package pool import ( "bytes" "context" "crypto/ecdsa" "errors" "fmt" "io" "math" "math/rand" "sort" "sync" "time" "github.com/google/uuid" "github.com/nspcc-dev/neo-go/pkg/crypto/keys" "github.com/nspcc-dev/neofs-sdk-go/accounting" "github.com/nspcc-dev/neofs-sdk-go/bearer" sdkClient "github.com/nspcc-dev/neofs-sdk-go/client" apistatus "github.com/nspcc-dev/neofs-sdk-go/client/status" "github.com/nspcc-dev/neofs-sdk-go/container" cid "github.com/nspcc-dev/neofs-sdk-go/container/id" 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/netmap" "github.com/nspcc-dev/neofs-sdk-go/object" oid "github.com/nspcc-dev/neofs-sdk-go/object/id" "github.com/nspcc-dev/neofs-sdk-go/session" "github.com/nspcc-dev/neofs-sdk-go/user" "go.uber.org/atomic" "go.uber.org/zap" ) // client represents virtual connection to the single NeoFS network endpoint from which Pool is formed. // This interface is expected to have exactly one production implementation - clientWrapper. // Others are expected to be for test purposes only. type client interface { // see clientWrapper.balanceGet. balanceGet(context.Context, PrmBalanceGet) (accounting.Decimal, error) // see clientWrapper.containerPut. containerPut(context.Context, PrmContainerPut) (cid.ID, error) // see clientWrapper.containerGet. containerGet(context.Context, PrmContainerGet) (container.Container, error) // see clientWrapper.containerList. containerList(context.Context, PrmContainerList) ([]cid.ID, error) // see clientWrapper.containerDelete. containerDelete(context.Context, PrmContainerDelete) error // see clientWrapper.containerEACL. containerEACL(context.Context, PrmContainerEACL) (eacl.Table, error) // see clientWrapper.containerSetEACL. containerSetEACL(context.Context, PrmContainerSetEACL) error // see clientWrapper.endpointInfo. endpointInfo(context.Context, prmEndpointInfo) (netmap.NodeInfo, error) // see clientWrapper.networkInfo. networkInfo(context.Context, prmNetworkInfo) (netmap.NetworkInfo, error) // see clientWrapper.objectPut. objectPut(context.Context, PrmObjectPut) (oid.ID, error) // see clientWrapper.objectDelete. objectDelete(context.Context, PrmObjectDelete) error // see clientWrapper.objectGet. objectGet(context.Context, PrmObjectGet) (ResGetObject, error) // see clientWrapper.objectHead. objectHead(context.Context, PrmObjectHead) (object.Object, error) // see clientWrapper.objectRange. objectRange(context.Context, PrmObjectRange) (ResObjectRange, error) // see clientWrapper.objectSearch. objectSearch(context.Context, PrmObjectSearch) (ResObjectSearch, error) // see clientWrapper.sessionCreate. sessionCreate(context.Context, prmCreateSession) (resCreateSession, error) clientStatus } // clientStatus provide access to some metrics for connection. type clientStatus interface { // isHealthy checks if the connection can handle requests. isHealthy() bool // setHealthy allows set healthy status for connection. // It's used to update status during Pool.startRebalance routing. setHealthy(bool) bool // address return address of endpoint. address() string // currentErrorRate returns current errors rate. // After specific threshold connection is considered as unhealthy. // Pool.startRebalance routine can make this connection healthy again. currentErrorRate() uint32 // overallErrorRate returns the number of all happened errors. overallErrorRate() uint64 // methodsStatus returns statistic for all used methods. methodsStatus() []statusSnapshot } // clientStatusMonitor count error rate and other statistics for connection. type clientStatusMonitor struct { addr string healthy *atomic.Bool errorThreshold uint32 mu sync.RWMutex // protect counters currentErrorCount uint32 overallErrorCount uint64 methods []*methodStatus } // methodStatus provide statistic for specific method. type methodStatus struct { name string mu sync.RWMutex // protect counters statusSnapshot } // statusSnapshot is statistic for specific method. type statusSnapshot struct { allTime uint64 allRequests uint64 } // MethodIndex index of method in list of statuses in clientStatusMonitor. type MethodIndex int const ( methodBalanceGet MethodIndex = iota methodContainerPut methodContainerGet methodContainerList methodContainerDelete methodContainerEACL methodContainerSetEACL methodEndpointInfo methodNetworkInfo methodObjectPut methodObjectDelete methodObjectGet methodObjectHead methodObjectRange methodSessionCreate methodLast ) // String implements fmt.Stringer. func (m MethodIndex) String() string { switch m { case methodBalanceGet: return "balanceGet" case methodContainerPut: return "containerPut" case methodContainerGet: return "containerGet" case methodContainerList: return "containerList" case methodContainerDelete: return "containerDelete" case methodContainerEACL: return "containerEACL" case methodContainerSetEACL: return "containerSetEACL" case methodEndpointInfo: return "endpointInfo" case methodNetworkInfo: return "networkInfo" case methodObjectPut: return "objectPut" case methodObjectDelete: return "objectDelete" case methodObjectGet: return "objectGet" case methodObjectHead: return "objectHead" case methodObjectRange: return "objectRange" case methodSessionCreate: return "sessionCreate" case methodLast: return "it's a system name rather than a method" default: return "unknown" } } func newClientStatusMonitor(addr string, errorThreshold uint32) clientStatusMonitor { methods := make([]*methodStatus, methodLast) for i := methodBalanceGet; i < methodLast; i++ { methods[i] = &methodStatus{name: i.String()} } return clientStatusMonitor{ addr: addr, healthy: atomic.NewBool(true), errorThreshold: errorThreshold, methods: methods, } } func (m *methodStatus) snapshot() statusSnapshot { m.mu.RLock() defer m.mu.RUnlock() return m.statusSnapshot } func (m *methodStatus) incRequests(elapsed time.Duration) { m.mu.Lock() defer m.mu.Unlock() m.allTime += uint64(elapsed) m.allRequests++ } // clientWrapper is used by default, alternative implementations are intended for testing purposes only. type clientWrapper struct { client sdkClient.Client key ecdsa.PrivateKey clientStatusMonitor } // wrapperPrm is params to create clientWrapper. type wrapperPrm struct { address string key ecdsa.PrivateKey timeout time.Duration errorThreshold uint32 responseInfoCallback func(sdkClient.ResponseMetaInfo) error } // setAddress sets endpoint to connect in NeoFS network. func (x *wrapperPrm) setAddress(address string) { x.address = address } // setKey sets sdkClient.Client private key to be used for the protocol communication by default. func (x *wrapperPrm) setKey(key ecdsa.PrivateKey) { x.key = key } // setTimeout sets the timeout for connection to be established. func (x *wrapperPrm) setTimeout(timeout time.Duration) { x.timeout = timeout } // setErrorThreshold sets threshold after reaching which connection is considered unhealthy // until Pool.startRebalance routing updates its status. func (x *wrapperPrm) setErrorThreshold(threshold uint32) { x.errorThreshold = threshold } // setResponseInfoCallback sets callback that will be invoked after every response. func (x *wrapperPrm) setResponseInfoCallback(f func(sdkClient.ResponseMetaInfo) error) { x.responseInfoCallback = f } // newWrapper creates a clientWrapper that implements the client interface. func newWrapper(prm