// Copyright (c) 2015-2023 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package grid import ( "context" "encoding/hex" "errors" "fmt" "strings" "sync" "github.com/minio/minio/internal/hash/sha256" xioutil "github.com/minio/minio/internal/ioutil" "github.com/tinylib/msgp/msgp" ) //go:generate stringer -type=HandlerID -output=handlers_string.go -trimprefix=Handler msg.go $GOFILE // HandlerID is a handler identifier. // It is used to determine request routing on the server. // Handlers can be registered with a static subroute. // Do NOT remove or change the order of existing handlers. const ( // handlerInvalid is reserved to check for uninitialized values. handlerInvalid HandlerID = iota HandlerLockLock HandlerLockRLock HandlerLockUnlock HandlerLockRUnlock HandlerLockRefresh HandlerLockForceUnlock HandlerWalkDir HandlerStatVol HandlerDiskInfo HandlerNSScanner HandlerReadXL HandlerReadVersion HandlerDeleteFile HandlerDeleteVersion HandlerUpdateMetadata HandlerWriteMetadata HandlerCheckParts HandlerRenameData HandlerRenameFile HandlerReadAll HandlerServerVerify HandlerTrace HandlerListen HandlerDeleteBucketMetadata HandlerLoadBucketMetadata HandlerReloadSiteReplicationConfig HandlerReloadPoolMeta HandlerStopRebalance HandlerLoadRebalanceMeta HandlerLoadTransitionTierConfig HandlerDeletePolicy HandlerLoadPolicy HandlerLoadPolicyMapping HandlerDeleteServiceAccount HandlerLoadServiceAccount HandlerDeleteUser HandlerLoadUser HandlerLoadGroup HandlerHealBucket HandlerMakeBucket HandlerHeadBucket HandlerDeleteBucket HandlerGetMetrics HandlerGetResourceMetrics HandlerGetMemInfo HandlerGetProcInfo HandlerGetOSInfo HandlerGetPartitions HandlerGetNetInfo HandlerGetCPUs HandlerServerInfo HandlerGetSysConfig HandlerGetSysServices HandlerGetSysErrors HandlerGetAllBucketStats HandlerGetBucketStats HandlerGetSRMetrics HandlerGetPeerMetrics HandlerGetMetacacheListing HandlerUpdateMetacacheListing HandlerGetPeerBucketMetrics HandlerStorageInfo HandlerConsoleLog HandlerListDir HandlerGetLocks HandlerBackgroundHealStatus HandlerGetLastDayTierStats HandlerSignalService HandlerGetBandwidth HandlerWriteAll HandlerListBuckets HandlerRenameDataInline // Add more above here ^^^ // If all handlers are used, the type of Handler can be changed. // Handlers have no versioning, so non-compatible handler changes must result in new IDs. handlerTest handlerTest2 handlerLast ) // handlerPrefixes are prefixes for handler IDs used for tracing. // If a handler is not listed here, it will be traced with "grid" prefix. var handlerPrefixes = [handlerLast]string{ HandlerLockLock: lockPrefix, HandlerLockRLock: lockPrefix, HandlerLockUnlock: lockPrefix, HandlerLockRUnlock: lockPrefix, HandlerLockRefresh: lockPrefix, HandlerLockForceUnlock: lockPrefix, HandlerWalkDir: storagePrefix, HandlerStatVol: storagePrefix, HandlerDiskInfo: storagePrefix, HandlerNSScanner: storagePrefix, HandlerReadXL: storagePrefix, HandlerReadVersion: storagePrefix, HandlerDeleteFile: storagePrefix, HandlerDeleteVersion: storagePrefix, HandlerUpdateMetadata: storagePrefix, HandlerWriteMetadata: storagePrefix, HandlerCheckParts: storagePrefix, HandlerRenameData: storagePrefix, HandlerRenameFile: storagePrefix, HandlerReadAll: storagePrefix, HandlerWriteAll: storagePrefix, HandlerServerVerify: bootstrapPrefix, HandlerTrace: peerPrefix, HandlerListen: peerPrefix, HandlerDeleteBucketMetadata: peerPrefix, HandlerLoadBucketMetadata: peerPrefix, HandlerReloadSiteReplicationConfig: peerPrefix, HandlerReloadPoolMeta: peerPrefix, HandlerStopRebalance: peerPrefix, HandlerLoadRebalanceMeta: peerPrefix, HandlerLoadTransitionTierConfig: peerPrefix, HandlerDeletePolicy: peerPrefix, HandlerLoadPolicy: peerPrefix, HandlerLoadPolicyMapping: peerPrefix, HandlerDeleteServiceAccount: peerPrefix, HandlerLoadServiceAccount: peerPrefix, HandlerDeleteUser: peerPrefix, HandlerLoadUser: peerPrefix, HandlerLoadGroup: peerPrefix, HandlerMakeBucket: peerPrefixS3, HandlerHeadBucket: peerPrefixS3, HandlerDeleteBucket: