package client import ( "context" "fmt" v2container "github.com/nspcc-dev/neofs-api-go/v2/container" "github.com/nspcc-dev/neofs-api-go/v2/refs" rpcapi "github.com/nspcc-dev/neofs-api-go/v2/rpc" "github.com/nspcc-dev/neofs-api-go/v2/rpc/client" v2session "github.com/nspcc-dev/neofs-api-go/v2/session" "github.com/nspcc-dev/neofs-sdk-go/container" cid "github.com/nspcc-dev/neofs-sdk-go/container/id" neofscrypto "github.com/nspcc-dev/neofs-sdk-go/crypto" neofsecdsa "github.com/nspcc-dev/neofs-sdk-go/crypto/ecdsa" "github.com/nspcc-dev/neofs-sdk-go/eacl" "github.com/nspcc-dev/neofs-sdk-go/session" "github.com/nspcc-dev/neofs-sdk-go/user" ) // PrmContainerPut groups parameters of ContainerPut operation. type PrmContainerPut struct { prmCommonMeta cnrSet bool cnr container.Container } // SetContainer sets structured information about new NeoFS container. // Required parameter. func (x *PrmContainerPut) SetContainer(cnr container.Container) { x.cnr = cnr x.cnrSet = true } // ResContainerPut groups resulting values of ContainerPut operation. type ResContainerPut struct { statusRes id *cid.ID } // ID returns identifier of the container declared to be stored in the system. // Used as a link to information about the container (in particular, you can // asynchronously check if the save was successful). // // Client doesn't retain value so modification is safe. func (x ResContainerPut) ID() *cid.ID { return x.id } func (x *ResContainerPut) setID(id *cid.ID) { x.id = id } // ContainerPut sends request to save container in NeoFS. // // Exactly one return value is non-nil. By default, server status is returned in res structure. // Any client's internal or transport errors are returned as `error`. // If WithNeoFSErrorParsing option has been provided, unsuccessful // NeoFS status codes are returned as `error`, otherwise, are included // in the returned result structure. // // Operation is asynchronous and no guaranteed even in the absence of errors. // The required time is also not predictable. // // Success can be verified by reading by identifier (see ResContainerPut.ID). // // Immediately panics if parameters are set incorrectly (see PrmContainerPut docs). // Context is required and must not be nil. It is used for network communication. // // Return statuses: // - global (see Client docs). func (c *Client) ContainerPut(ctx context.Context, prm PrmContainerPut) (*ResContainerPut, error) { // check parameters switch { case ctx == nil: panic(panicMsgMissingContext) case !prm.cnrSet: panic(panicMsgMissingContainer) } // TODO: check private key is set before forming the request // sign container cnr := prm.cnr.ToV2() var sig neofscrypto.Signature err := sig.Calculate(neofsecdsa.SignerRFC6979(c.prm.key), cnr.StableMarshal(nil)) if err != nil { return nil, fmt.Errorf("calculate signature: %w", err) } var sigv2 refs.Signature sig.WriteToV2(&sigv2) // form request body reqBody := new(v2container.PutRequestBody) reqBody.SetContainer(prm.cnr.ToV2()) reqBody.SetSignature(&sigv2) // form meta header var meta v2session.RequestMetaHeader prm.prmCommonMeta.writeToMetaHeader(&meta) if tok := prm.cnr.SessionToken(); tok != nil { var tokv2 v2session.Token tok.WriteToV2(&tokv2) meta.SetSessionToken(&tokv2) } // form request var req v2container.PutRequest req.SetBody(reqBody) req.SetMetaHeader(&meta) // init call context var ( cc contextCall res ResContainerPut ) c.initCallContext(&cc) cc.req = &req cc.statusRes = &res cc.call = func() (responseV2, error) { return rpcapi.PutContainer(&c.c, &req, client.WithContext(ctx)) } cc.result = func(r responseV2) { resp := r.