wrapperPrm) (*clientWrapper, error) { var prmInit sdkClient.PrmInit prmInit.SetDefaultPrivateKey(prm.key) prmInit.SetResponseInfoCallback(prm.responseInfoCallback) res := &clientWrapper{ key: prm.key, clientStatusMonitor: newClientStatusMonitor(prm.address, prm.errorThreshold), } res.client.Init(prmInit) var prmDial sdkClient.PrmDial prmDial.SetServerURI(prm.address) prmDial.SetTimeout(prm.timeout) err := res.client.Dial(prmDial) if err != nil { return nil, fmt.Errorf("client dial: %w", err) } return res, nil } // balanceGet invokes sdkClient.BalanceGet parse response status to error and return result as is. func (c *clientWrapper) balanceGet(ctx context.Context, prm PrmBalanceGet) (accounting.Decimal, error) { var cliPrm sdkClient.PrmBalanceGet cliPrm.SetAccount(prm.account) start := time.Now() res, err := c.client.BalanceGet(ctx, cliPrm) c.incRequests(time.Since(start), methodBalanceGet) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return accounting.Decimal{}, fmt.Errorf("balance get on client: %w", err) } return res.Amount(), nil } // containerPut invokes sdkClient.ContainerPut parse response status to error and return result as is. // It also waits for the container to appear on the network. func (c *clientWrapper) containerPut(ctx context.Context, prm PrmContainerPut) (cid.ID, error) { start := time.Now() res, err := c.client.ContainerPut(ctx, prm.prmClient) c.incRequests(time.Since(start), methodContainerPut) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return cid.ID{}, fmt.Errorf("container put on client: %w", err) } if !prm.waitParamsSet { prm.waitParams.setDefaults() } idCnr := res.ID() err = waitForContainerPresence(ctx, c, idCnr, &prm.waitParams) if err = c.handleError(nil, err); err != nil { return cid.ID{}, fmt.Errorf("wait container presence on client: %w", err) } return idCnr, nil } // containerGet invokes sdkClient.ContainerGet parse response status to error and return result as is. func (c *clientWrapper) containerGet(ctx context.Context, prm PrmContainerGet) (container.Container, error) { var cliPrm sdkClient.PrmContainerGet cliPrm.SetContainer(prm.cnrID) start := time.Now() res, err := c.client.ContainerGet(ctx, cliPrm) c.incRequests(time.Since(start), methodContainerGet) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return container.Container{}, fmt.Errorf("container get on client: %w", err) } return res.Container(), nil } // containerList invokes sdkClient.ContainerList parse response status to error and return result as is. func (c *clientWrapper) containerList(ctx context.Context, prm PrmContainerList) ([]cid.ID, error) { var cliPrm sdkClient.PrmContainerList cliPrm.SetAccount(prm.ownerID) start := time.Now() res, err := c.client.ContainerList(ctx, cliPrm) c.incRequests(time.Since(start), methodContainerList) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return nil, fmt.Errorf("container list on client: %w", err) } return res.Containers(), nil } // containerDelete invokes sdkClient.ContainerDelete parse response status to error. // It also waits for the container to be removed from the network. func (c *clientWrapper) containerDelete(ctx context.Context, prm PrmContainerDelete) error { var cliPrm sdkClient.PrmContainerDelete cliPrm.SetContainer(prm.cnrID) if prm.stokenSet { cliPrm.WithinSession(prm.stoken) } start := time.Now() res, err := c.client.ContainerDelete(ctx, cliPrm) c.incRequests(time.Since(start), methodContainerDelete) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return fmt.Errorf("container delete on client: %w", err) } if !prm.waitParamsSet { prm.waitParams.setDefaults() } return waitForContainerRemoved(ctx, c, &prm.cnrID, &prm.waitParams) } // containerEACL invokes sdkClient.ContainerEACL parse response status to error and return result as is. func (c *clientWrapper) containerEACL(ctx context.Context, prm PrmContainerEACL) (eacl.Table, error) { var cliPrm sdkClient.PrmContainerEACL cliPrm.SetContainer(prm.cnrID) start := time.Now() res, err := c.client.ContainerEACL(ctx, cliPrm) c.incRequests(time.Since(start), methodContainerEACL) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return eacl.Table{}, fmt.Errorf("get eacl on client: %w", err) } return res.Table(), nil } // containerSetEACL invokes sdkClient.ContainerSetEACL parse response status to error. // It also waits for the EACL to appear on the network. func (c *clientWrapper) containerSetEACL(ctx context.Context, prm PrmContainerSetEACL) error { var cliPrm sdkClient.PrmContainerSetEACL cliPrm.SetTable(prm.table) if prm.sessionSet { cliPrm.WithinSession(prm.session) } start := time.Now() res, err := c.client.ContainerSetEACL(ctx, cliPrm) c.incRequests(time.Since(start), methodContainerSetEACL) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return fmt.Errorf("set eacl on client: %w", err) } if !prm.waitParamsSet { prm.waitParams.setDefaults() } var cIDp *cid.ID if cID, set := prm.table.CID(); set { cIDp = &cID } err = waitForEACLPresence(ctx, c, cIDp, &prm.table, &prm.waitParams) if err = c.handleError(nil, err); err != nil { return fmt.Errorf("wait eacl presence on client: %w", err) } return nil } // endpointInfo invokes sdkClient.EndpointInfo parse response status to error and return result as is. func (c *clientWrapper) endpointInfo(ctx context.Context, _ prmEndpointInfo) (netmap.NodeInfo, error) { start := time.Now() res, err := c.client.EndpointInfo(ctx, sdkClient.PrmEndpointInfo{}) c.incRequests(time.Since(start), methodEndpointInfo) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return netmap.NodeInfo{}, fmt.Errorf("endpoint info on client: %w", err) } return res.NodeInfo(), nil } // networkInfo invokes sdkClient.NetworkInfo parse response status to error and return result as is. func (c *clientWrapper) networkInfo(ctx context.Context, _ prmNetworkInfo) (netmap.NetworkInfo, error) { start := time.Now() res, err := c.client.NetworkInfo(ctx, sdkClient.PrmNetworkInfo{}) c.incRequests(time.Since(start), methodNetworkInfo) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return netmap.NetworkInfo{}, fmt.Errorf("network info on client: %w", err) } return res.Info(), nil } // objectPut writes object to NeoFS. func (c *clientWrapper) objectPut(ctx context.Context, prm PrmObjectPut) (oid.ID, error) { var cliPrm sdkClient.PrmObjectPutInit cliPrm.SetCopiesNumber(prm.copiesNumber) start := time.Now() wObj, err := c.client.ObjectPutInit(ctx, cliPrm) c.incRequests(time.Since(start), methodObjectPut) if err = c.handleError(nil, err); err != nil { return oid.ID{}, fmt.Errorf("init writing on API client: %w", err) } if prm.stoken != nil { wObj.WithinSession(*prm.stoken) } if prm.key != nil { wObj.UseKey(*prm.key) } if prm.btoken != nil { wObj.WithBearerToken(*prm.btoken) } if wObj.WriteHeader(prm.hdr) { sz := prm.hdr.PayloadSize() if data := prm.hdr.Payload(); len(data) > 0 { if prm.payload != nil { prm.payload = io.MultiReader(bytes.NewReader(data), prm.payload) } else { prm.payload = bytes.NewReader(data) sz = uint64(len(data)) } } if prm.payload != nil { const defaultBufferSizePut = 3 << 20 // configure? if sz == 0 || sz > defaultBufferSizePut { sz = defaultBufferSizePut } buf := make([]byte, sz) var n int for { n, err = prm.payload.Read(buf) if n > 0 { start = time.Now() successWrite := wObj.WritePayloadChunk(buf[:n]) c.incRequests(time.Since(start), methodObjectPut) if !successWrite { break } continue } if errors.Is(err, io.EOF) { break } return oid.ID{}, fmt.Errorf("read payload: %w", c.handleError(nil, err)) } } } res, err := wObj.Close() var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { // here err already carries both status and client errors return oid.ID{}, fmt.Errorf("client failure: %w", err) } return res.StoredObjectID(), nil } // objectDelete invokes sdkClient.ObjectDelete parse response status to error. func (c *clientWrapper) objectDelete(ctx context.Context, prm PrmObjectDelete) error { var cliPrm sdkClient.PrmObjectDelete cliPrm.FromContainer(prm.addr.Container()) cliPrm.ByID(prm.addr.Object()) if prm.stoken != nil { cliPrm.WithinSession(*prm.stoken) } if prm.btoken != nil { cliPrm.WithBearerToken(*prm.btoken) } if prm.key != nil { cliPrm.UseKey(*prm.key) } start := time.Now() res, err := c.client.ObjectDelete(ctx, cliPrm) c.incRequests(time.Since(start), methodObjectDelete) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return fmt.Errorf("delete object on client: %w", err) } return nil } // objectGet returns reader for object. func (c *clientWrapper) objectGet(ctx context.Context, prm PrmObjectGet) (ResGetObject, error) { var cliPrm sdkClient.PrmObjectGet cliPrm.FromContainer(prm.addr.Container()) cliPrm.ByID(prm.addr.Object()) if prm.stoken != nil { cliPrm.WithinSession(*prm.stoken) } if prm.btoken != nil { cliPrm.WithBearerToken(*prm.btoken) } var res ResGetObject rObj, err := c.client.ObjectGetInit(ctx, cliPrm) if err = c.handleError(nil, err); err != nil { return ResGetObject{}, fmt.Errorf("init object reading on client: %w", err) } if prm.key != nil { rObj.UseKey(*prm.key) } start := time.Now() successReadHeader := rObj.ReadHeader(&res.Header) c.incRequests(time.Since(start), methodObjectGet) if !successReadHeader { rObjRes, err := rObj.Close() var st apistatus.Status if rObjRes != nil { st = rObjRes.Status() } err = c.handleError(st, err) return res, fmt.Errorf("read header: %w", err) } res.Payload = &objectReadCloser{ reader: rObj, elapsedTimeCallback: func(elapsed time.Duration) { c.incRequests(elapsed, methodObjectGet) }, } return res, nil } // objectHead invokes sdkClient.ObjectHead parse response status to error and return result as is. func (c *clientWrapper) objectHead(ctx context.Context, prm PrmObjectHead) (object.Object, error) { var cliPrm sdkClient.PrmObjectHead cliPrm.FromContainer(prm.addr.Container()) cliPrm.ByID(prm.addr.Object()) if prm.stoken != nil { cliPrm.WithinSession(*prm.stoken) } if prm.btoken != nil { cliPrm.WithBearerToken(*prm.btoken) } if prm.key != nil { cliPrm.UseKey(*prm.key) } var obj object.Object start := time.Now() res, err := c.client.ObjectHead(ctx, cliPrm) c.incRequests(time.Since(start), methodObjectHead) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return obj, fmt.Errorf("read object header via client: %w", err) } if !res.ReadHeader(&obj) { return obj, errors.New("missing object header in response") } return obj, nil } // objectRange returns object range reader. func (c *clientWrapper) objectRange(ctx context.Context, prm PrmObjectRange) (ResObjectRange, error) { var cliPrm sdkClient.PrmObjectRange cliPrm.FromContainer(prm.addr.Container()) cliPrm.ByID(prm.addr.Object()) cliPrm.SetOffset(prm.off) cliPrm.SetLength(prm.ln) if prm.stoken != nil { cliPrm.WithinSession(*prm.stoken) } if prm.btoken != nil { cliPrm.WithBearerToken(*prm.btoken) } if prm.key != nil { cliPrm.UseKey(*prm.key) } start := time.Now() res, err := c.client.ObjectRangeInit(ctx, cliPrm) c.incRequests(time.Since(start), methodObjectRange) if err = c.handleError(nil, err); err != nil { return ResObjectRange{}, fmt.Errorf("init payload range reading on client: %w", err) } return ResObjectRange{ payload: res, elapsedTimeCallback: func(elapsed time.Duration) { c.incRequests(elapsed, methodObjectRange) }, }, nil } // objectSearch invokes sdkClient.ObjectSearchInit parse response status to error and return result as is. func (c *clientWrapper) objectSearch(ctx context.Context, prm PrmObjectSearch) (ResObjectSearch, error) { var cliPrm sdkClient.PrmObjectSearch cliPrm.InContainer(prm.cnrID) cliPrm.SetFilters(prm.filters) if prm.stoken != nil { cliPrm.WithinSession(*prm.stoken) } if prm.btoken != nil { cliPrm.WithBearerToken(*prm.btoken) } if prm.key != nil { cliPrm.UseKey(*prm.key) } res, err := c.client.ObjectSearchInit(ctx, cliPrm) if err = c.handleError(nil, err); err != nil { return ResObjectSearch{}, fmt.Errorf("init object searching on client: %w", err) } return ResObjectSearch{r: res}, nil } // sessionCreate invokes sdkClient.SessionCreate parse response status to error and return result as is. func (c *clientWrapper) sessionCreate(ctx context.Context, prm prmCreateSession) (resCreateSession, error) { var cliPrm sdkClient.PrmSessionCreate cliPrm.SetExp(prm.exp) cliPrm.UseKey(prm.key) start := time.Now() res, err := c.client.SessionCreate(ctx, cliPrm) c.incRequests(time.Since(start), methodSessionCreate) var st apistatus.Status if res != nil { st = res.Status() } if err = c.handleError(st, err); err != nil { return resCreateSession{}, fmt.Errorf("session creation on client: %w", err) } return resCreateSession{ id: res.ID(), sessionKey: res.PublicKey(), }, nil } func (c *clientStatusMonitor) isHealthy() bool { return c.healthy.Load() } func (c *clientStatusMonitor) setHealthy(val bool) bool { return c.healthy.Swap(val) != val } func (c *clientStatusMonitor) address() string { return c.addr } func (c *clientStatusMonitor) incErrorRate() { c.mu.Lock() defer c.mu.Unlock() c.currentErrorCount++ c.overallErrorCount++ if c.currentErrorCount >= c.errorThreshold { c.setHealthy(false) c.currentErrorCount = 0 } } func (c *clientStatusMonitor) currentErrorRate() uint32 { c.mu.RLock() defer c.mu.RUnlock() return c.currentErrorCount } func (c *clientStatusMonitor) overallErrorRate() uint64 { c.mu.RLock() defer c.mu.RUnlock() return c.overallErrorCount } func (c *clientStatusMonitor) methodsStatus() []statusSnapshot { result := make([]statusSnapshot, len(c.methods)) for i, val := range c.methods { result[i] = val.snapshot() } return result } func (c *clientStatusMonitor) incRequests(elapsed time.Duration, method MethodIndex) { methodStat := c.methods[method] methodStat.incRequests(elapsed) } func (c *clientStatusMonitor) handleError(st apistatus.Status, err error) error { if err != nil { c.incErrorRate() return err } err = apistatus.ErrFromStatus(st) switch err.