](#neo.fs.v2.object.DeleteRequest.Body)
- [DeleteResponse](#neo.fs.v2.object.DeleteResponse)
- [DeleteResponse.Body](#neo.fs.v2.object.DeleteResponse.Body)
- [GetRangeHashRequest](#neo.fs.v2.object.GetRangeHashRequest)
- [GetRangeHashRequest.Body](#neo.fs.v2.object.GetRangeHashRequest.Body)
- [GetRangeHashResponse](#neo.fs.v2.object.GetRangeHashResponse)
- [GetRangeHashResponse.Body](#neo.fs.v2.object.GetRangeHashResponse.Body)
- [GetRangeRequest](#neo.fs.v2.object.GetRangeRequest)
- [GetRangeRequest.Body](#neo.fs.v2.object.GetRangeRequest.Body)
- [GetRangeResponse](#neo.fs.v2.object.GetRangeResponse)
- [GetRangeResponse.Body](#neo.fs.v2.object.GetRangeResponse.Body)
- [GetRequest](#neo.fs.v2.object.GetRequest)
- [GetRequest.Body](#neo.fs.v2.object.GetRequest.Body)
- [GetResponse](#neo.fs.v2.object.GetResponse)
- [GetResponse.Body](#neo.fs.v2.object.GetResponse.Body)
- [GetResponse.Body.Init](#neo.fs.v2.object.GetResponse.Body.Init)
- [HeadRequest](#neo.fs.v2.object.HeadRequest)
- [HeadRequest.Body](#neo.fs.v2.object.HeadRequest.Body)
- [HeadResponse](#neo.fs.v2.object.HeadResponse)
- [HeadResponse.Body](#neo.fs.v2.object.HeadResponse.Body)
- [HeaderWithSignature](#neo.fs.v2.object.HeaderWithSignature)
- [PatchRequest](#neo.fs.v2.object.PatchRequest)
- [PatchRequest.Body](#neo.fs.v2.object.PatchRequest.Body)
- [PatchRequest.Body.Patch](#neo.fs.v2.object.PatchRequest.Body.Patch)
- [PatchResponse](#neo.fs.v2.object.PatchResponse)
- [PatchResponse.Body](#neo.fs.v2.object.PatchResponse.Body)
- [PutRequest](#neo.fs.v2.object.PutRequest)
- [PutRequest.Body](#neo.fs.v2.object.PutRequest.Body)
- [PutRequest.Body.Init](#neo.fs.v2.object.PutRequest.Body.Init)
- [PutResponse](#neo.fs.v2.object.PutResponse)
- [PutResponse.Body](#neo.fs.v2.object.PutResponse.Body)
- [PutSingleRequest](#neo.fs.v2.object.PutSingleRequest)
- [PutSingleRequest.Body](#neo.fs.v2.object.PutSingleRequest.Body)
- [PutSingleResponse](#neo.fs.v2.object.PutSingleResponse)
- [PutSingleResponse.Body](#neo.fs.v2.object.PutSingleResponse.Body)
- [Range](#neo.fs.v2.object.Range)
- [SearchRequest](#neo.fs.v2.object.SearchRequest)
- [SearchRequest.Body](#neo.fs.v2.object.SearchRequest.Body)
- [SearchRequest.Body.Filter](#neo.fs.v2.object.SearchRequest.Body.Filter)
- [SearchResponse](#neo.fs.v2.object.SearchResponse)
- [SearchResponse.Body](#neo.fs.v2.object.SearchResponse.Body)
- [DeleteRequest](#neo.fs.v2.object.DeleteRequest)
- [DeleteRequest.Body](#neo.fs.v2.object.DeleteRequest.Body)
- [DeleteResponse](#neo.fs.v2.object.DeleteResponse)
- [DeleteResponse.Body](#neo.fs.v2.object.DeleteResponse.Body)
- [GetRangeHashRequest](#neo.fs.v2.object.GetRangeHashRequest)
- [GetRangeHashRequest.Body](#neo.fs.v2.object.GetRangeHashRequest.Body)
- [GetRangeHashResponse](#neo.fs.v2.object.GetRangeHashResponse)
- [GetRangeHashResponse.Body](#neo.fs.v2.object.GetRangeHashResponse.Body)
- [GetRangeRequest](#neo.fs.v2.object.GetRangeRequest)
- [GetRangeRequest.Body](#neo.fs.v2.object.GetRangeRequest.Body)
- [GetRangeResponse](#neo.fs.v2.object.GetRangeResponse)
- [GetRangeResponse.Body](#neo.fs.v2.object.GetRangeResponse.Body)
- [GetRequest](#neo.fs.v2.object.GetRequest)
- [GetRequest.Body](#neo.fs.v2.object.GetRequest.Body)
- [GetResponse](#neo.fs.v2.object.GetResponse)
- [GetResponse.Body](#neo.fs.v2.object.GetResponse.Body)
- [GetResponse.Body.Init](#neo.fs.v2.object.GetResponse.Body.Init)
- [HeadRequest](#neo.fs.v2.object.HeadRequest)
- [HeadRequest.Body](#neo.fs.v2.object.HeadRequest.Body)
- [HeadResponse](#neo.fs.v2.object.HeadResponse)
- [HeadResponse.Body](#neo.fs.v2.object.HeadResponse.Body)
- [HeaderWithSignature](#neo.fs.v2.object.HeaderWithSignature)
- [PutRequest](#neo.fs.v2.object.PutRequest)
- [PutRequest.Body](#neo.fs.v2.object.PutRequest.Body)
- [PutRequest.Body.Init](#neo.fs.v2.object.PutRequest.Body.Init)
- [PutResponse](#neo.fs.v2.object.PutResponse)
- [PutResponse.Body](#neo.fs.v2.object.PutResponse.Body)
- [Range](#neo.fs.v2.object.Range)
- [SearchRequest](#neo.fs.v2.object.SearchRequest)
- [SearchRequest.Body](#neo.fs.v2.object.SearchRequest.Body)
- [SearchRequest.Body.Filter](#neo.fs.v2.object.SearchRequest.Body.Filter)
- [SearchResponse](#neo.fs.v2.object.SearchResponse)
- [SearchResponse.Body](#neo.fs.v2.object.SearchResponse.Body)
- [object/types.proto](#object/types.proto)
- Messages
- [ECInfo](#neo.fs.v2.object.ECInfo)
- [ECInfo.Chunk](#neo.fs.v2.object.ECInfo.Chunk)
- [Header](#neo.fs.v2.object.Header)
- [Header.Attribute](#neo.fs.v2.object.Header.Attribute)
- [Header.EC](#neo.fs.v2.object.Header.EC)
- [Header.Split](#neo.fs.v2.object.Header.Split)
- [Object](#neo.fs.v2.object.Object)
- [ShortHeader](#neo.fs.v2.object.ShortHeader)
- [SplitInfo](#neo.fs.v2.object.SplitInfo)
- [Header](#neo.fs.v2.object.Header)
- [Header.Attribute](#neo.fs.v2.object.Header.Attribute)
- [Header.Split](#neo.fs.v2.object.Header.Split)
- [Object](#neo.fs.v2.object.Object)
- [ShortHeader](#neo.fs.v2.object.ShortHeader)
- [SplitInfo](#neo.fs.v2.object.SplitInfo)
- [Scalar Value Types](#scalar-value-types)
@ -92,19 +80,17 @@ rpc Head(HeadRequest) returns (HeadResponse);
rpc Search(SearchRequest) returns (stream SearchResponse);
rpc GetRange(GetRangeRequest) returns (stream GetRangeResponse);
rpc GetRangeHash(GetRangeHashRequest) returns (GetRangeHashResponse);
rpc PutSingle(PutSingleRequest) returns (PutSingleResponse);
rpc Patch(stream PatchRequest) returns (PatchResponse);
```
#### Method Get
Receive full object structure, including Headers and payload. Response uses
gRPC stream. First response message carries the object with the requested
address. Chunk messages are parts of the object's payload if it is needed.
All messages, except the first one, carry payload chunks. The requested
object can be restored by concatenation of object message payload and all
chunks keeping the receiving order.
gRPC stream. First response message carries the object with the requested address.
Chunk messages are parts of the object's payload if it is needed. All
messages, except the first one, carry payload chunks. The requested object can
be restored by concatenation of object message payload and all chunks
keeping the receiving order.
Extended headers can change `Get` behaviour:
* [ __SYSTEM__NETMAP_EPOCH ] \
@ -113,10 +99,9 @@ Extended headers can change `Get` behaviour:
calculation.
* [ __SYSTEM__NETMAP_LOOKUP_DEPTH ] \
(`__NEOFS__NETMAP_LOOKUP_DEPTH` is deprecated) \
Will try older versions (starting from `__SYSTEM__NETMAP_EPOCH`
(`__NEOFS__NETMAP_EPOCH` is deprecated) if specified or the latest one
otherwise) of Network Map to find an object until the depth limit is
reached.
Will try older versions (starting from `__SYSTEM__NETMAP_EPOCH` (`__NEOFS__NETMAP_EPOCH` is deprecated) if specified or
the latest one otherwise) of Network Map to find an object until the depth
limit is reached.
Please refer to detailed `XHeader` description.