(*v2container.PutResponse) var cID *cid.ID cidV2 := resp.GetBody().GetContainerID() if cidV2 != nil { var c cid.ID _ = c.ReadFromV2(*cidV2) cID = &c } res.setID(cID) } // process call if !cc.processCall() { return nil, cc.err } return &res, nil } // PrmContainerGet groups parameters of ContainerGet operation. type PrmContainerGet struct { prmCommonMeta idSet bool id cid.ID } // SetContainer sets identifier of the container to be read. // Required parameter. func (x *PrmContainerGet) SetContainer(id cid.ID) { x.id = id x.idSet = true } // ResContainerGet groups resulting values of ContainerGet operation. type ResContainerGet struct { statusRes cnr *container.Container } // Container returns structured information about the requested container. // // Client doesn't retain value so modification is safe. func (x ResContainerGet) Container() *container.Container { return x.cnr } func (x *ResContainerGet) setContainer(cnr *container.Container) { x.cnr = cnr } // ContainerGet reads NeoFS container by ID. // // Exactly one return value is non-nil. By default, server status is returned in res structure. // Any client's internal or transport errors are returned as `error`. // If WithNeoFSErrorParsing option has been provided, unsuccessful // NeoFS status codes are returned as `error`, otherwise, are included // in the returned result structure. // // Immediately panics if parameters are set incorrectly (see PrmContainerGet docs). // Context is required and must not be nil. It is used for network communication. // // Return statuses: // - global (see Client docs); // - *apistatus.ContainerNotFound. func (c *Client) ContainerGet(ctx context.Context, prm PrmContainerGet) (*ResContainerGet, error) { switch { case ctx == nil: panic(panicMsgMissingContext) case !prm.idSet: panic(panicMsgMissingContainer) } var cidV2 refs.ContainerID prm.id.WriteToV2(&cidV2) // form request body reqBody := new(v2container.GetRequestBody) reqBody.SetContainerID(&cidV2) // form request var req v2container.GetRequest req.SetBody(reqBody) // init call context var ( cc contextCall res ResContainerGet ) c.initCallContext(&cc) cc.meta = prm.prmCommonMeta cc.req = &req cc.statusRes = &res cc.call = func() (responseV2, error) { return rpcapi.GetContainer(&c.c, &req, client.WithContext(ctx)) } cc.result = func(r responseV2) { resp := r.(*v2container.GetResponse) body := resp.GetBody() cnr := container.NewContainerFromV2(body.GetContainer()) tokv2 := body.GetSessionToken() if tokv2 != nil { var tok session.Container // FIXME: (neofs-sdk-go#221) need to handle the error err := tok.ReadFromV2(*tokv2) if err == nil { cnr.SetSessionToken(&tok) } } var sig *neofscrypto.Signature if sigv2 := body.GetSignature(); sigv2 != nil { sig = new(neofscrypto.Signature) sig.ReadFromV2(*sigv2) } cnr.SetSignature(sig) res.setContainer(cnr) } // process call if !cc.processCall() { return nil, cc.err } return &res, nil } // PrmContainerList groups parameters of ContainerList operation. type PrmContainerList struct { prmCommonMeta ownerSet bool ownerID user.ID } // SetAccount sets identifier of the NeoFS account to list the containers. // Required parameter. func (x *PrmContainerList) SetAccount(id user.ID) { x.ownerID = id x.ownerSet = true } // ResContainerList groups resulting values of ContainerList operation. type ResContainerList struct { statusRes ids []cid.ID } // Containers returns list of identifiers of the account-owned containers. // // Client doesn't retain value so modification is safe. func (x ResContainerList) Containers() []cid.ID { return x.ids } func (x *ResContainerList) setContainers(ids []cid.ID) { x.ids = ids } // ContainerList requests identifiers of the account-owned containers. // // Exactly one return value is non-nil. By default, server status is returned in res structure. // Any client's internal or transport errors are returned as `error`. // If WithNeoFSErrorParsing option has been provided, unsuccessful // NeoFS status codes are returned as `error`, otherwise, are included // in the returned result structure. // // Immediately panics if parameters are set incorrectly (see PrmContainerList docs). // Context is required and must not be nil. It is used for network communication. // // Return statuses: // - global (see Client docs). func (c *Client) ContainerList(ctx context.Context, prm PrmContainerList) (*ResContainerList, error) { // check parameters switch { case ctx == nil: panic(panicMsgMissingContext) case !prm.ownerSet: panic("account not set") } // form request body var ownerV2 refs.OwnerID prm.ownerID.WriteToV2(&ownerV2) reqBody := new(v2container.ListRequestBody) reqBody.SetOwnerID(&ownerV2) // form request var req v2container.ListRequest req.SetBody(reqBody) // init call context var ( cc contextCall res ResContainerList ) c.initCallContext(&cc) cc.meta = prm.prmCommonMeta cc.req = &req cc.statusRes = &res cc.call = func() (responseV2, error) { return rpcapi.ListContainers(&c.c, &req, client.WithContext(ctx)) } cc.result = func(r responseV2) { resp := r.(*v2container.ListResponse) ids := make([]cid.ID, len(resp.GetBody().GetContainerIDs())) for i, cidV2 := range resp.GetBody().GetContainerIDs() { _ = ids[i].ReadFromV2(cidV2) } res.setContainers(ids) } // process call if !cc.processCall() { return nil, cc.err } return &res, nil } // PrmContainerDelete groups parameters of ContainerDelete operation. type PrmContainerDelete struct { prmCommonMeta idSet bool id cid.ID tokSet bool tok session.Container } // SetContainer sets identifier of the NeoFS container to be removed. // Required parameter. func (x *PrmContainerDelete) SetContainer(id cid.ID) { x.id = id x.idSet = true } // WithinSession specifies session within which container should be removed. // // Creator of the session acquires the authorship of the request. // This may affect the execution of an operation (e.g. access control). // // Must be signed. func (x *PrmContainerDelete) WithinSession(tok session.Container) { x.tok = tok x.tokSet = true } // ResContainerDelete groups resulting values of ContainerDelete operation. type ResContainerDelete struct { statusRes } // ContainerDelete sends request to remove the NeoFS container. // // Exactly one return value is non-nil. By default, server status is returned in res structure. // Any client's internal or transport errors are returned as `error`. // If WithNeoFSErrorParsing option has been provided, unsuccessful // NeoFS status codes are returned as `error`, otherwise, are included // in the returned result structure. // // Operation is asynchronous and no guaranteed even in the absence of errors. // The required time is also not predictable. // // Success can be verified by reading by identifier (see GetContainer). // // Immediately panics if parameters are set incorrectly (see PrmContainerDelete docs). // Context is required and must not be nil. It is used for network communication. // // Exactly one return value is non-nil. Server status return is returned in ResContainerDelete. // Reflects all internal errors in second return value (transport problems, response processing, etc.). // // Return statuses: // - global (see Client docs). func (c *Client) ContainerDelete(ctx context.Context, prm PrmContainerDelete) (*ResContainerDelete, error) { // check parameters switch { case ctx == nil: panic(panicMsgMissingContext) case !prm.idSet: panic(panicMsgMissingContainer) } // sign container ID var cidV2 refs.ContainerID prm.id.WriteToV2(&cidV2) // container contract expects signature of container ID value // don't get confused with stable marshaled protobuf container.ID structure data := cidV2.GetValue() var sig neofscrypto.Signature err := sig.Calculate(neofsecdsa.SignerRFC6979(c.prm.key), data) if err != nil { return nil, fmt.Errorf("calculate signature: %w", err) } var sigv2 refs.Signature sig.WriteToV2(&sigv2) // form request body reqBody := new(v2container.DeleteRequestBody) reqBody.SetContainerID(&cidV2) reqBody.SetSignature(&sigv2) // form meta header var meta v2session.RequestMetaHeader prm.prmCommonMeta.writeToMetaHeader(&meta) if prm.tokSet { var tokv2 v2session.Token prm.tok.WriteToV2(&tokv2) meta.SetSessionToken(&tokv2) } // form request var req v2container.DeleteRequest req.SetBody(reqBody) req.SetMetaHeader(&meta) // init call context var ( cc contextCall res ResContainerDelete ) c.initCallContext(&cc) cc.req = &req cc.statusRes = &res cc.call = func() (responseV2, error) { return rpcapi.DeleteContainer(&c.c, &req, client.WithContext(ctx)) } // process call if !cc.processCall() { return nil, cc.err } return &res, nil } // PrmContainerEACL groups parameters of ContainerEACL operation. type PrmContainerEACL struct { prmCommonMeta idSet bool id cid.ID } // SetContainer sets identifier of the NeoFS container to read the eACL table. // Required parameter. func (x *PrmContainerEACL) SetContainer(id cid.ID) { x.id = id x.idSet = true } // ResContainerEACL groups resulting values of ContainerEACL operation. type ResContainerEACL struct { statusRes table *eacl.Table } // Table returns eACL table of the requested container. // // Client doesn't retain value so modification is safe. func (x ResContainerEACL) Table() *eacl.Table { return x.table } func (x *ResContainerEACL) setTable(table *eacl.Table) { x.table = table } // ContainerEACL reads eACL table of the NeoFS container. // // Exactly one return value is non-nil. By default, server status is returned in res structure. // Any client's internal or transport errors are returned as `error`. // If WithNeoFSErrorParsing option has been provided, unsuccessful // NeoFS status codes are returned as `error`, otherwise, are included // in the returned result structure. // // Immediately panics if parameters are set incorrectly (see PrmContainerEACL docs). // Context is required and must not be nil. It is used for network communication. // // Return statuses: // - global (see Client docs); // - *apistatus.ContainerNotFound. func (c *Client) ContainerEACL(ctx context.Context, prm PrmContainerEACL) (*ResContainerEACL, error) { // check parameters switch { case ctx == nil: panic(panicMsgMissingContext) case !prm.idSet: panic(panicMsgMissingContainer) } var cidV2 refs.ContainerID prm.id.WriteToV2(&cidV2) // form request body reqBody := new(v2container.GetExtendedACLRequestBody) reqBody.SetContainerID(&cidV2) // form request var req v2container.GetExtendedACLRequest req.SetBody(reqBody) // init call context var ( cc contextCall res ResContainerEACL ) c.initCallContext(&cc) cc.meta = prm.prmCommonMeta cc.req = &req cc.statusRes = &res cc.call = func() (responseV2, error) { return rpcapi.GetEACL(&c.c, &req, client.WithContext(ctx)) } cc.result = func(r responseV2) { resp := r.(*v2container.GetExtendedACLResponse) body := resp.GetBody() table := eacl.NewTableFromV2(body.GetEACL()) tokv2 := body.GetSessionToken() if tokv2 != nil { var tok session.Container // FIXME: (neofs-sdk-go#221) need to handle the error err := tok.ReadFromV2(*tokv2) if err == nil { table.SetSessionToken(&tok) } } var sig *neofscrypto.Signature if sigv2 := body.GetSignature(); sigv2 != nil { sig = new(neofscrypto.Signature) sig.ReadFromV2(*sigv2) } table.SetSignature(sig) res.setTable(table) } // process call if !cc.processCall() { return nil, cc.err } return &res, nil } // PrmContainerSetEACL groups parameters of ContainerSetEACL operation. type PrmContainerSetEACL struct { prmCommonMeta tableSet bool table eacl.Table } // SetTable sets eACL table structure to be set for the container. // Required parameter. func (x *PrmContainerSetEACL) SetTable(table eacl.Table) { x.table = table x.tableSet = true } // ResContainerSetEACL groups resulting values of ContainerSetEACL operation. type ResContainerSetEACL struct { statusRes } // ContainerSetEACL sends request to update eACL table of the NeoFS container. // // Exactly one return value is non-nil. By default, server status is returned in res structure. // Any client's internal or transport errors are returned as `error`. // If WithNeoFSErrorParsing option has been provided, unsuccessful // NeoFS status codes are returned as `error`, otherwise, are included // in the returned result structure. // // Operation is asynchronous and no guaranteed even in the absence of errors. // The required time is also not predictable. // // Success can be verified by reading by identifier (see EACL). // // Immediately panics if parameters are set