(type) { case apistatus.ServerInternal, *apistatus.ServerInternal, apistatus.WrongMagicNumber, *apistatus.WrongMagicNumber, apistatus.SignatureVerification, *apistatus.SignatureVerification: c.incErrorRate() } return err } // InitParameters contains values used to initialize connection Pool. type InitParameters struct { key *ecdsa.PrivateKey logger *zap.Logger nodeDialTimeout time.Duration healthcheckTimeout time.Duration clientRebalanceInterval time.Duration sessionExpirationDuration uint64 errorThreshold uint32 nodeParams []NodeParam clientBuilder func(endpoint string) (client, error) } // SetKey specifies default key to be used for the protocol communication by default. func (x *InitParameters) SetKey(key *ecdsa.PrivateKey) { x.key = key } // SetLogger specifies logger. func (x *InitParameters) SetLogger(logger *zap.Logger) { x.logger = logger } // SetNodeDialTimeout specifies the timeout for connection to be established. func (x *InitParameters) SetNodeDialTimeout(timeout time.Duration) { x.nodeDialTimeout = timeout } // SetHealthcheckTimeout specifies the timeout for request to node to decide if it is alive. // // See also Pool.Dial. func (x *InitParameters) SetHealthcheckTimeout(timeout time.Duration) { x.healthcheckTimeout = timeout } // SetClientRebalanceInterval specifies the interval for updating nodes health status. // // See also Pool.Dial. func (x *InitParameters) SetClientRebalanceInterval(interval time.Duration) { x.clientRebalanceInterval = interval } // SetSessionExpirationDuration specifies the session token lifetime in epochs. func (x *InitParameters) SetSessionExpirationDuration(expirationDuration uint64) { x.sessionExpirationDuration = expirationDuration } // SetErrorThreshold specifies the number of errors on connection after which node is considered as unhealthy. func (x *InitParameters) SetErrorThreshold(threshold uint32) { x.errorThreshold = threshold } // AddNode append information about the node to which you want to connect. func (x *InitParameters) AddNode(nodeParam NodeParam) { x.nodeParams = append(x.nodeParams, nodeParam) } type rebalanceParameters struct { nodesParams []*nodesParam nodeRequestTimeout time.Duration clientRebalanceInterval time.Duration sessionExpirationDuration uint64 } type nodesParam struct { priority int addresses []string weights []float64 } // NodeParam groups parameters of remote node. type NodeParam struct { priority int address string weight float64 } // NewNodeParam creates NodeParam using parameters. func NewNodeParam(priority int, address string, weight float64) (prm NodeParam) { prm.SetPriority(priority) prm.SetAddress(address) prm.SetWeight(weight) return } // SetPriority specifies priority of the node. // Negative value is allowed. In the result node groups // with the same priority will be sorted by descent. func (x *NodeParam) SetPriority(priority int) { x.priority = priority } // SetAddress specifies address of the node. func (x *NodeParam) SetAddress(address string) { x.address = address } // SetWeight specifies weight of the node. func (x *NodeParam) SetWeight(weight float64) { x.weight = weight } // WaitParams contains parameters used in polling is a something applied on NeoFS network. type WaitParams struct { timeout time.Duration pollInterval time.Duration } // SetTimeout specifies the time to wait for the operation to complete. func (x *WaitParams) SetTimeout(timeout time.Duration) { x.timeout = timeout } // SetPollInterval specifies the interval, once it will check the completion of the operation. func (x *WaitParams) SetPollInterval(tick time.Duration) { x.pollInterval = tick } func (x *WaitParams) setDefaults() { x.timeout = 120 * time.Second x.pollInterval = 5 * time.Second } // checkForPositive panics if any of the wait params isn't positive. func (x *WaitParams) checkForPositive() { if x.timeout <= 0 || x.pollInterval <= 0 { panic("all wait params must be positive") } } type prmContext struct { defaultSession bool verb session.ObjectVerb cnr cid.ID objSet bool obj oid.ID } func (x *prmContext) useDefaultSession() { x.defaultSession = true } func (x *prmContext) useContainer(cnr cid.ID) { x.cnr = cnr } func (x *prmContext) useAddress(addr oid.Address) { x.cnr = addr.Container() x.obj = addr.Object() x.objSet = true } func (x *prmContext) useVerb(verb session.ObjectVerb) { x.verb = verb } type prmCommon struct { key *ecdsa.PrivateKey btoken *bearer.Token stoken *session.Object } // UseKey specifies private key to sign the requests. // If key is not provided, then Pool default key is used. func (x *prmCommon) UseKey(key *ecdsa.PrivateKey) { x.key = key } // UseBearer attaches bearer token to be used for the operation. func (x *prmCommon) UseBearer(token bearer.Token) { x.btoken = &token } // UseSession specifies session within which operation should be performed. func (x *prmCommon) UseSession(token session.Object) { x.stoken = &token } // PrmObjectPut groups parameters of PutObject operation. type PrmObjectPut struct { prmCommon hdr object.Object payload io.Reader copiesNumber uint32 } // SetHeader specifies header of the object. func (x *PrmObjectPut) SetHeader(hdr object.Object) { x.hdr = hdr } // SetPayload specifies payload of the object. func (x *PrmObjectPut) SetPayload(payload io.Reader) { x.payload = payload } // SetCopiesNumber sets number of object copies that is enough to consider put successful. // Zero means using default behavior. func (x *PrmObjectPut) SetCopiesNumber(copiesNumber uint32) { x.copiesNumber = copiesNumber } // PrmObjectDelete groups parameters of DeleteObject operation. type PrmObjectDelete struct { prmCommon addr oid.Address } // SetAddress specifies NeoFS address of the object. func (x *PrmObjectDelete) SetAddress(addr oid.Address) { x.addr = addr } // PrmObjectGet groups parameters of GetObject operation. type PrmObjectGet struct { prmCommon addr oid.Address } // SetAddress specifies NeoFS address of the object. func (x *PrmObjectGet) SetAddress(addr oid.Address) { x.addr = addr } // PrmObjectHead groups parameters of HeadObject operation. type PrmObjectHead struct { prmCommon addr oid.Address } // SetAddress specifies NeoFS address of the object. func (x *PrmObjectHead) SetAddress(addr oid.Address) { x.addr = addr } // PrmObjectRange groups parameters of RangeObject operation. type PrmObjectRange struct { prmCommon addr oid.Address off, ln uint64 } // SetAddress specifies NeoFS address of the object. func (x *PrmObjectRange) SetAddress(addr oid.Address) { x.addr = addr } // SetOffset sets offset of the payload range to be read. func (x *PrmObjectRange) SetOffset(offset uint64) { x.off = offset } // SetLength sets length of the payload range to be read. func (x *PrmObjectRange) SetLength(length uint64) { x.ln = length } // PrmObjectSearch groups parameters of SearchObjects operation. type PrmObjectSearch struct { prmCommon cnrID cid.ID filters object.SearchFilters } // SetContainerID specifies the container in which to look for objects. func (x *PrmObjectSearch) SetContainerID(cnrID cid.ID) { x.cnrID = cnrID } // SetFilters specifies filters by which to select objects. func (x *PrmObjectSearch) SetFilters(filters object.SearchFilters) { x.filters = filters } // PrmContainerPut groups parameters of PutContainer operation. type PrmContainerPut struct { prmClient sdkClient.PrmContainerPut waitParams WaitParams waitParamsSet bool } // SetContainer container structure to be used as a parameter of the base // client's operation. // // See github.com/nspcc-dev/neofs-sdk-go/client.PrmContainerPut.SetContainer. func (x *PrmContainerPut) SetContainer(cnr container.Container) { x.prmClient.SetContainer(cnr) } // WithinSession specifies session to be used as a parameter of the base // client's operation. // // See github.com/nspcc-dev/neofs-sdk-go/client.PrmContainerPut.WithinSession. func (x *PrmContainerPut) WithinSession(s session.Container) { x.prmClient.WithinSession(s) } // SetWaitParams specifies timeout params to complete operation. // If not provided the default one will be used. // Panics