@ -132,8 +117,6 @@ Statuses:
the requested object has been marked as deleted;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
@ -164,18 +147,15 @@ Statuses:
- **ACCESS_DENIED** (2048, SECTION_OBJECT): \
write access to the container is denied;
- **LOCKED** (2050, SECTION_OBJECT): \
placement of an object of type TOMBSTONE that includes at least one
locked object is prohibited;
placement of an object of type TOMBSTONE that includes at least one locked
object is prohibited;
- **LOCK_NON_REGULAR_OBJECT** (2051, SECTION_OBJECT): \
placement of an object of type LOCK that includes at least one object of
type other than REGULAR is prohibited;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object storage container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_NOT_FOUND** (4096, SECTION_SESSION): \
(for trusted object preparation) session private key does not exist or
has
(for trusted object preparation) session private key does not exist or has
been deleted;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
@ -202,15 +182,10 @@ Statuses:
- Common failures (SECTION_FAILURE_COMMON);
- **ACCESS_DENIED** (2048, SECTION_OBJECT): \
delete access to the object is denied;
- **OBJECT_NOT_FOUND** (2049, SECTION_OBJECT): \
the object could not be deleted because it has not been \
found within the container;
- **LOCKED** (2050, SECTION_OBJECT): \
deleting a locked object is prohibited;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
@ -243,8 +218,6 @@ Statuses:
the requested object has been marked as deleted;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
@ -254,7 +227,7 @@ Statuses:
#### Method Search
Search objects in container. Search query allows to match by Object
Header's filed values. Please see the corresponding FrostFS Technical
Header's filed values. Please see the corresponding NeoFS Technical
Specification section for more details.
Extended headers can change `Search` behaviour:
@ -273,8 +246,6 @@ Statuses:
access to operation SEARCH of the object is denied;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
search container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
@ -285,8 +256,8 @@ Statuses:
Get byte range of data payload. Range is set as an (offset, length) tuple.
Like in `Get` method, the response uses gRPC stream. Requested range can be
restored by concatenation of all received payload chunks keeping the
receiving order.
restored by concatenation of all received payload chunks keeping the receiving
order.
Extended headers can change `GetRange` behaviour:
* [ __SYSTEM__NETMAP_EPOCH ] \
@ -314,8 +285,6 @@ Statuses:
the requested range is out of bounds;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
@ -353,107 +322,12 @@ Statuses:
the requested range is out of bounds;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
| Name | Input | Output |
| ---- | ----- | ------ |
| GetRangeHash | [GetRangeHashRequest](#neo.fs.v2.object.GetRangeHashRequest) | [GetRangeHashResponse](#neo.fs.v2.object.GetRangeHashResponse) |
#### Method PutSingle
Put the prepared object into container.
`ContainerID`, `ObjectID`, `OwnerID`, `PayloadHash` and `PayloadLength` of
an object MUST be set.
Extended headers can change `Put` behaviour:
* [ __SYSTEM__NETMAP_EPOCH \
(`__NEOFS__NETMAP_EPOCH` is deprecated) \
Will use the requested version of Network Map for object placement
calculation.
Please refer to detailed `XHeader` description.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
object has been successfully saved in the container;
- Common failures (SECTION_FAILURE_COMMON);
- **ACCESS_DENIED** (2048, SECTION_OBJECT): \
write access to the container is denied;
- **LOCKED** (2050, SECTION_OBJECT): \
placement of an object of type TOMBSTONE that includes at least one
locked object is prohibited;
- **LOCK_NON_REGULAR_OBJECT** (2051, SECTION_OBJECT): \
placement of an object of type LOCK that includes at least one object of
type other than REGULAR is prohibited;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object storage container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_NOT_FOUND** (4096, SECTION_SESSION): \
(for trusted object preparation) session private key does not exist or
has
been deleted;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
| Name | Input | Output |
| ---- | ----- | ------ |
| PutSingle | [PutSingleRequest](#neo.fs.v2.object.PutSingleRequest) | [PutSingleResponse](#neo.fs.v2.object.PutSingleResponse) |
#### Method Patch
Patch the object. Request uses gRPC stream. First message must set
the address of the object that is going to get patched. If the object's
attributes are patched, then these attrubutes must be set only within the
first stream message.
If the patch request is performed by NOT the object's owner but if the
actor has the permission to perform the patch, then `OwnerID` of the object
is changed. In this case the object's owner loses the object's ownership
after the patch request is successfully done.
As objects are content-addressable the patching causes new object ID
generation for the patched object. This object id is set witihn
`PatchResponse`. But the object id may remain unchanged in such cases:
1. The chunk of the applying patch contains the same value as the object's
payload within the same range;
2. The patch that reverts the changes applied by preceding patch;
3. The application of the same patches for the object a few times.
Extended headers can change `Patch` behaviour:
* [ __SYSTEM__NETMAP_EPOCH \
(`__NEOFS__NETMAP_EPOCH` is deprecated) \
Will use the requsted version of Network Map for object placement
calculation.
Please refer to detailed `XHeader` description.
Statuses:
- **OK** (0, SECTION_SUCCESS): \
object has been successfully patched and saved in the container;
- Common failures (SECTION_FAILURE_COMMON);
- **ACCESS_DENIED** (2048, SECTION_OBJECT): \
write access to the container is denied;
- **OBJECT_NOT_FOUND** (2049, SECTION_OBJECT): \
object not found in container;
- **OBJECT_ALREADY_REMOVED** (2052, SECTION_OBJECT): \
the requested object has been marked as deleted.
- **OUT_OF_RANGE** (2053, SECTION_OBJECT): \
the requested range is out of bounds;
- **CONTAINER_NOT_FOUND** (3072, SECTION_CONTAINER): \
object storage container not found;
- **CONTAINER_ACCESS_DENIED** (3074, SECTION_CONTAINER): \
access to container is denied;
- **TOKEN_NOT_FOUND** (4096, SECTION_SESSION): \
(for trusted object preparation) session private key does not exist or
has been deleted;
- **TOKEN_EXPIRED** (4097, SECTION_SESSION): \
provided session token has expired.
| Name | Input | Output |
| ---- | ----- | ------ |
| Patch | [PatchRequest](#neo.fs.v2.object.PatchRequest) | [PatchResponse](#neo.fs.v2.object.PatchResponse) |
<!-- end services -->
@ -610,7 +484,6 @@ chunks.
| ----- | ---- | ----- | ----------- |
| chunk | [bytes](#bytes) | | Chunked object payload's range. |
| split_info | [SplitInfo](#neo.fs.v2.object.SplitInfo) | | Meta information of split hierarchy. |
| ec_info | [ECInfo](#neo.fs.v2.object.ECInfo) | | Meta information for EC object assembly. |
<a name="neo.fs.v2.object.GetRequest"></a>
@ -662,7 +535,6 @@ GET Object Response body
| init | [GetResponse.Body.Init](#neo.fs.v2.object.GetResponse.Body.Init) | | Initial part of the object stream |
| chunk | [bytes](#bytes) | | Chunked object payload |
| split_info | [SplitInfo](#neo.fs.v2.object.SplitInfo) | | Meta information of split hierarchy for object assembly. |
| ec_info | [ECInfo](#neo.fs.v2.object.ECInfo) | | Meta information for EC object assembly. |
<a name="neo.fs.v2.object.GetResponse.Body.Init"></a>
@ -729,7 +601,6 @@ Object HEAD response body
| header | [HeaderWithSignature](#neo.fs.v2.object.HeaderWithSignature) | | Full object's `Header` with `ObjectID` signature |
| short_header | [ShortHeader](#neo.fs.v2.object.ShortHeader) | | Short object header |
| split_info | [SplitInfo](#neo.fs.v2.object.SplitInfo) | | Meta information of split hierarchy. |
| ec_info | [ECInfo](#neo.fs.v2.object.ECInfo) | | Meta information for EC object assembly. |
<a name="neo.fs.v2.object.HeaderWithSignature"></a>
@ -750,71 +621,6 @@ following steps:
| signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Signed `ObjectID` to verify full header's authenticity |
<a name="neo.fs.v2.object.PatchRequest"></a>
### Message PatchRequest
Object PATCH request
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [PatchRequest.Body](#neo.fs.v2.object.PatchRequest.Body) | | Body for patch request message. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.object.PatchRequest.Body"></a>
### Message PatchRequest.Body
PATCH request body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| address | [neo.fs.v2.refs.Address](#neo.fs.v2.refs.Address) | | The address of the object that is requested to get patched. |
| new_attributes | [Header.Attribute](#neo.fs.v2.object.Header.Attribute) | repeated | New attributes for the object. See `replace_attributes` flag usage to define how new attributes should be set. |
| replace_attributes | [bool](#bool) | | If this flag is set, then the object's attributes will be entirely replaced by `new_attributes` list. The empty `new_attributes` list with `replace_attributes = true` just resets attributes list for the object.
