frostfs-api/container/service.proto
Bruk Ori 527fe93e5d
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[#68] Ensure compatibility of different API versions with each other.
Remove unnecessary language options.
Update linters.
Signed-off-by: Ori Bruk <o.bruk@yadro.com>
2024-10-08 17:30:50 +03:00

244 lines
9.3 KiB
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syntax = "proto3";
package frost.fs.container;
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
// 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.
//
// 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.
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.
//
// 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.
rpc Delete(DeleteRequest) returns (DeleteResponse);
// Returns container structure from `Container` smart contract storage.
//
// Statuses:
// - **OK** (0, SECTION_SUCCESS): \
// 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.
rpc Get(GetRequest) returns (GetResponse);
// 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.
rpc List(ListRequest) returns (ListResponse);
}
// New FrostFS 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
// creation by `Container` smart contract. `ContainerID` is a SHA256 hash of
// the stable-marshalled container strucutre, hence there is no need for
// additional signature checks.
message Body {
// Container structure to register in FrostFS
container.Container container = 1;
// Signature of a stable-marshalled container according to RFC-6979.
frost.fs.refs.SignatureRFC6979 signature = 2;
}
// Body of container put request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.RequestVerificationHeader verify_header = 3;
}
// New FrostFS 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
// calculated beforehand from the container structure and compared to the one
// returned here to make sure everything has been done as expected.
message Body {
// Unique identifier of the newly created container
frost.fs.refs.ContainerID container_id = 1;
}
// Body of container put response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.ResponseVerificationHeader verify_header = 3;
}
// Container removal request
message DeleteRequest {
// Container removal request body has signed `ContainerID` as a proof of
// 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
frost.fs.refs.ContainerID container_id = 1;
// `ContainerID` signed with the container owner's key according to
// RFC-6979.
frost.fs.refs.SignatureRFC6979 signature = 2;
}
// Body of container delete request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.RequestVerificationHeader verify_header = 3;
}
// `DeleteResponse` has an empty body because delete operation is asynchronous
// and done via consensus in Inner Ring nodes.
message DeleteResponse {
// `DeleteResponse` has an empty body because delete operation is asynchronous
// and done via consensus in Inner Ring nodes.
message Body {}
// Body of container delete response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.ResponseVerificationHeader verify_header = 3;
}
// Get container structure
message GetRequest {
// Get container structure request body.
message Body {
// Identifier of the container to get
frost.fs.refs.ContainerID container_id = 1;
}
// Body of container get request message.
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.RequestVerificationHeader verify_header = 3;
}
// Get container structure
message GetResponse {
// Get container response body does not have container structure signature. It
// has been already verified upon container creation.
message Body {
// Requested container structure
Container container = 1;
// Signature of a stable-marshalled container according to RFC-6979.
frost.fs.refs.SignatureRFC6979 signature = 2;
// Session token if the container has been created within the session
frost.fs.session.SessionToken session_token = 3;
}
// Body of container get response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.ResponseVerificationHeader verify_header = 3;
}
// List containers
message ListRequest {
// List containers request body.
message Body {
// Identifier of the container owner
frost.fs.refs.OwnerID owner_id = 1;
}
// Body of list containers request message
Body body = 1;
// Carries request meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.RequestVerificationHeader verify_header = 3;
}
// List containers
message ListResponse {
// List containers response body.
message Body {
// List of `ContainerID`s belonging to the requested `OwnerID`
repeated refs.ContainerID container_ids = 1;
}
// Body of list containers response message.
Body body = 1;
// Carries response meta information. Header data is used only to regulate
// message transport and does not affect request execution.
frost.fs.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.
frost.fs.session.ResponseVerificationHeader verify_header = 3;
}