if any of the wait params isn't positive. func (x *PrmContainerPut) SetWaitParams(waitParams WaitParams) { waitParams.checkForPositive() x.waitParams = waitParams x.waitParamsSet = true } // PrmContainerGet groups parameters of GetContainer operation. type PrmContainerGet struct { cnrID cid.ID } // SetContainerID specifies identifier of the container to be read. func (x *PrmContainerGet) SetContainerID(cnrID cid.ID) { x.cnrID = cnrID } // PrmContainerList groups parameters of ListContainers operation. type PrmContainerList struct { ownerID user.ID } // SetOwnerID specifies identifier of the NeoFS account to list the containers. func (x *PrmContainerList) SetOwnerID(ownerID user.ID) { x.ownerID = ownerID } // PrmContainerDelete groups parameters of DeleteContainer operation. type PrmContainerDelete struct { cnrID cid.ID stoken session.Container stokenSet bool waitParams WaitParams waitParamsSet bool } // SetContainerID specifies identifier of the NeoFS container to be removed. func (x *PrmContainerDelete) SetContainerID(cnrID cid.ID) { x.cnrID = cnrID } // SetSessionToken specifies session within which operation should be performed. func (x *PrmContainerDelete) SetSessionToken(token session.Container) { x.stoken = token x.stokenSet = true } // SetWaitParams specifies timeout params to complete operation. // If not provided the default one will be used. // Panics if any of the wait params isn't positive. func (x *PrmContainerDelete) SetWaitParams(waitParams WaitParams) { waitParams.checkForPositive() x.waitParams = waitParams x.waitParamsSet = true } // PrmContainerEACL groups parameters of GetEACL operation. type PrmContainerEACL struct { cnrID cid.ID } // SetContainerID specifies identifier of the NeoFS container to read the eACL table. func (x *PrmContainerEACL) SetContainerID(cnrID cid.ID) { x.cnrID = cnrID } // PrmContainerSetEACL groups parameters of SetEACL operation. type PrmContainerSetEACL struct { table eacl.Table sessionSet bool session session.Container waitParams WaitParams waitParamsSet bool } // SetTable sets structure of container's extended ACL to be used as a // parameter of the base client's operation. // // See github.com/nspcc-dev/neofs-sdk-go/client.PrmContainerSetEACL.SetTable. func (x *PrmContainerSetEACL) SetTable(table eacl.Table) { x.table = table } // WithinSession specifies session to be used as a parameter of the base // client's operation. // // See github.com/nspcc-dev/neofs-sdk-go/client.PrmContainerSetEACL.WithinSession. func (x *PrmContainerSetEACL) WithinSession(s session.Container) { x.session = s x.sessionSet = true } // SetWaitParams specifies timeout params to complete operation. // If not provided the default one will be used. // Panics if any of the wait params isn't positive. func (x *PrmContainerSetEACL) SetWaitParams(waitParams WaitParams) { waitParams.checkForPositive() x.waitParams = waitParams x.waitParamsSet = true } // PrmBalanceGet groups parameters of Balance operation. type PrmBalanceGet struct { account user.ID } // SetAccount specifies identifier of the NeoFS account for which the balance is requested. func (x *PrmBalanceGet) SetAccount(id user.ID) { x.account = id } // prmEndpointInfo groups parameters of sessionCreate operation. type prmCreateSession struct { exp uint64 key ecdsa.PrivateKey } // setExp sets number of the last NeoFS epoch in the lifetime of the session after which it will be expired. func (x *prmCreateSession) setExp(exp uint64) { x.exp = exp } // useKey specifies owner private key for session token. // If key is not provided, then Pool default key is used. func (x *prmCreateSession) useKey(key ecdsa.PrivateKey) { x.key = key } // prmEndpointInfo groups parameters of endpointInfo operation. type prmEndpointInfo struct{} // prmNetworkInfo groups parameters of networkInfo operation. type prmNetworkInfo struct{} // resCreateSession groups resulting values of sessionCreate operation. type resCreateSession struct { id []byte sessionKey []byte } // Pool represents virtual connection to the NeoFS network to communicate // with multiple NeoFS servers without thinking about switching between servers // due to load balancing proportions or their unavailability. // It is designed to provide a convenient abstraction from the multiple sdkClient.client types. // // Pool can be created and initialized using NewPool function. // Before executing the NeoFS operations using the Pool, connection to the // servers MUST BE correctly established (see Dial method). // Using the Pool before connecting have been established can lead to a panic. // After the work, the Pool SHOULD BE closed (see Close method): it frees internal // and system resources which were allocated for the period of work of the Pool. // Calling Dial/Close methods during the communication process step strongly discouraged // as it leads to undefined behavior. // // Each method which produces a NeoFS API call may return an error. // Status of underlying server response is casted to built-in error instance. // Certain statuses can be checked using `sdkClient` and standard `errors` packages. // Note that package provides some helper functions to work with status returns // (e.g. sdkClient.IsErrContainerNotFound, sdkClient.IsErrObjectNotFound). // // See pool package overview to get some examples. type Pool struct { innerPools []*innerPool key *ecdsa.PrivateKey cancel context.CancelFunc closedCh chan struct{} cache *sessionCache stokenDuration uint64 rebalanceParams rebalanceParameters clientBuilder func(endpoint string) (client, error) logger *zap.Logger } type innerPool struct { lock sync.RWMutex sampler *sampler clients []client } const ( defaultSessionTokenExpirationDuration = 100 // in blocks defaultErrorThreshold = 100 defaultRebalanceInterval = 25 * time.Second defaultRequestTimeout = 4 * time.Second ) // NewPool creates connection pool using parameters. func NewPool(options InitParameters) (*Pool, error) { if options.key == nil { return nil, fmt.Errorf("missed required parameter 'Key'") } nodesParams, err := adjustNodeParams(options.nodeParams) if err != nil { return nil, err } cache, err := newCache() if err != nil { return nil, fmt.Errorf("couldn't create cache: %w", err) } fillDefaultInitParams(&options, cache) pool := &Pool{ key: options.key, cache: cache, logger: options.logger, stokenDuration: options.sessionExpirationDuration, rebalanceParams: rebalanceParameters{ nodesParams: nodesParams, nodeRequestTimeout: options.healthcheckTimeout, clientRebalanceInterval: options.clientRebalanceInterval, sessionExpirationDuration: options.sessionExpirationDuration, }, clientBuilder: options.clientBuilder, } return pool, nil } // Dial establishes a connection to the servers from the NeoFS network. // It also starts a routine that checks the health of the nodes and // updates the weights of the nodes for balancing. // Returns an error describing failure reason. // // If failed, the Pool SHOULD NOT be used. // // See also InitParameters.SetClientRebalanceInterval. func (p *Pool) Dial(ctx context.Context) error { inner := make([]*innerPool, len(p.rebalanceParams.nodesParams)) var atLeastOneHealthy bool for i, params := range p.rebalanceParams.nodesParams { clients := make([]client, len(params.weights)) for j, addr := range