Default `false` value for this flag means the attributes will be just merged. If the incoming `new_attributes` list contains already existing key, then it just replaces it while merging the lists. |
| patch | [PatchRequest.Body.Patch](#neo.fs.v2.object.PatchRequest.Body.Patch) | | The patch that is applied for the object. |
<a name="neo.fs.v2.object.PatchRequest.Body.Patch"></a>
### Message PatchRequest.Body.Patch
The patch for the object's payload.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| source_range | [Range](#neo.fs.v2.object.Range) | | The range of the source object for which the payload is replaced by the patch's chunk. If the range's `length = 0`, then the patch's chunk is just appended to the original payload starting from the `offest` without any replace. |
| chunk | [bytes](#bytes) | | The chunk that is being appended to or that replaces the original payload on the given range. |
<a name="neo.fs.v2.object.PatchResponse"></a>
### Message PatchResponse
Object PATCH response
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [PatchResponse.Body](#neo.fs.v2.object.PatchResponse.Body) | | Body for patch response message. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.object.PatchResponse.Body"></a>
### Message PatchResponse.Body
PATCH response body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| object_id | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | | The object ID of the saved patched object. |
<a name="neo.fs.v2.object.PutRequest"></a>
### Message PutRequest
@ -879,51 +685,6 @@ PUT Object response body
| object_id | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | | Identifier of the saved object |
<a name="neo.fs.v2.object.PutSingleRequest"></a>
### Message PutSingleRequest
Object PUT Single request
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [PutSingleRequest.Body](#neo.fs.v2.object.PutSingleRequest.Body) | | Body of put single object request message. |
| meta_header | [neo.fs.v2.session.RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | Carries request meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader) | | Carries request verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.object.PutSingleRequest.Body"></a>
### Message PutSingleRequest.Body
PUT Single request body
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| object | [Object](#neo.fs.v2.object.Object) | | Prepared object with payload. |
| copies_number | [uint32](#uint32) | repeated | Number of copies of the object to store within the RPC call. By default, object is processed according to the container's placement policy. Every number is treated as a minimal number of nodes in a corresponding placement vector that must store an object to complete the request successfully. The length MUST equal the placement vectors number, otherwise request is considered malformed. |
<a name="neo.fs.v2.object.PutSingleResponse"></a>
### Message PutSingleResponse
Object PUT Single response
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [PutSingleResponse.Body](#neo.fs.v2.object.PutSingleResponse.Body) | | Body of put single object response message. |
| meta_header | [neo.fs.v2.session.ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader) | | Carries response meta information. Header data is used only to regulate message transport and does not affect request execution. |
| verify_header | [neo.fs.v2.session.ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader) | | Carries response verification information. This header is used to authenticate the nodes of the message route and check the correctness of transmission. |
<a name="neo.fs.v2.object.PutSingleResponse.Body"></a>
### Message PutSingleResponse.Body
PUT Single Object response body
<a name="neo.fs.v2.object.Range"></a>
### Message Range
@ -965,11 +726,11 @@ Object Search request body
<a name="neo.fs.v2.object.SearchRequest.Body.Filter"></a>
### Message SearchRequest.Body.Filter
Filter structure checks if the object header field or the attribute
content matches a value.
Filter structure checks if the object header field or the attribute content
matches a value.
If no filters are set, search request will return all objects of the
container, including Regular object and Tombstone
container, including Regular object, Tombstones and Storage Group
objects. Most human users expect to get only object they can directly
work with. In that case, `$Object:ROOT` filter should be used.
@ -999,19 +760,16 @@ prefix to the name. Here is the list of fields available via this prefix:
object_id of parent
* $Object:split.splitID \
16 byte UUIDv4 used to identify the split object hierarchy parts
* $Object:ec.parent \
If the object is stored according to EC policy, then ec_parent
attribute is set to return an id list of all related EC chunks.
There are some well-known filter aliases to match objects by certain
properties:
* $Object:ROOT \
Returns only `REGULAR` type objects that are not split or that are the
top level root objects in a split hierarchy. This includes objects not
Returns only `REGULAR` type objects that are not split or that are the top
level root objects in a split hierarchy. This includes objects not
present physically, like large objects split into smaller objects
without a separate top-level root object. Objects of other types like
Locks and Tombstones will not be shown. This filter may be
StorageGroups and Tombstones will not be shown. This filter may be
useful for listing objects like `ls` command of some virtual file
system. This filter is activated if the `key` exists, disregarding the
value and matcher type.
@ -1020,8 +778,8 @@ properties:
activated if the `key` exists, disregarding the value and matcher type.
Note: using filters with a key with prefix `$Object:` and match type
`NOT_PRESENT `is not recommended since this is not a cross-version
approach. Behavior when processing this kind of filters is undefined.
`NOT_PRESENT `is not recommended since this is not a cross-version approach.
Behavior when processing this kind of filters is undefined.
| Field | Type | Label | Description |
@ -1069,30 +827,6 @@ Object Search response body
<!-- end services -->
<a name="neo.fs.v2.object.ECInfo"></a>
### Message ECInfo
Meta information for the erasure-encoded object.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| chunks | [ECInfo.Chunk](#neo.fs.v2.object.ECInfo.Chunk) | repeated | Chunk stored on the node. |
<a name="neo.fs.v2.object.ECInfo.Chunk"></a>
### Message ECInfo.Chunk
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| id | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | | Object ID of the chunk. |
| index | [uint32](#uint32) | | Index of the chunk. |
| total | [uint32](#uint32) | | Total number of chunks in this split. |
<a name="neo.fs.v2.object.Header"></a>
### Message Header
@ -1112,7 +846,6 @@ Object Header
| session_token | [neo.fs.v2.session.SessionToken](#neo.fs.v2.session.SessionToken) | | Session token, if it was used during Object creation. Need it to verify integrity and authenticity out of Request scope. |
| attributes | [Header.Attribute](#neo.fs.v2.object.Header.Attribute) | repeated | User-defined object attributes |
| split | [Header.Split](#neo.fs.v2.object.Header.Split) | | Position of the object in the split hierarchy |
| ec | [Header.EC](#neo.fs.v2.object.Header.EC) | | Erasure code chunk information. |
<a name="neo.fs.v2.object.Header.Attribute"></a>
@ -1125,16 +858,15 @@ Key name must be an object-unique valid UTF-8 string. Value can't be empty.
Objects with duplicated attribute names or attributes with empty values
will be considered invalid.
There are some "well-known" attributes starting with `__SYSTEM__`
(`__NEOFS__` is deprecated) prefix that affect system behaviour:
There are some "well-known" attributes starting with `__SYSTEM__` (`__NEOFS__` is deprecated) prefix
that affect system behaviour:
* [ __SYSTEM__UPLOAD_ID ] \
(`__NEOFS__UPLOAD_ID` is deprecated) \
Marks smaller parts of a split bigger object
* [ __SYSTEM__EXPIRATION_EPOCH ] \
(`__NEOFS__EXPIRATION_EPOCH` is deprecated) \
The epoch after which object with no LOCKs on it becomes unavailable.
Locked object continues to be available until each of the LOCKs expire.
Tells GC to delete object after that epoch
* [ __SYSTEM__TICK_EPOCH ] \
(`__NEOFS__TICK_EPOCH` is deprecated) \
Decimal number that defines what epoch must produce
@ -1164,7 +896,7 @@ And some well-known attributes used by applications only:
MIME Content Type of object's payload
For detailed description of each well-known attribute please see the
corresponding section in FrostFS Technical Specification.
corresponding section in NeoFS Technical Specification.
| Field | Type | Label | Description |
@ -1173,26 +905,6 @@ corresponding section in FrostFS Technical Specification.
| value | [string](#string) | | string value of the object attribute |
<a name="neo.fs.v2.object.Header.EC"></a>
### Message Header.EC
Erasure code can be applied to any object.
Information about encoded object structure is stored in `EC` header.
All objects belonging to a single EC group have the same `parent` field.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| parent | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | | Identifier of the origin object. Known to all chunks. |
| index | [uint32](#uint32) | | Index of this chunk. |
| total | [uint32](#uint32) | | Total number of chunks in this split. |
| header_length | [uint32](#uint32) | | Total length of a parent header. Used to trim padding zeroes. |
| header | [bytes](#bytes) | | Chunk of a parent header. |
| parent_split_id | [bytes](#bytes) | | As the origin object is EC-splitted its identifier is known to all chunks as parent. But parent itself can be a part of Split (does not relate to EC-split). In this case parent_split_id should be set. |
| parent_split_parent_id | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | | EC-parent's parent ID. parent_split_parent_id is set if EC-parent, itself, is a part of Split and if an object ID of its parent is presented. The field allows to determine how EC-chunk is placed in Split hierarchy. |
| parent_attributes | [Header.Attribute](#neo.fs.v2.object.Header.Attribute) | repeated | EC parent's attributes. |
<a name="neo.fs.v2.object.Header.Split"></a>
### Message Header.Split
@ -1216,8 +928,8 @@ must be within the same container.
### Message Object
Object structure. Object is immutable and content-addressed. It means
`ObjectID` will change if the header or the payload changes. It's calculated
as a hash of header field which contains hash of the object's payload.
`ObjectID` will change if the header or the payload changes. It's calculated as a
hash of header field which contains hash of the object's payload.
For non-regular object types payload format depends on object type specified
in the header.
@ -1253,8 +965,8 @@ Short header fields
### Message SplitInfo
Meta information of split hierarchy for object assembly. With the last part
one can traverse linked list of split hierarchy back to the first part and
assemble the original object. With a linking object one can assemble an
object right from the object parts.
assemble the original object. With a linking object one can assemble an object
right from the object parts.
| Field | Type | Label | Description |
@ -1285,18 +997,20 @@ Type of match expression
### ObjectType
Type of the object payload content. Only `REGULAR` type objects can be split,
hence `TOMBSTONE` and `LOCK` payload is limited by the
maximum object size.
hence `TOMBSTONE`, `STORAGE_GROUP` and `LOCK` payload is limited by the maximum
object size.
String presentation of object type is the same as definition:
* REGULAR
* TOMBSTONE
* STORAGE_GROUP
* LOCK
| Name | Number | Description |
| ---- | ------ | ----------- |
| REGULAR | 0 | Just a normal object |
| TOMBSTONE | 1 | Used internally to identify deleted objects |
| STORAGE_GROUP | 2 | StorageGroup information |
| LOCK | 3 | Object lock |
@ -1323,3 +1037,4 @@ String presentation of object type is the same as definition:
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -3,20 +3,20 @@
## 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)
- [Protocol Documentation](#protocol-documentation)
- [Table of Contents](#table-of-contents)
- [refs/types.proto](#refstypesproto)
- [Message Address](#message-address)
- [Message Checksum](#message-checksum)
- [Message ContainerID](#message-containerid)
- [Message ObjectID](#message-objectid)
- [Message OwnerID](#message-ownerid)
- [Message Signature](#message-signature)
- [Message SignatureRFC6979](#message-signaturerfc6979)
- [Message Version](#message-version)
- [ChecksumType](#checksumtype)
- [SignatureScheme](#signaturescheme)
- [Scalar Value Types](#scalar-value-types)
@ -32,7 +32,7 @@
<a name="neo.fs.v2.refs.Address"></a>
### Message Address
Objects in FrostFS are addressed by their ContainerID and ObjectID.