incorrectly (see PrmContainerSetEACL docs). // Context is required and must not be nil. It is used for network communication. // // Return statuses: // - global (see Client docs). func (c *Client) ContainerSetEACL(ctx context.Context, prm PrmContainerSetEACL) (*ResContainerSetEACL, error) { // check parameters switch { case ctx == nil: panic(panicMsgMissingContext) case !prm.tableSet: panic("eACL table not set") } // sign the eACL table eaclV2 := prm.table.ToV2() var sig neofscrypto.Signature err := sig.Calculate(neofsecdsa.SignerRFC6979(c.prm.key), eaclV2.StableMarshal(nil)) if err != nil { return nil, fmt.Errorf("calculate signature: %w", err) } var sigv2 refs.Signature sig.WriteToV2(&sigv2) // form request body reqBody := new(v2container.SetExtendedACLRequestBody) reqBody.SetEACL(eaclV2) reqBody.SetSignature(&sigv2) // form meta header var meta v2session.RequestMetaHeader prm.prmCommonMeta.writeToMetaHeader(&meta) if tok := prm.table.SessionToken(); tok != nil { var tokv2 v2session.Token tok.WriteToV2(&tokv2) meta.SetSessionToken(&tokv2) } // form request var req v2container.SetExtendedACLRequest req.SetBody(reqBody) req.SetMetaHeader(&meta) // init call context var ( cc contextCall res ResContainerSetEACL ) c.initCallContext(&cc) cc.req = &req cc.statusRes = &res cc.call = func() (responseV2, error) { return rpcapi.SetEACL(&c.c, &req, client.WithContext(ctx)) } // process call if !cc.processCall() { return nil, cc.err } return &res, nil } // PrmAnnounceSpace groups parameters of ContainerAnnounceUsedSpace operation. type PrmAnnounceSpace struct { prmCommonMeta announcements []container.UsedSpaceAnnouncement } // SetValues sets values describing volume of space that is used for the container objects. // Required parameter. Must not be empty. // // Must not be mutated before the end of the operation. func (x *PrmAnnounceSpace) SetValues(announcements []container.UsedSpaceAnnouncement) { x.announcements = announcements } // ResAnnounceSpace groups resulting values of ContainerAnnounceUsedSpace operation. type ResAnnounceSpace struct { statusRes } // ContainerAnnounceUsedSpace sends request to announce volume of the space used for the container objects. // // Exactly one return value is non-nil. By default, server status is returned in res structure. // Any client's internal or transport errors are returned as `error`. // If WithNeoFSErrorParsing option has been provided, unsuccessful // NeoFS status codes are returned as `error`, otherwise, are included // in the returned result structure. // // Operation is asynchronous and no guaranteed even in the absence of errors. // The required time is also not predictable. // // At this moment success can not be checked. // // Immediately panics if parameters are set incorrectly (see PrmAnnounceSpace docs). // Context is required and must not be nil. It is used for network communication. // // Return statuses: // - global (see Client docs). func (c *Client) ContainerAnnounceUsedSpace(ctx context.Context, prm PrmAnnounceSpace) (*ResAnnounceSpace, error) { // check parameters switch { case ctx == nil: panic(panicMsgMissingContext) case len(prm.announcements) == 0: panic("missing announcements") } // convert list of SDK announcement structures into NeoFS-API v2 list v2announce := make([]v2container.UsedSpaceAnnouncement, len(prm.announcements)) for i := range prm.announcements { v2announce[i] = *prm.announcements[i].ToV2() } // prepare body of the NeoFS-API v2 request and request itself reqBody := new(v2container.AnnounceUsedSpaceRequestBody) reqBody.SetAnnouncements(v2announce) // form request var req v2container.AnnounceUsedSpaceRequest req.SetBody(reqBody) // init call context var ( cc contextCall res ResAnnounceSpace ) c.initCallContext(&cc) cc.meta = prm.prmCommonMeta cc.req = &req cc.statusRes = &res cc.call = func() (responseV2, error) { return rpcapi.AnnounceUsedSpace(&c.c, &req, client.WithContext(ctx)) } // process call if !cc.processCall() { return nil, cc.err } return &res, nil }