params.addresses { c, err := p.clientBuilder(addr) if err != nil { return err } var healthy bool var st session.Object err = initSessionForDuration(ctx, &st, c, p.rebalanceParams.sessionExpirationDuration, *p.key) if err != nil && p.logger != nil { p.logger.Warn("failed to create neofs session token for client", zap.String("Address", addr), zap.Error(err)) } else if err == nil { healthy, atLeastOneHealthy = true, true _ = p.cache.Put(formCacheKey(addr, p.key), st) } c.setHealthy(healthy) clients[j] = c } source := rand.NewSource(time.Now().UnixNano()) sampl := newSampler(params.weights, source) inner[i] = &innerPool{ sampler: sampl, clients: clients, } } if !atLeastOneHealthy { return fmt.Errorf("at least one node must be healthy") } ctx, cancel := context.WithCancel(ctx) p.cancel = cancel p.closedCh = make(chan struct{}) p.innerPools = inner go p.startRebalance(ctx) return nil } func fillDefaultInitParams(params *InitParameters, cache *sessionCache) { if params.sessionExpirationDuration == 0 { params.sessionExpirationDuration = defaultSessionTokenExpirationDuration } if params.errorThreshold == 0 { params.errorThreshold = defaultErrorThreshold } if params.clientRebalanceInterval <= 0 { params.clientRebalanceInterval = defaultRebalanceInterval } if params.healthcheckTimeout <= 0 { params.healthcheckTimeout = defaultRequestTimeout } if params.clientBuilder == nil { params.clientBuilder = func(addr string) (client, error) { var prm wrapperPrm prm.setAddress(addr) prm.setKey(*params.key) prm.setTimeout(params.nodeDialTimeout) prm.setErrorThreshold(params.errorThreshold) prm.setResponseInfoCallback(func(info sdkClient.ResponseMetaInfo) error { cache.updateEpoch(info.Epoch()) return nil }) return newWrapper(prm) } } } func adjustNodeParams(nodeParams []NodeParam) ([]*nodesParam, error) { if len(nodeParams) == 0 { return nil, errors.New("no NeoFS peers configured") } nodesParamsMap := make(map[int]*nodesParam) for _, param := range nodeParams { nodes, ok := nodesParamsMap[param.priority] if !ok { nodes = &nodesParam{priority: param.priority} } nodes.addresses = append(nodes.addresses, param.address) nodes.weights = append(nodes.weights, param.weight) nodesParamsMap[param.priority] = nodes } nodesParams := make([]*nodesParam, 0, len(nodesParamsMap)) for _, nodes := range nodesParamsMap { nodes.weights = adjustWeights(nodes.weights) nodesParams = append(nodesParams, nodes) } sort.Slice(nodesParams, func(i, j int) bool { return nodesParams[i].priority < nodesParams[j].priority }) return nodesParams, nil } // startRebalance runs loop to monitor connection healthy status. func (p *Pool) startRebalance(ctx context.Context) { ticker := time.NewTimer(p.rebalanceParams.clientRebalanceInterval) buffers := make([][]float64, len(p.rebalanceParams.nodesParams)) for i, params := range p.rebalanceParams.nodesParams { buffers[i] = make([]float64, len(params.weights)) } for { select { case <-ctx.Done(): close(p.closedCh) return case <-ticker.C: p.updateNodesHealth(ctx, buffers) ticker.Reset(p.rebalanceParams.clientRebalanceInterval) } } } func (p *Pool) updateNodesHealth(ctx context.Context, buffers [][]float64) { wg := sync.WaitGroup{} for i, inner := range p.innerPools { wg.Add(1) bufferWeights := buffers[i] go func(i int, innerPool *innerPool) { defer wg.Done() p.updateInnerNodesHealth(ctx, i, bufferWeights) }(i, inner) } wg.Wait() } func (p *Pool) updateInnerNodesHealth(ctx context.Context, i int, bufferWeights []float64) { if i > len(p.innerPools)-1 { return } pool := p.innerPools[i] options := p.rebalanceParams healthyChanged := atomic.NewBool(false) wg := sync.WaitGroup{} var prmEndpoint prmEndpointInfo for j, cli := range pool.clients { wg.Add(1) go func(j int, cli client) { defer wg.Done() ok := true tctx, c := context.WithTimeout(ctx, options.nodeRequestTimeout) defer c() // TODO (@kirillovdenis) : #283 consider reconnect to the node on failure if _, err := cli.endpointInfo(tctx, prmEndpoint); err != nil { ok = false bufferWeights[j] = 0 } if ok { bufferWeights[j] = options.nodesParams[i].weights[j] } else { p.cache.DeleteByPrefix(cli.address()) } if cli.setHealthy(ok) { healthyChanged.Store(true) } }(j, cli) } wg.Wait() if healthyChanged.Load() { probabilities := adjustWeights(bufferWeights) source := rand.NewSource(time.Now().UnixNano()) pool.lock.Lock() pool.sampler = newSampler(probabilities, source) pool.lock.Unlock() } } func adjustWeights(weights []float64) []float64 { adjusted := make([]float64, len(weights)) sum := 0.0 for _, weight := range weights { sum += weight } if sum > 0 { for i, weight := range weights { adjusted[i] = weight / sum } } return adjusted } func (p *Pool) connection() (client, error) { for _, inner := range p.innerPools { cp, err := inner.connection() if err == nil { return cp, nil } } return nil, errors.New("no healthy client") } func (p *innerPool) connection() (client, error) { p.lock.RLock() // TODO(@kirillovdenis): #283 consider remove this lock because using client should be thread safe defer p.lock.RUnlock() if len(p.clients) == 1 { cp := p.clients[0] if cp.isHealthy() { return cp, nil } return nil, errors.New("no healthy client") } attempts := 3 * len(p.clients) for k := 0; k < attempts; k++ { i := p.sampler.Next() if cp := p.clients[i]; cp.isHealthy() { return cp, nil } } return nil, errors.New("no healthy client") } func formCacheKey(address string, key *ecdsa.PrivateKey) string { k := keys.PrivateKey{PrivateKey: *key} return address + k.String() } func (p *Pool) checkSessionTokenErr(err error, address string) bool { if err == nil { return false } if sdkClient.IsErrSessionNotFound(err) || sdkClient.IsErrSessionExpired(err) { p.cache.DeleteByPrefix(address) return true } return false } func initSessionForDuration(ctx context.Context, dst *session.Object, c client, dur uint64, ownerKey ecdsa.PrivateKey) error { ni, err := c.networkInfo(ctx, prmNetworkInfo{}) if err != nil { return err } epoch := ni.CurrentEpoch() var exp uint64 if math.MaxUint64-epoch < dur { exp = math.MaxUint64 } else { exp = epoch + dur } var prm prmCreateSession prm.setExp(exp) prm.useKey(ownerKey) res, err := c.sessionCreate(ctx, prm) if err != nil { return err } var id uuid.UUID err = id.UnmarshalBinary(res.id) if err != nil { return fmt.Errorf("invalid session token ID: %w", err) } var key neofsecdsa.PublicKey err = key.Decode(res.sessionKey) if err != nil { return fmt.Errorf("invalid public session key: %w", err) } dst.SetID(id) dst.SetAuthKey(&key) dst.SetExp(exp) return nil } type callContext struct { // base context for RPC context.Context client client // client endpoint endpoint string // request signer key *ecdsa.PrivateKey // flag to open default session if session token is missing sessionDefault bool sessionTarget func(session.Object) sessionVerb session.ObjectVerb sessionCnr cid.ID sessionObjSet bool sessionObj oid.ID } func (p *Pool) initCallContext(ctx *callContext, cfg prmCommon, prmCtx prmContext) error { cp, err := p.connection() if err != nil { return err } ctx.key = cfg.key if ctx.key == nil { // use pool key if caller didn't specify its own ctx.key = p.key } ctx.endpoint = cp.address() ctx.client = cp if ctx.sessionTarget != nil && cfg.stoken != nil { ctx.sessionTarget(*cfg.stoken) } // note that we don't override session