Objects in NeoFS are addressed by their ContainerID and ObjectID.
String presentation of `Address` is a concatenation of string encoded
`ContainerID` and `ObjectID` delimited by '/' character.
@ -65,7 +65,7 @@ Depending on checksum algorithm type, the string presentation may vary:
<a name="neo.fs.v2.refs.ContainerID"></a>
### Message ContainerID
FrostFS container identifier. Container structures are immutable and
NeoFS container identifier. Container structures are immutable and
content-addressed.
`ContainerID` is a 32 byte long
@ -90,14 +90,13 @@ with/without paddings are accepted.
<a name="neo.fs.v2.refs.ObjectID"></a>
### Message ObjectID
FrostFS Object unique identifier. Objects are immutable and
content-addressed. It means `ObjectID` will change if the `header` or the
`payload` changes.
NeoFS 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.
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.
@ -142,7 +141,7 @@ with/without paddings are accepted.
<a name="neo.fs.v2.refs.Signature"></a>
### Message Signature
Signature of something in FrostFS.
Signature of something in NeoFS.
| Field | Type | Label | Description |
@ -170,8 +169,7 @@ RFC 6979 signature.
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.
with 'v' prefix. i.e. `vX.Y`, where `X` is the major number, `Y` is the minor number.
| Field | Type | Label | Description |
@ -198,8 +196,7 @@ Checksum algorithm type.
<a name="neo.fs.v2.refs.SignatureScheme"></a>
### SignatureScheme
Signature scheme describes digital signing scheme used for (key, signature)
pair.
Signature scheme describes digital signing scheme used for (key, signature) pair.
| Name | Number | Description |
| ---- | ------ | ----------- |
@ -231,3 +228,4 @@ pair.
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

125
proto-docs/service.md Normal file
View file

@ -0,0 +1,125 @@
# Protocol Documentation
<a name="top"></a>
## Table of Contents
- [service/types.proto](#service/types.proto)
- Messages
- [RequestMetaHeader](#neo.fs.v2.service.RequestMetaHeader)
- [RequestVerificationHeader](#neo.fs.v2.service.RequestVerificationHeader)
- [ResponseMetaHeader](#neo.fs.v2.service.ResponseMetaHeader)
- [ResponseVerificationHeader](#neo.fs.v2.service.ResponseVerificationHeader)
- [XHeader](#neo.fs.v2.service.XHeader)
- [Scalar Value Types](#scalar-value-types)
<a name="service/types.proto"></a>
<p align="right"><a href="#top">Top</a></p>
## service/types.proto
<!-- end services -->
<a name="neo.fs.v2.service.RequestMetaHeader"></a>
### Message RequestMetaHeader
Information about the request
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| version | [neo.fs.v2.refs.Version](#neo.fs.v2.refs.Version) | | Client API version. |
| epoch | [uint64](#uint64) | | Client local epoch number. Set to 0 if unknown. |
| ttl | [uint32](#uint32) | | Maximum number of nodes in the request route. |
| x_headers | [XHeader](#neo.fs.v2.service.XHeader) | repeated | Request X-Headers. |
| session_token | [neo.fs.v2.session.SessionToken](#neo.fs.v2.session.SessionToken) | | Token is a token of the session within which the request is sent |
| bearer_token | [neo.fs.v2.acl.BearerToken](#neo.fs.v2.acl.BearerToken) | | Bearer is a Bearer token of the request |
| origin | [RequestMetaHeader](#neo.fs.v2.service.RequestMetaHeader) | | RequestMetaHeader of the origin request. |
<a name="neo.fs.v2.service.RequestVerificationHeader"></a>
### Message RequestVerificationHeader
Verification info for request signed by all intermediate nodes
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body_signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Request Body signature. Should be generated once by request initiator. |
| meta_signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Request Meta signature is added and signed by any intermediate node |
| origin_signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Sign previous hops |
| origin | [RequestVerificationHeader](#neo.fs.v2.service.RequestVerificationHeader) | | Chain of previous hops signatures |
<a name="neo.fs.v2.service.ResponseMetaHeader"></a>
### Message ResponseMetaHeader
Information about the response
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| version | [neo.fs.v2.refs.Version](#neo.fs.v2.refs.Version) | | Server API version. |
| epoch | [uint64](#uint64) | | Server local epoch number. |
| ttl | [uint32](#uint32) | | Maximum number of nodes in the response route. |
| x_headers | [XHeader](#neo.fs.v2.service.XHeader) | repeated | Response X-Headers. |
| origin | [ResponseMetaHeader](#neo.fs.v2.service.ResponseMetaHeader) | | Carries response meta header of the origin response. |
<a name="neo.fs.v2.service.ResponseVerificationHeader"></a>
### Message ResponseVerificationHeader
Verification info for response signed by all intermediate nodes
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body_signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Response Body signature. Should be generated once by answering node. |
| meta_signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Response Meta signature is added and signed by any intermediate node |
| origin_signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Sign previous hops |
| origin | [ResponseVerificationHeader](#neo.fs.v2.service.ResponseVerificationHeader) | | Chain of previous hops signatures |
<a name="neo.fs.v2.service.XHeader"></a>
### Message XHeader
Extended headers for Request/Response
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| key | [string](#string) | | Key of the X-Header. |
| value | [string](#string) | | Value of the X-Header. |
<!-- end messages -->
<!-- end enums -->
## Scalar Value Types
| .proto Type | Notes | C++ Type | Java Type | Python Type |
| ----------- | ----- | -------- | --------- | ----------- |
| <a name="double" /> double | | double | double | float |
| <a name="float" /> float | | float | float | float |
| <a name="int32" /> 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 |
| <a name="int64" /> 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 |
| <a name="uint32" /> uint32 | Uses variable-length encoding. | uint32 | int | int/long |
| <a name="uint64" /> uint64 | Uses variable-length encoding. | uint64 | long | int/long |
| <a name="sint32" /> sint32 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int32s. | int32 | int | int |
| <a name="sint64" /> sint64 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int64s. | int64 | long | int/long |
| <a name="fixed32" /> fixed32 | Always four bytes. More efficient than uint32 if values are often greater than 2^28. | uint32 | int | int |
| <a name="fixed64" /> fixed64 | Always eight bytes. More efficient than uint64 if values are often greater than 2^56. | uint64 | long | int/long |
| <a name="sfixed32" /> sfixed32 | Always four bytes. | int32 | int | int |
| <a name="sfixed64" /> sfixed64 | Always eight bytes. | int64 | long | int/long |
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -4,30 +4,30 @@
## Table of Contents
- [session/service.proto](#session/service.proto)
- Services
- [SessionService](#neo.fs.v2.session.SessionService)
- Services
- [SessionService](#neo.fs.v2.session.SessionService)
- Messages
- [CreateRequest](#neo.fs.v2.session.CreateRequest)
- [CreateRequest.Body](#neo.fs.v2.session.CreateRequest.Body)
- [CreateResponse](#neo.fs.v2.session.CreateResponse)
- [CreateResponse.Body](#neo.fs.v2.session.CreateResponse.Body)
- [CreateRequest](#neo.fs.v2.session.CreateRequest)
- [CreateRequest.Body](#neo.fs.v2.session.CreateRequest.Body)
- [CreateResponse](#neo.fs.v2.session.CreateResponse)
- [CreateResponse.Body](#neo.fs.v2.session.CreateResponse.Body)
- [session/types.proto](#session/types.proto)
- Messages
- [ContainerSessionContext](#neo.fs.v2.session.ContainerSessionContext)
- [ObjectSessionContext](#neo.fs.v2.session.ObjectSessionContext)
- [ObjectSessionContext.Target](#neo.fs.v2.session.ObjectSessionContext.Target)
- [RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader)
- [RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader)
- [ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader)
- [ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader)
- [SessionToken](#neo.fs.v2.session.SessionToken)
- [SessionToken.Body](#neo.fs.v2.session.SessionToken.Body)
- [SessionToken.Body.TokenLifetime](#neo.fs.v2.session.SessionToken.Body.TokenLifetime)
- [XHeader](#neo.fs.v2.session.XHeader)
- [ContainerSessionContext](#neo.fs.v2.session.ContainerSessionContext)
- [ObjectSessionContext](#neo.fs.v2.session.ObjectSessionContext)
- [ObjectSessionContext.Target](#neo.fs.v2.session.ObjectSessionContext.Target)
- [RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader)
- [RequestVerificationHeader](#neo.fs.v2.session.RequestVerificationHeader)
- [ResponseMetaHeader](#neo.fs.v2.session.ResponseMetaHeader)
- [ResponseVerificationHeader](#neo.fs.v2.session.ResponseVerificationHeader)
- [SessionToken](#neo.fs.v2.session.SessionToken)
- [SessionToken.Body](#neo.fs.v2.session.SessionToken.Body)
- [SessionToken.Body.TokenLifetime](#neo.fs.v2.session.SessionToken.Body.TokenLifetime)
- [XHeader](#neo.fs.v2.session.XHeader)
- [Scalar Value Types](#scalar-value-types)
@ -48,7 +48,7 @@
`SessionService` allows to establish a temporary trust relationship between
two peer nodes and generate a `SessionToken` as the proof of trust to be
attached in requests for further verification. Please see corresponding
section of FrostFS Technical Specification for details.
section of NeoFS Technical Specification for details.
```
rpc Create(CreateRequest) returns (CreateResponse);
@ -168,7 +168,7 @@ Carries objects involved in the object session.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| container | [neo.fs.v2.refs.ContainerID](#neo.fs.v2.refs.ContainerID) | | Indicates which container the session is spread to. Field MUST be set and correct. |
| objects | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | repeated | Indicates which objects the session is spread to. Objects are expected to be stored in the FrostFS container referenced by `container` field. Each element MUST have correct format. |
| objects | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | repeated | Indicates which objects the session is spread to. Objects are expected to be stored in the NeoFS container referenced by `container` field. Each element MUST have correct format. |
<a name="neo.fs.v2.session.RequestMetaHeader"></a>
@ -187,7 +187,7 @@ request meta headers are folded in matryoshka style.
| session_token | [SessionToken](#neo.fs.v2.session.SessionToken) | | Session token within which the request is sent |
| bearer_token | [neo.fs.v2.acl.BearerToken](#neo.fs.v2.acl.BearerToken) | | `BearerToken` with eACL overrides for the request |
| origin | [RequestMetaHeader](#neo.fs.v2.session.RequestMetaHeader) | | `RequestMetaHeader` of the origin request |
| magic_number | [uint64](#uint64) | | FrostFS network magic. Must match the value for the network that the server belongs to. |
| magic_number | [uint64](#uint64) | | NeoFS network magic. Must match the value for the network that the server belongs to. |
<a name="neo.fs.v2.session.RequestVerificationHeader"></a>
@ -237,12 +237,12 @@ Verification info for the response signed by all intermediate nodes
<a name="neo.fs.v2.session.SessionToken"></a>
### Message SessionToken
FrostFS Session Token.
NeoFS Session Token.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| body | [SessionToken.Body](#neo.fs.v2.session.SessionToken.Body) | | Session Token contains the proof of trust between peers to be attached in requests for further verification. Please see corresponding section of FrostFS Technical Specification for details. |
| body | [SessionToken.Body](#neo.fs.v2.session.SessionToken.Body) | | Session Token contains the proof of trust between peers to be attached in requests for further verification. Please see corresponding section of NeoFS Technical Specification for details. |
| signature | [neo.fs.v2.refs.Signature](#neo.fs.v2.refs.Signature) | | Signature of `SessionToken` information |
@ -278,15 +278,15 @@ Lifetime parameters of the token. Field names taken from rfc7519.
<a name="neo.fs.v2.session.XHeader"></a>
### Message XHeader
Extended headers for Request/Response. They may contain any user-defined
headers to be interpreted on application level.
Extended headers for Request/Response. They may contain any user-defined headers
to be interpreted on application level.
Key name must be a unique valid UTF-8 string. Value can't be empty. Requests
or Responses with duplicated header names or headers with empty values will
be considered invalid.
Key name must be a unique valid UTF-8 string. Value can't be empty. Requests or
Responses with duplicated header names or headers with empty values will be
considered invalid.
There are some "well-known" headers starting with `__SYSTEM__` (`__NEOFS__`
is deprecated) prefix that affect system behaviour:
There are some "well-known" headers starting with `__SYSTEM__` (`__NEOFS__` is deprecated) prefix that
affect system behaviour:
* [ __SYSTEM__NETMAP_EPOCH ] \
(`__NEOFS__NETMAP_EPOCH` is deprecated) \
@ -297,8 +297,8 @@ is deprecated) prefix that affect system behaviour:
(`__NEOFS__NETMAP_LOOKUP_DEPTH` is deprecated) \
If object can't be found using current epoch's netmap, this header limits
how many past epochs the node can look up through. The `value` is string
encoded `uint64` in decimal presentation. If set to '0' or not set, only
the current epoch will be used.
encoded `uint64` in decimal presentation. If set to '0' or not set, only the
current epoch will be used.
| Field | Type | Label | Description |
@ -338,7 +338,6 @@ Object request verbs
| DELETE | 5 | Refers to object.Delete RPC call |
| RANGE | 6 | Refers to object.GetRange RPC call |
| RANGEHASH | 7 | Refers to object.GetRangeHash RPC call |
| PATCH | 8 | Refers to object.Patch RPC call |
<!-- end enums -->
@ -364,3 +363,4 @@ Object request verbs
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -6,8 +6,8 @@
- [status/types.proto](#status/types.proto)
- Messages
- [Status](#neo.fs.v2.status.Status)
- [Status.Detail](#neo.fs.v2.status.Status.Detail)
- [Status](#neo.fs.v2.status.Status)
- [Status.Detail](#neo.fs.v2.status.Status.Detail)
- [Scalar Value Types](#scalar-value-types)
@ -26,12 +26,12 @@
<a name="neo.fs.v2.status.Status"></a>
### Message Status
Declares the general format of the status returns of the FrostFS RPC
protocol. Status is present in all response messages. Each RPC of FrostFS
protocol describes the possible outcomes and details of the operation.
Declares the general format of the status returns of the NeoFS RPC protocol.
Status is present in all response messages. Each RPC of NeoFS protocol
describes the possible outcomes and details of the operation.
Each status is assigned a one-to-one numeric code. Any unique result of an
operation in FrostFS is unambiguously associated with the code value.
operation in NeoFS is unambiguously associated with the code value.
Numerical set of codes is split into 1024-element sections. An enumeration
is defined for each section. Values can be referred to in the following ways:
@ -79,17 +79,6 @@ covered by the code.
<!-- end messages -->
<a name="neo.fs.v2.status.APEManager"></a>
### APEManager
Section of status for APE manager related operations.
| Name | Number | Description |
| ---- | ------ | ----------- |
| APE_MANAGER_ACCESS_DENIED | 0 | [**5120**] The operation is denied by APE manager. |
<a name="neo.fs.v2.status.CommonFail"></a>
### CommonFail
@ -98,10 +87,9 @@ Section of failed statuses independent of the operation.
| Name | Number | Description |
| ---- | ------ | ----------- |
| INTERNAL | 0 | [**1024**] Internal server error, default failure. Not detailed. If the server cannot match failed outcome to the code, it should use this code. |
| WRONG_MAGIC_NUMBER | 1 | [**1025**] Wrong magic of the FrostFS network. Details: - [**0**] Magic number of the served FrostFS network (big-endian 64-bit unsigned integer). |
| WRONG_MAGIC_NUMBER | 1 | [**1025**] Wrong magic of the NeoFS network. Details: - [**0**] Magic number of the served NeoFS network (big-endian 64-bit unsigned integer). |
| SIGNATURE_VERIFICATION_FAIL | 2 | [**1026**] Signature verification failure. |
| NODE_UNDER_MAINTENANCE | 3 | [**1027**] Node is under maintenance. |
| INVALID_ARGUMENT | 4 | [**1028**] Invalid argument error. If the server fails on validation of a request parameter as the client sent it incorrectly, then this code should be used. |
@ -114,7 +102,6 @@ Section of statuses for container-related operations.
| ---- | ------ | ----------- |
| CONTAINER_NOT_FOUND | 0 | [**3072**] Container not found. |
| EACL_NOT_FOUND | 1 | [**3073**] eACL table not found. |
| CONTAINER_ACCESS_DENIED | 2 | [**3074**] Container access denied. |
@ -146,7 +133,6 @@ Section identifiers.
| SECTION_OBJECT | 2 | Object service-specific errors. |
| SECTION_CONTAINER | 3 | Container service-specific errors. |
| SECTION_SESSION | 4 | Session service-specific errors. |
| SECTION_APE_MANAGER | 5 | Session service-specific errors. |
@ -165,7 +151,7 @@ Section of statuses for session-related operations.
<a name="neo.fs.v2.status.Success"></a>
### Success
Section of FrostFS successful return codes.
Section of NeoFS successful return codes.
| Name | Number | Description |
| ---- | ------ | ----------- |
@ -195,3 +181,4 @@ Section of FrostFS successful return codes.
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -0,0 +1,71 @@
# Protocol Documentation
<a name="top"></a>
## Table of Contents
- [storagegroup/types.proto](#storagegroup/types.proto)
- Messages
- [StorageGroup](#neo.fs.v2.storagegroup.StorageGroup)
- [Scalar Value Types](#scalar-value-types)
<a name="storagegroup/types.proto"></a>
<p align="right"><a href="#top">Top</a></p>
## storagegroup/types.proto
<!-- end services -->
<a name="neo.fs.v2.storagegroup.StorageGroup"></a>
### Message StorageGroup
StorageGroup keeps verification information for Data Audit sessions. Objects
that require paid storage guarantees are gathered in `StorageGroups` with
additional information used for the proof of storage. `StorageGroup` only
contains objects from the same container.