provided by the caller ctx.sessionDefault = cfg.stoken == nil && prmCtx.defaultSession if ctx.sessionDefault { ctx.sessionVerb = prmCtx.verb ctx.sessionCnr = prmCtx.cnr ctx.sessionObjSet = prmCtx.objSet ctx.sessionObj = prmCtx.obj } return err } // opens new session or uses cached one. // Must be called only on initialized callContext with set sessionTarget. func (p *Pool) openDefaultSession(ctx *callContext) error { cacheKey := formCacheKey(ctx.endpoint, ctx.key) tok, ok := p.cache.Get(cacheKey) if !ok { // init new session err := initSessionForDuration(ctx, &tok, ctx.client, p.stokenDuration, *ctx.key) if err != nil { return fmt.Errorf("session API client: %w", err) } // cache the opened session p.cache.Put(cacheKey, tok) } tok.ForVerb(ctx.sessionVerb) tok.BindContainer(ctx.sessionCnr) if ctx.sessionObjSet { tok.LimitByObject(ctx.sessionObj) } // sign the token if err := tok.Sign(*ctx.key); err != nil { return fmt.Errorf("sign token of the opened session: %w", err) } ctx.sessionTarget(tok) return nil } // opens default session (if sessionDefault is set), and calls f. If f returns // session-related error then cached token is removed. func (p *Pool) call(ctx *callContext, f func() error) error { var err error if ctx.sessionDefault { err = p.openDefaultSession(ctx) if err != nil { return fmt.Errorf("open default session: %w", err) } } err = f() _ = p.checkSessionTokenErr(err, ctx.endpoint) return err } // fillAppropriateKey use pool key if caller didn't specify its own. func (p *Pool) fillAppropriateKey(prm *prmCommon) { if prm.key == nil { prm.key = p.key } } // PutObject writes an object through a remote server using NeoFS API protocol. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) PutObject(ctx context.Context, prm PrmObjectPut) (oid.ID, error) { cnr, _ := prm.hdr.ContainerID() var prmCtx prmContext prmCtx.useDefaultSession() prmCtx.useVerb(session.VerbObjectPut) prmCtx.useContainer(cnr) p.fillAppropriateKey(&prm.prmCommon) var ctxCall callContext ctxCall.Context = ctx if err := p.initCallContext(&ctxCall, prm.prmCommon, prmCtx); err != nil { return oid.ID{}, fmt.Errorf("init call context: %w", err) } if ctxCall.sessionDefault { ctxCall.sessionTarget = prm.UseSession if err := p.openDefaultSession(&ctxCall); err != nil { return oid.ID{}, fmt.Errorf("open default session: %w", err) } } id, err := ctxCall.client.objectPut(ctx, prm) if err != nil { // removes session token from cache in case of token error p.checkSessionTokenErr(err, ctxCall.endpoint) return id, fmt.Errorf("init writing on API client: %w", err) } return id, nil } // DeleteObject marks an object for deletion from the container using NeoFS API protocol. // As a marker, a special unit called a tombstone is placed in the container. // It confirms the user's intent to delete the object, and is itself a container object. // Explicit deletion is done asynchronously, and is generally not guaranteed. func (p *Pool) DeleteObject(ctx context.Context, prm PrmObjectDelete) error { var prmCtx prmContext prmCtx.useDefaultSession() prmCtx.useVerb(session.VerbObjectDelete) prmCtx.useAddress(prm.addr) p.fillAppropriateKey(&prm.prmCommon) var cc callContext cc.Context = ctx cc.sessionTarget = prm.UseSession err := p.initCallContext(&cc, prm.prmCommon, prmCtx) if err != nil { return err } return p.call(&cc, func() error { if err = cc.client.objectDelete(ctx, prm); err != nil { return fmt.Errorf("remove object via client: %w", err) } return nil }) } type objectReadCloser struct { reader *sdkClient.ObjectReader elapsedTimeCallback func(time.Duration) } // Read implements io.Reader of the object payload. func (x *objectReadCloser) Read(p []byte) (int, error) { start := time.Now() n, err := x.reader.Read(p) x.elapsedTimeCallback(time.Since(start)) return n, err } // Close implements io.Closer of the object payload. func (x *objectReadCloser) Close() error { _, err := x.reader.Close() return err } // ResGetObject is designed to provide object header nad read one object payload from NeoFS system. type ResGetObject struct { Header object.Object Payload io.ReadCloser } // GetObject reads object header and initiates reading an object payload through a remote server using NeoFS API protocol. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) GetObject(ctx context.Context, prm PrmObjectGet) (ResGetObject, error) { var prmCtx prmContext prmCtx.useDefaultSession() prmCtx.useVerb(session.VerbObjectGet) prmCtx.useAddress(prm.addr) p.fillAppropriateKey(&prm.prmCommon) var cc callContext cc.Context = ctx cc.sessionTarget = prm.UseSession var res ResGetObject err := p.initCallContext(&cc, prm.prmCommon, prmCtx) if err != nil { return res, err } return res, p.call(&cc, func() error { res, err = cc.client.objectGet(ctx, prm) return err }) } // HeadObject reads object header through a remote server using NeoFS API protocol. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) HeadObject(ctx context.Context, prm PrmObjectHead) (object.Object, error) { var prmCtx prmContext prmCtx.useDefaultSession() prmCtx.useVerb(session.VerbObjectHead) prmCtx.useAddress(prm.addr) p.fillAppropriateKey(&prm.prmCommon) var cc callContext cc.Context = ctx cc.sessionTarget = prm.UseSession var obj object.Object err := p.initCallContext(&cc, prm.prmCommon, prmCtx) if err != nil { return obj, err } return obj, p.call(&cc, func() error { obj, err = cc.client.objectHead(ctx, prm) return err }) } // ResObjectRange is designed to read payload range of one object // from NeoFS system. // // Must be initialized using Pool.ObjectRange, any other // usage is unsafe. type ResObjectRange struct { payload *sdkClient.ObjectRangeReader elapsedTimeCallback func(time.Duration) } // Read implements io.Reader of the object payload. func (x *ResObjectRange) Read(p []byte) (int, error) { start := time.Now() n, err := x.payload.Read(p) x.elapsedTimeCallback(time.Since(start)) return n, err } // Close ends reading the payload range and returns the result of the operation // along with the final results. Must be called after using the ResObjectRange. func (x *ResObjectRange) Close() error { _, err := x.payload.Close() return err } // ObjectRange initiates reading an object's payload range through a remote // server using NeoFS API protocol. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) ObjectRange(ctx context.Context, prm PrmObjectRange) (ResObjectRange, error) { var prmCtx prmContext prmCtx.useDefaultSession() prmCtx.useVerb(session.VerbObjectRange) prmCtx.useAddress(prm.addr) p.fillAppropriateKey(&prm.prmCommon) var cc callContext cc.Context = ctx cc.sessionTarget = prm.UseSession var res ResObjectRange err := p.initCallContext(&cc, prm.prmCommon, prmCtx) if err != nil { return res, err } return res, p.call(&cc, func() error { res, err = cc.client.objectRange(ctx, prm) return err }) } // ResObjectSearch is designed to read list of object identifiers from NeoFS system. // // Must be initialized using Pool.SearchObjects, any other usage is unsafe. type ResObjectSearch struct { r *sdkClient.ObjectListReader } // Read reads another list of the object identifiers. func (x *ResObjectSearch) Read(buf []oid.ID) (int, error) { n, ok := x.r.Read(buf) if !ok { _, err := x.r.Close() if err == nil { return n, io.EOF } return n, err } return n, nil } // Iterate iterates over the list of found object identifiers. // f can return true to stop iteration earlier. // // Returns an error if object can't be read. func (x *ResObjectSearch) Iterate(f func(oid.ID) bool) error { return x.r.Iterate(f) } // Close ends reading list of the matched objects and returns the result of the operation // along with the final results. Must be called after using the ResObjectSearch. func (x *ResObjectSearch) Close() { _, _ = x.r.Close() } // SearchObjects initiates object selection through a remote server using NeoFS API protocol. // // The call only opens the transmission channel, explicit fetching of matched objects // is done using the ResObjectSearch. Resulting reader must be finally closed. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) SearchObjects(ctx context.Context, prm PrmObjectSearch) (ResObjectSearch, error) { var prmCtx prmContext prmCtx.useDefaultSession() prmCtx.useVerb(session.VerbObjectSearch) prmCtx.useContainer(prm.cnrID) p.fillAppropriateKey(&prm.prmCommon) var cc callContext cc.Context = ctx cc.sessionTarget = prm.UseSession var res ResObjectSearch err := p.initCallContext(&cc, prm.prmCommon, prmCtx) if err != nil { return res, err } return res, p.call(&cc, func() error { res, err = cc.client.objectSearch(ctx, prm) return err }) } // PutContainer sends request to save container in NeoFS and waits for the operation to complete. // // Waiting parameters can be specified using SetWaitParams. If not called, defaults are used: // // polling interval: 5s // waiting timeout: 120s // // Success can be verified by reading by identifier (see GetContainer). // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) PutContainer(ctx context.Context, prm PrmContainerPut) (cid.ID, error) { cp, err := p.connection() if err != nil { return cid.ID{}, err } return cp.containerPut(ctx, prm) } // GetContainer reads NeoFS container by ID. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) GetContainer(ctx context.Context, prm PrmContainerGet) (container.Container, error) { cp, err := p.connection() if err != nil { return container.Container{}, err } return cp.containerGet(ctx, prm) } // ListContainers requests identifiers of the account-owned containers. func (p *Pool) ListContainers(ctx context.Context, prm PrmContainerList) ([]cid.ID, error) { cp, err := p.connection() if err != nil { return nil, err } return cp.containerList(ctx, prm) } // DeleteContainer sends request to remove the NeoFS container and waits for the operation to complete. // // Waiting parameters can be specified using SetWaitParams. If not called, defaults are used: // // polling interval: 5s // waiting timeout: 120s // // Success can be verified by reading by identifier (see GetContainer). func (p *Pool) DeleteContainer(ctx context.Context, prm PrmContainerDelete) error { cp, err := p.connection() if err != nil { return err } return cp.containerDelete(ctx, prm) } // GetEACL reads eACL table of the NeoFS container. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) GetEACL(ctx context.Context, prm PrmContainerEACL) (eacl.Table, error) { cp, err := p.connection() if err != nil { return eacl.Table{}, err } return cp.containerEACL(ctx, prm) } // SetEACL sends request to update eACL table of the NeoFS container and waits for the operation to complete. // // Waiting parameters can be specified using SetWaitParams. If not called, defaults are used: // // polling interval: 5s // waiting timeout: 120s // // Success can be verified by reading by identifier (see GetEACL). func (p *Pool) SetEACL(ctx context.Context, prm PrmContainerSetEACL) error { cp, err := p.connection() if err != nil { return err } return cp.containerSetEACL(ctx, prm) } // Balance requests current balance of the NeoFS account. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) Balance(ctx context.Context, prm PrmBalanceGet) (accounting.Decimal, error) { cp, err := p.connection() if err != nil { return accounting.Decimal{}, err } return cp.balanceGet(ctx, prm) } // Statistic returns connection statistics. func (p Pool) Statistic() Statistic { stat := Statistic{} for _, inner := range p.innerPools { inner.lock.RLock() for _, cl := range inner.clients { node := NodeStatistic{ address: cl.address(), methods: cl.methodsStatus(), overallErrors: cl.overallErrorRate(), currentErrors: cl.currentErrorRate(), } stat.nodes = append(stat.nodes, node) stat.overallErrors += node.overallErrors } inner.lock.RUnlock() } return stat } // waitForContainerPresence waits until the container is found on the NeoFS network. func waitForContainerPresence(ctx context.Context, cli client, cnrID cid.ID, waitParams *WaitParams) error { var prm PrmContainerGet prm.SetContainerID(cnrID) return waitFor(ctx, waitParams, func(ctx context.Context) bool { _, err := cli.containerGet(ctx, prm) return err == nil }) } // waitForEACLPresence waits until the container eacl is applied on the NeoFS network. func waitForEACLPresence(ctx context.Context, cli client, cnrID *cid.ID, table *eacl.Table, waitParams *WaitParams) error { var prm PrmContainerEACL if cnrID != nil { prm.SetContainerID(*cnrID) } return waitFor(ctx, waitParams, func(ctx context.Context) bool { eaclTable, err := cli.containerEACL(ctx, prm) if err == nil { return eacl.EqualTables(*table, eaclTable) } return false }) } // waitForContainerRemoved waits until the container is removed from the NeoFS network. func waitForContainerRemoved(ctx context.Context, cli client, cnrID *cid.ID, waitParams *WaitParams) error { var prm PrmContainerGet if cnrID != nil { prm.SetContainerID(*cnrID) } return waitFor(ctx, waitParams, func(ctx context.Context) bool { _, err := cli.containerGet(ctx, prm) return sdkClient.IsErrContainerNotFound(err) }) } // waitFor await that given condition will be met in waitParams time. func waitFor(ctx context.Context, params *WaitParams, condition func(context.Context) bool) error { wctx, cancel := context.WithTimeout(ctx, params.timeout) defer cancel() ticker := time.NewTimer(params.pollInterval) defer ticker.Stop() wdone := wctx.Done() done := ctx.Done() for { select { case <-done: return ctx.Err() case <-wdone: return wctx.Err() case <-ticker.C: if condition(ctx) { return nil } ticker.Reset(params.pollInterval) } } } // NetworkInfo requests information about the NeoFS network of which the remote server is a part. // // Main return value MUST NOT be processed on an erroneous return. func (p *Pool) NetworkInfo(ctx context.Context) (netmap.NetworkInfo, error) { cp, err := p.connection() if err != nil { return netmap.NetworkInfo{}, err } return cp.networkInfo(ctx, prmNetworkInfo{}) } // Close closes the Pool and releases all the associated resources. func (p *Pool) Close() { p.cancel() <-p.closedCh } // SyncContainerWithNetwork applies network configuration received via // the Pool to the container. Changes the container if it does not satisfy // network configuration. // // Pool and container MUST not be nil. // // Returns any error that does not allow reading configuration // from the network. func SyncContainerWithNetwork(ctx context.Context, cnr *container.Container, p *Pool) error { ni, err := p.NetworkInfo(ctx) if err != nil { return fmt.Errorf("network info: %w", err) } container.ApplyNetworkConfig(cnr, ni) return nil }