Being an object payload, StorageGroup may have expiration Epoch set with
`__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated) well-known attribute. When expired, StorageGroup
will be ignored by InnerRing nodes during Data Audit cycles and will be
deleted by Storage Nodes.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| validation_data_size | [uint64](#uint64) | | Total size of the payloads of objects in the storage group |
| validation_hash | [neo.fs.v2.refs.Checksum](#neo.fs.v2.refs.Checksum) | | Homomorphic hash from the concatenation of the payloads of the storage group members. The order of concatenation is the same as the order of the members in the `members` field. |
| expiration_epoch | [uint64](#uint64) | | DEPRECATED. Last NeoFS epoch number of the storage group lifetime |
| members | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | repeated | Strictly ordered list of storage group member objects. Members MUST be unique |
<!-- end messages -->
<!-- end enums -->
## Scalar Value Types
| .proto Type | Notes | C++ Type | Java Type | Python Type |
| ----------- | ----- | -------- | --------- | ----------- |
| <a name="double" /> double | | double | double | float |
| <a name="float" /> float | | float | float | float |
| <a name="int32" /> 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 |
| <a name="int64" /> 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 |
| <a name="uint32" /> uint32 | Uses variable-length encoding. | uint32 | int | int/long |
| <a name="uint64" /> uint64 | Uses variable-length encoding. | uint64 | long | int/long |
| <a name="sint32" /> sint32 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int32s. | int32 | int | int |
| <a name="sint64" /> sint64 | Uses variable-length encoding. Signed int value. These more efficiently encode negative numbers than regular int64s. | int64 | long | int/long |
| <a name="fixed32" /> fixed32 | Always four bytes. More efficient than uint32 if values are often greater than 2^28. | uint32 | int | int |
| <a name="fixed64" /> fixed64 | Always eight bytes. More efficient than uint64 if values are often greater than 2^56. | uint64 | long | int/long |
| <a name="sfixed32" /> sfixed32 | Always four bytes. | int32 | int | int |
| <a name="sfixed64" /> sfixed64 | Always eight bytes. | int64 | long | int/long |
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -6,7 +6,7 @@
- [tombstone/types.proto](#tombstone/types.proto)
- Messages
- [Tombstone](#neo.fs.v2.tombstone.Tombstone)
- [Tombstone](#neo.fs.v2.tombstone.Tombstone)
- [Scalar Value Types](#scalar-value-types)
@ -26,12 +26,12 @@
### Message Tombstone
Tombstone keeps record of deleted objects for a few epochs until they are
purged from the FrostFS network.
purged from the NeoFS network.
| Field | Type | Label | Description |
| ----- | ---- | ----- | ----------- |
| expiration_epoch | [uint64](#uint64) | | Last FrostFS epoch number of the tombstone lifetime. It's set by the tombstone creator depending on the current FrostFS network settings. A tombstone object must have the same expiration epoch value in `__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated) attribute. Otherwise, the tombstone will be rejected by a storage node. |
| expiration_epoch | [uint64](#uint64) | | Last NeoFS epoch number of the tombstone lifetime. It's set by the tombstone creator depending on the current NeoFS network settings. A tombstone object must have the same expiration epoch value in `__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated) attribute. Otherwise, the tombstone will be rejected by a storage node. |
| split_id | [bytes](#bytes) | | 16 byte UUID used to identify the split object hierarchy parts. Must be unique inside a container. All objects participating in the split must have the same `split_id` value. |
| members | [neo.fs.v2.refs.ObjectID](#neo.fs.v2.refs.ObjectID) | repeated | List of objects to be deleted. |
@ -60,3 +60,4 @@ purged from the FrostFS network.
| <a name="bool" /> bool | | bool | boolean | boolean |
| <a name="string" /> string | A string must always contain UTF-8 encoded or 7-bit ASCII text. | string | String | str/unicode |
| <a name="bytes" /> bytes | May contain any arbitrary sequence of bytes. | string | ByteString | str |

View file

@ -5,25 +5,24 @@ package neo.fs.v2.refs;
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/refs/grpc;refs";
option csharp_namespace = "Neo.FileStorage.API.Refs";
// Objects in FrostFS are addressed by their ContainerID and ObjectID.
// Objects in NeoFS are addressed by their ContainerID and ObjectID.
//
// String presentation of `Address` is a concatenation of string encoded
// `ContainerID` and `ObjectID` delimited by '/' character.
message Address {
// Container identifier
ContainerID container_id = 1 [ json_name = "containerID" ];
ContainerID container_id = 1 [json_name = "containerID"];
// Object identifier
ObjectID object_id = 2 [ json_name = "objectID" ];
ObjectID object_id = 2 [json_name = "objectID"];
}
// FrostFS Object unique identifier. Objects are immutable and
// content-addressed. It means `ObjectID` will change if the `header` or the
// `payload` changes.
// NeoFS 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.
// 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.
@ -35,10 +34,10 @@ message Address {
// with/without paddings are accepted.
message ObjectID {
// Object identifier in a binary format
bytes value = 1 [ json_name = "value" ];
bytes value = 1 [json_name = "value"];
}
// FrostFS container identifier. Container structures are immutable and
// NeoFS container identifier. Container structures are immutable and
// content-addressed.
//
// `ContainerID` is a 32 byte long
@ -55,7 +54,7 @@ message ObjectID {
// with/without paddings are accepted.
message ContainerID {
// Container identifier in a binary format.
bytes value = 1 [ json_name = "value" ];
bytes value = 1 [json_name = "value"];
}
// `OwnerID` is a derivative of a user's main public key. The transformation
@ -75,34 +74,32 @@ message ContainerID {
// with/without paddings are accepted.
message OwnerID {
// Identifier of the container owner in a binary format
bytes value = 1 [ json_name = "value" ];
bytes value = 1 [json_name = "value"];
}
// 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.
// with 'v' prefix. i.e. `vX.Y`, where `X` is the major number, `Y` is the minor number.
message Version {
// Major API version
uint32 major = 1 [ json_name = "major" ];
uint32 major = 1 [json_name = "major"];
// Minor API version
uint32 minor = 2 [ json_name = "minor" ];
uint32 minor = 2 [json_name = "minor"];
}
// Signature of something in FrostFS.
// Signature of something in NeoFS.
message Signature {
// Public key used for signing
bytes key = 1 [ json_name = "key" ];
bytes key = 1 [json_name = "key"];
// Signature
bytes sign = 2 [ json_name = "signature" ];
bytes sign = 2 [json_name = "signature"];
// Scheme contains digital signature scheme identifier
SignatureScheme scheme = 3 [ json_name = "scheme" ];
SignatureScheme scheme = 3 [json_name = "scheme"];
}
// Signature scheme describes digital signing scheme used for (key, signature)
// pair.
// Signature scheme describes digital signing scheme used for (key, signature) pair.
enum SignatureScheme {
// ECDSA with SHA-512 hashing (FIPS 186-3)
ECDSA_SHA512 = 0;
@ -118,9 +115,9 @@ enum SignatureScheme {
// RFC 6979 signature.
message SignatureRFC6979 {
// Public key used for signing
bytes key = 1 [ json_name = "key" ];
bytes key = 1 [json_name = "key"];
// Deterministic ECDSA with SHA-256 hashing
bytes sign = 2 [ json_name = "signature" ];
bytes sign = 2 [json_name = "signature"];
}
// Checksum algorithm type.
@ -144,8 +141,8 @@ enum ChecksumType {
// Hex encoded string without `0x` prefix
message Checksum {
// Checksum algorithm type
ChecksumType type = 1 [ json_name = "type" ];
ChecksumType type = 1 [json_name = "type"];
// Checksum itself
bytes sum = 2 [ json_name = "sum" ];
bytes sum = 2 [json_name = "sum"];
}

View file

@ -11,7 +11,7 @@ import "session/types.proto";
// `SessionService` allows to establish a temporary trust relationship between
// two peer nodes and generate a `SessionToken` as the proof of trust to be
// attached in requests for further verification. Please see corresponding
// section of FrostFS Technical Specification for details.
// section of NeoFS Technical Specification for details.
service SessionService {
// Open a new session between two peers.
//
@ -19,7 +19,7 @@ service SessionService {
// - **OK** (0, SECTION_SUCCESS):
// session has been successfully opened;
// - Common failures (SECTION_FAILURE_COMMON).
rpc Create(CreateRequest) returns (CreateResponse);
rpc Create (CreateRequest) returns (CreateResponse);
}
// Information necessary for opening a session.

View file

@ -36,112 +36,109 @@ message ObjectSessionContext {
// Refers to object.GetRangeHash RPC call
RANGEHASH = 7;
// Refers to object.Patch RPC call
PATCH = 8;
}
// Type of request for which the token is issued
Verb verb = 1 [ json_name = "verb" ];
Verb verb = 1 [json_name = "verb"];
// Carries objects involved in the object session.
message Target {
// Indicates which container the session is spread to. Field MUST be set
// and correct.
refs.ContainerID container = 1 [ json_name = "container" ];
refs.ContainerID container = 1 [json_name = "container"];
// Indicates which objects the session is spread to. Objects are expected
// to be stored in the FrostFS container referenced by `container` field.
// to be stored in the NeoFS container referenced by `container` field.
// Each element MUST have correct format.
repeated refs.ObjectID objects = 2 [ json_name = "objects" ];
repeated refs.ObjectID objects = 2 [json_name = "objects"];
}
// Object session target. MUST be correctly formed and set. If `objects`
// field is not empty, then the session applies only to these elements,
// otherwise, to all objects from the specified container.
Target target = 2 [ json_name = "target" ];
Target target = 2 [json_name = "target"];
}
// Context information for Session Tokens related to ContainerService requests.
message ContainerSessionContext {
// Container request verbs
enum Verb {
// Unknown verb
VERB_UNSPECIFIED = 0;
// Container request verbs
enum Verb {
// Unknown verb
VERB_UNSPECIFIED = 0;
// Refers to container.Put RPC call
PUT = 1;
// Refers to container.Put RPC call
PUT = 1;
// Refers to container.Delete RPC call
DELETE = 2;
// Refers to container.Delete RPC call
DELETE = 2;
// Refers to container.SetExtendedACL RPC call
SETEACL = 3;
}
// Type of request for which the token is issued
Verb verb = 1 [ json_name = "verb" ];
// Refers to container.SetExtendedACL RPC call
SETEACL = 3;
}
// Type of request for which the token is issued
Verb verb = 1 [json_name = "verb"];
// Spreads the action to all owner containers.
// If set, container_id field is ignored.
bool wildcard = 2 [ json_name = "wildcard" ];
// Spreads the action to all owner containers.
// If set, container_id field is ignored.
bool wildcard = 2 [json_name = "wildcard"];
// Particular container to which the action applies.
// Ignored if wildcard flag is set.
refs.ContainerID container_id = 3 [ json_name = "containerID" ];
// Particular container to which the action applies.
// Ignored if wildcard flag is set.
refs.ContainerID container_id = 3 [json_name = "containerID"];
}
// FrostFS Session Token.
// NeoFS Session Token.
message SessionToken {
// Session Token body
message Body {
// Token identifier is a valid UUIDv4 in binary form
bytes id = 1 [ json_name = "id" ];
bytes id = 1 [json_name = "id"];
// Identifier of the session initiator
neo.fs.v2.refs.OwnerID owner_id = 2 [ json_name = "ownerID" ];
neo.fs.v2.refs.OwnerID owner_id = 2 [json_name = "ownerID"];
// Lifetime parameters of the token. Field names taken from rfc7519.
message TokenLifetime {
// Expiration Epoch
uint64 exp = 1 [ json_name = "exp" ];
uint64 exp = 1 [json_name = "exp"];
// Not valid before Epoch
uint64 nbf = 2 [ json_name = "nbf" ];
uint64 nbf = 2 [json_name = "nbf"];
// Issued at Epoch
uint64 iat = 3 [ json_name = "iat" ];
uint64 iat = 3 [json_name = "iat"];
}
// Lifetime of the session
TokenLifetime lifetime = 3 [ json_name = "lifetime" ];
TokenLifetime lifetime = 3 [json_name = "lifetime"];
// Public key used in session
bytes session_key = 4 [ json_name = "sessionKey" ];
bytes session_key = 4 [json_name = "sessionKey"];
// Session Context information
oneof context {
// ObjectService session context
ObjectSessionContext object = 5 [ json_name = "object" ];
ObjectSessionContext object = 5 [json_name = "object"];
// ContainerService session context
ContainerSessionContext container = 6 [ json_name = "container" ];
ContainerSessionContext container = 6 [json_name = "container"];
}
}
// Session Token contains the proof of trust between peers to be attached in
// requests for further verification. Please see corresponding section of
// FrostFS Technical Specification for details.
Body body = 1 [ json_name = "body" ];
// NeoFS Technical Specification for details.
Body body = 1 [json_name = "body"];
// Signature of `SessionToken` information
neo.fs.v2.refs.Signature signature = 2 [ json_name = "signature" ];
neo.fs.v2.refs.Signature signature = 2 [json_name = "signature"];
}
// Extended headers for Request/Response. They may contain any user-defined
// headers to be interpreted on application level.
// Extended headers for Request/Response. They may contain any user-defined headers
// to be interpreted on application level.
//
// Key name must be a unique valid UTF-8 string. Value can't be empty. Requests
// or Responses with duplicated header names or headers with empty values will
// be considered invalid.
// Key name must be a unique valid UTF-8 string. Value can't be empty. Requests or
// Responses with duplicated header names or headers with empty values will be
// considered invalid.
//
// There are some "well-known" headers starting with `__SYSTEM__` (`__NEOFS__`
// is deprecated) prefix that affect system behaviour:
// There are some "well-known" headers starting with `__SYSTEM__` (`__NEOFS__` is deprecated) prefix that
// affect system behaviour:
//
// * [ __SYSTEM__NETMAP_EPOCH ] \
// (`__NEOFS__NETMAP_EPOCH` is deprecated) \
@ -152,90 +149,88 @@ message SessionToken {
// (`__NEOFS__NETMAP_LOOKUP_DEPTH` is deprecated) \
// If object can't be found using current epoch's netmap, this header limits
// how many past epochs the node can look up through. The `value` is string
// encoded `uint64` in decimal presentation. If set to '0' or not set, only
// the current epoch will be used.
// encoded `uint64` in decimal presentation. If set to '0' or not set, only the
// current epoch will be used.
message XHeader {
// Key of the X-Header
string key = 1 [ json_name = "key" ];
string key = 1 [json_name = "key"];
// Value of the X-Header
string value = 2 [ json_name = "value" ];
string value = 2 [json_name = "value"];
}
// Meta information attached to the request. When forwarded between peers,
// request meta headers are folded in matryoshka style.
message RequestMetaHeader {
// Peer's API version used
neo.fs.v2.refs.Version version = 1 [ json_name = "version" ];
neo.fs.v2.refs.Version version = 1 [json_name = "version"];
// Peer's local epoch number. Set to 0 if unknown.
uint64 epoch = 2 [ json_name = "epoch" ];
uint64 epoch = 2 [json_name = "epoch"];
// Maximum number of intermediate nodes in the request route
uint32 ttl = 3 [ json_name = "ttl" ];
uint32 ttl = 3 [json_name = "ttl"];
// Request X-Headers
repeated XHeader x_headers = 4 [ json_name = "xHeaders" ];
repeated XHeader x_headers = 4 [json_name = "xHeaders"];
// Session token within which the request is sent
SessionToken session_token = 5 [ json_name = "sessionToken" ];
SessionToken session_token = 5 [json_name = "sessionToken"];
// `BearerToken` with eACL overrides for the request
neo.fs.v2.acl.BearerToken bearer_token = 6 [ json_name = "bearerToken" ];
neo.fs.v2.acl.BearerToken bearer_token = 6 [json_name = "bearerToken"];
// `RequestMetaHeader` of the origin request
RequestMetaHeader origin = 7 [ json_name = "origin" ];
RequestMetaHeader origin = 7 [json_name = "origin"];
// FrostFS network magic. Must match the value for the network
// NeoFS network magic. Must match the value for the network
// that the server belongs to.
uint64 magic_number = 8 [ json_name = "magicNumber" ];
uint64 magic_number = 8 [json_name = "magicNumber"];
}
// Information about the response
message ResponseMetaHeader {
// Peer's API version used
neo.fs.v2.refs.Version version = 1 [ json_name = "version" ];
neo.fs.v2.refs.Version version = 1 [json_name = "version"];
// Peer's local epoch number
uint64 epoch = 2 [ json_name = "epoch" ];
uint64 epoch = 2 [json_name = "epoch"];
// Maximum number of intermediate nodes in the request route
uint32 ttl = 3 [ json_name = "ttl" ];
uint32 ttl = 3 [json_name = "ttl"];
// Response X-Headers
repeated XHeader x_headers = 4 [ json_name = "xHeaders" ];
repeated XHeader x_headers = 4 [json_name = "xHeaders"];
// `ResponseMetaHeader` of the origin request
ResponseMetaHeader origin = 5 [ json_name = "origin" ];
ResponseMetaHeader origin = 5 [json_name = "origin"];
// Status return
neo.fs.v2.status.Status status = 6 [ json_name = "status" ];
neo.fs.v2.status.Status status = 6 [json_name = "status"];
}
// Verification info for the request signed by all intermediate nodes.
message RequestVerificationHeader {
// Request Body signature. Should be generated once by the request initiator.
neo.fs.v2.refs.Signature body_signature = 1 [ json_name = "bodySignature" ];
neo.fs.v2.refs.Signature body_signature = 1 [json_name = "bodySignature"];
// Request Meta signature is added and signed by each intermediate node
neo.fs.v2.refs.Signature meta_signature = 2 [ json_name = "metaSignature" ];
neo.fs.v2.refs.Signature meta_signature = 2 [json_name = "metaSignature"];
// Signature of previous hops
neo.fs.v2.refs.Signature origin_signature = 3
[ json_name = "originSignature" ];
neo.fs.v2.refs.Signature origin_signature = 3 [json_name = "originSignature"];
// Chain of previous hops signatures
RequestVerificationHeader origin = 4 [ json_name = "origin" ];
RequestVerificationHeader origin = 4 [json_name = "origin"];
}
// Verification info for the response signed by all intermediate nodes
message ResponseVerificationHeader {
// Response Body signature. Should be generated once by an answering node.
neo.fs.v2.refs.Signature body_signature = 1 [ json_name = "bodySignature" ];
neo.fs.v2.refs.Signature body_signature = 1 [json_name = "bodySignature"];
// Response Meta signature is added and signed by each intermediate node
neo.fs.v2.refs.Signature meta_signature = 2 [ json_name = "metaSignature" ];
neo.fs.v2.refs.Signature meta_signature = 2 [json_name = "metaSignature"];
// Signature of previous hops
neo.fs.v2.refs.Signature origin_signature = 3
[ json_name = "originSignature" ];
neo.fs.v2.refs.Signature origin_signature = 3 [json_name = "originSignature"];
// Chain of previous hops signatures
ResponseVerificationHeader origin = 4 [ json_name = "origin" ];
ResponseVerificationHeader origin = 4 [json_name = "origin"];
}

View file

@ -5,12 +5,12 @@ package neo.fs.v2.status;
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/status/grpc;status";
option csharp_namespace = "Neo.FileStorage.API.Status";
// Declares the general format of the status returns of the FrostFS RPC
// protocol. Status is present in all response messages. Each RPC of FrostFS
// protocol describes the possible outcomes and details of the operation.
// Declares the general format of the status returns of the NeoFS RPC protocol.
// Status is present in all response messages. Each RPC of NeoFS protocol
// describes the possible outcomes and details of the operation.
//
// Each status is assigned a one-to-one numeric code. Any unique result of an
// operation in FrostFS is unambiguously associated with the code value.
// operation in NeoFS is unambiguously associated with the code value.
//
// Numerical set of codes is split into 1024-element sections. An enumeration
// is defined for each section. Values can be referred to in the following ways:
@ -33,130 +33,113 @@ option csharp_namespace = "Neo.FileStorage.API.Status";
// should not expect) useful information in the message. Field `details`
// should make the return more detailed.
message Status {
// The status code
uint32 code = 1;
// The status code
uint32 code = 1;
// Developer-facing error message
string message = 2;
// Developer-facing error message
string message = 2;
// Return detail. It contains additional information that can be used to
// analyze the response. Each code defines a set of details that can be
// attached to a status. Client should not handle details that are not
// covered by the code.
message Detail {
// Detail ID. The identifier is required to determine the binary format
// of the detail and how to decode it.
uint32 id = 1;
// Return detail. It contains additional information that can be used to
// analyze the response. Each code defines a set of details that can be
// attached to a status. Client should not handle details that are not
// covered by the code.
message Detail {
// Detail ID. The identifier is required to determine the binary format
// of the detail and how to decode it.
uint32 id = 1;
// Binary status detail. Must follow the format associated with ID.
// The possibility of missing a value must be explicitly allowed.
bytes value = 2;
}
// Binary status detail. Must follow the format associated with ID.
// The possibility of missing a value must be explicitly allowed.
bytes value = 2;
}
// Data detailing the outcome of the operation. Must be unique by ID.
repeated Detail details = 3;
// Data detailing the outcome of the operation. Must be unique by ID.
repeated Detail details = 3;
}
// Section identifiers.
enum Section {
// Successful return codes.
SECTION_SUCCESS = 0;
// Successful return codes.
SECTION_SUCCESS = 0;
// Failure codes regardless of the operation.
SECTION_FAILURE_COMMON = 1;
// Failure codes regardless of the operation.
SECTION_FAILURE_COMMON = 1;
// Object service-specific errors.
SECTION_OBJECT = 2;
// Object service-specific errors.
SECTION_OBJECT = 2;
// Container service-specific errors.
SECTION_CONTAINER = 3;
// Container service-specific errors.
SECTION_CONTAINER = 3;
// Session service-specific errors.
SECTION_SESSION = 4;
// Session service-specific errors.
SECTION_APE_MANAGER = 5;
// Session service-specific errors.
SECTION_SESSION = 4;
}
// Section of FrostFS successful return codes.
// Section of NeoFS successful return codes.
enum Success {
// [**0**] Default success. Not detailed.
// If the server cannot match successful outcome to the code, it should
// use this code.
OK = 0;
// [**0**] Default success. Not detailed.
// If the server cannot match successful outcome to the code, it should
// use this code.
OK = 0;
}
// Section of failed statuses independent of the operation.
enum CommonFail {
// [**1024**] Internal server error, default failure. Not detailed.
// If the server cannot match failed outcome to the code, it should
// use this code.
INTERNAL = 0;
// [**1024**] Internal server error, default failure. Not detailed.
// If the server cannot match failed outcome to the code, it should
// use this code.
INTERNAL = 0;
// [**1025**] Wrong magic of the FrostFS network.
// Details:
// - [**0**] Magic number of the served FrostFS network (big-endian 64-bit
// unsigned integer).
WRONG_MAGIC_NUMBER = 1;
// [**1025**] Wrong magic of the NeoFS network.
// Details:
// - [**0**] Magic number of the served NeoFS network (big-endian 64-bit
// unsigned integer).
WRONG_MAGIC_NUMBER = 1;
// [**1026**] Signature verification failure.
SIGNATURE_VERIFICATION_FAIL = 2;
// [**1026**] Signature verification failure.
SIGNATURE_VERIFICATION_FAIL = 2;
// [**1027**] Node is under maintenance.
NODE_UNDER_MAINTENANCE = 3;
// [**1028**] Invalid argument error. If the server fails on validation of a
// request parameter as the client sent it incorrectly, then this code should
// be used.
INVALID_ARGUMENT = 4;
// [**1027**] Node is under maintenance.
NODE_UNDER_MAINTENANCE = 3;
}
// Section of statuses for object-related operations.
enum Object {
// [**2048**] Access denied by ACL.
// Details:
// - [**0**] Human-readable description (UTF-8 encoded string).
ACCESS_DENIED = 0;
// [**2048**] Access denied by ACL.
// Details:
// - [**0**] Human-readable description (UTF-8 encoded string).
ACCESS_DENIED = 0;
// [**2049**] Object not found.
OBJECT_NOT_FOUND = 1;
// [**2049**] Object not found.
OBJECT_NOT_FOUND = 1;
// [**2050**] Operation rejected by the object lock.
LOCKED = 2;
// [**2050**] Operation rejected by the object lock.
LOCKED = 2;
// [**2051**] Locking an object with a non-REGULAR type rejected.
LOCK_NON_REGULAR_OBJECT = 3;
// [**2051**] Locking an object with a non-REGULAR type rejected.
LOCK_NON_REGULAR_OBJECT = 3;
// [**2052**] Object has been marked deleted.
OBJECT_ALREADY_REMOVED = 4;
// [**2052**] Object has been marked deleted.
OBJECT_ALREADY_REMOVED = 4;
// [**2053**] Invalid range has been requested for an object.
OUT_OF_RANGE = 5;
// [**2053**] Invalid range has been requested for an object.
OUT_OF_RANGE = 5;
}
// Section of statuses for container-related operations.
enum Container {
// [**3072**] Container not found.
CONTAINER_NOT_FOUND = 0;
// [**3072**] Container not found.
CONTAINER_NOT_FOUND = 0;
// [**3073**] eACL table not found.
EACL_NOT_FOUND = 1;
// [**3074**] Container access denied.
CONTAINER_ACCESS_DENIED = 2;
// [**3073**] eACL table not found.
EACL_NOT_FOUND = 1;
}
// Section of statuses for session-related operations.
enum Session {
// [**4096**] Token not found.
TOKEN_NOT_FOUND = 0;
// [**4096**] Token not found.
TOKEN_NOT_FOUND = 0;
// [**4097**] Token has expired.
TOKEN_EXPIRED = 1;
}
// Section of status for APE manager related operations.
enum APEManager {
// [**5120**] The operation is denied by APE manager.
APE_MANAGER_ACCESS_DENIED = 0;
// [**4097**] Token has expired.
TOKEN_EXPIRED = 1;
}

34
storagegroup/types.proto Normal file
View file

@ -0,0 +1,34 @@
syntax = "proto3";
package neo.fs.v2.storagegroup;
option go_package = "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/storagegroup/grpc;storagegroup";
option csharp_namespace = "Neo.FileStorage.API.StorageGroup";
import "refs/types.proto";
// StorageGroup keeps verification information for Data Audit sessions. Objects
// that require paid storage guarantees are gathered in `StorageGroups` with
// additional information used for the proof of storage. `StorageGroup` only
// contains objects from the same container.
//
// Being an object payload, StorageGroup may have expiration Epoch set with
// `__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated) well-known attribute. When expired, StorageGroup
// will be ignored by InnerRing nodes during Data Audit cycles and will be
// deleted by Storage Nodes.
//
message StorageGroup {
// Total size of the payloads of objects in the storage group
uint64 validation_data_size = 1 [json_name = "validationDataSize"];
// Homomorphic hash from the concatenation of the payloads of the storage
// group members. The order of concatenation is the same as the order of the
// members in the `members` field.
neo.fs.v2.refs.Checksum validation_hash = 2 [json_name = "validationHash"];
// DEPRECATED. Last NeoFS epoch number of the storage group lifetime
uint64 expiration_epoch = 3 [json_name = "expirationEpoch", deprecated = true];
// Strictly ordered list of storage group member objects. Members MUST be unique
repeated neo.fs.v2.refs.ObjectID members = 4 [json_name = "members"];
}

View file

@ -8,20 +8,19 @@ option csharp_namespace = "Neo.FileStorage.API.Tombstone";
import "refs/types.proto";
// Tombstone keeps record of deleted objects for a few epochs until they are
// purged from the FrostFS network.
// purged from the NeoFS network.
message Tombstone {
// Last FrostFS epoch number of the tombstone lifetime. It's set by the
// tombstone creator depending on the current FrostFS network settings. A
// tombstone object must have the same expiration epoch value in
// `__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated)
// Last NeoFS epoch number of the tombstone lifetime. It's set by the tombstone
// creator depending on the current NeoFS network settings. A tombstone object
// must have the same expiration epoch value in `__SYSTEM__EXPIRATION_EPOCH` (`__NEOFS__EXPIRATION_EPOCH` is deprecated)
// attribute. Otherwise, the tombstone will be rejected by a storage node.
uint64 expiration_epoch = 1 [ json_name = "expirationEpoch" ];
uint64 expiration_epoch = 1 [json_name = "expirationEpoch"];
// 16 byte UUID used to identify the split object hierarchy parts. Must be
// unique inside a container. All objects participating in the split must
// have the same `split_id` value.
bytes split_id = 2 [ json_name = "splitID" ];
bytes split_id = 2 [json_name = "splitID"];
// List of objects to be deleted.
repeated neo.fs.v2.refs.ObjectID members = 3 [ json_name = "members" ];
repeated neo.fs.v2.refs.ObjectID members = 3 [json_name = "members"];
}