peerPrefixS3, HandlerHealBucket: healPrefix, HandlerGetMetrics: peerPrefix, HandlerGetResourceMetrics: peerPrefix, HandlerGetMemInfo: peerPrefix, HandlerGetProcInfo: peerPrefix, HandlerGetOSInfo: peerPrefix, HandlerGetPartitions: peerPrefix, HandlerGetNetInfo: peerPrefix, HandlerGetCPUs: peerPrefix, HandlerServerInfo: peerPrefix, HandlerGetSysConfig: peerPrefix, HandlerGetSysServices: peerPrefix, HandlerGetSysErrors: peerPrefix, HandlerGetAllBucketStats: peerPrefix, HandlerGetBucketStats: peerPrefix, HandlerGetSRMetrics: peerPrefix, HandlerGetPeerMetrics: peerPrefix, HandlerGetMetacacheListing: peerPrefix, HandlerUpdateMetacacheListing: peerPrefix, HandlerGetPeerBucketMetrics: peerPrefix, HandlerStorageInfo: peerPrefix, HandlerConsoleLog: peerPrefix, HandlerListDir: storagePrefix, HandlerListBuckets: peerPrefixS3, } const ( lockPrefix = "lockR" storagePrefix = "storageR" bootstrapPrefix = "bootstrap" peerPrefix = "peer" peerPrefixS3 = "peerS3" healPrefix = "heal" ) func init() { // Static check if we exceed 255 handler ids. // Extend the type to uint16 when hit. if handlerLast > 255 { panic(fmt.Sprintf("out of handler IDs. %d > %d", handlerLast, 255)) } } func (h HandlerID) valid() bool { return h != handlerInvalid && h < handlerLast } func (h HandlerID) isTestHandler() bool { return h >= handlerTest && h <= handlerTest2 } // RemoteErr is a remote error type. // Any error seen on a remote will be returned like this. type RemoteErr string // NewRemoteErr creates a new remote error. // The error type is not preserved. func NewRemoteErr(err error) *RemoteErr { if err == nil { return nil } r := RemoteErr(err.Error()) return &r } // NewRemoteErrf creates a new remote error from a format string. func NewRemoteErrf(format string, a ...any) *RemoteErr { r := RemoteErr(fmt.Sprintf(format, a...)) return &r } // NewNPErr is a helper to no payload and optional remote error. // The error type is not preserved. func NewNPErr(err error) (NoPayload, *RemoteErr) { if err == nil { return NoPayload{}, nil } r := RemoteErr(err.Error()) return NoPayload{}, &r } // NewRemoteErrString creates a new remote error from a string. func NewRemoteErrString(msg string) *RemoteErr { r := RemoteErr(msg) return &r } func (r RemoteErr) Error() string { return string(r) } // Is returns if the string representation matches. func (r *RemoteErr) Is(other error) bool { if r == nil || other == nil { return r == other } var o RemoteErr if errors.As(other, &o) { return r == &o } return false } // IsRemoteErr returns the value if the error is a RemoteErr. func IsRemoteErr(err error) *RemoteErr { var r RemoteErr if errors.As(err, &r) { return &r } return nil } type ( // SingleHandlerFn is handlers for one to one requests. // A non-nil error value will be returned as RemoteErr(msg) to client. // No client information or cancellation (deadline) is available. // Include this in payload if needed. // Payload should be recycled with PutByteBuffer if not needed after the call. SingleHandlerFn func(payload []byte) ([]byte, *RemoteErr) // StatelessHandlerFn must handle incoming stateless request. // A non-nil error value will be returned as RemoteErr(msg) to client. StatelessHandlerFn func(ctx context.Context, payload []byte, resp chan<- []byte) *RemoteErr // StatelessHandler is handlers for one to many requests, // where responses may be dropped. // Stateless requests provide no incoming stream and there is no flow control // on outgoing messages. StatelessHandler struct { Handle StatelessHandlerFn // OutCapacity is the output capacity on the caller. // If <= 0 capacity will be 1. OutCapacity int } // StreamHandlerFn must process a request with an optional initial payload. // It must keep consuming from 'in' until it returns. // 'in' and 'out' are independent. // The handler should never close out. // Buffers received from 'in' can be recycled with PutByteBuffer. // Buffers sent on out can not be referenced once sent. StreamHandlerFn func(ctx context.Context, payload []byte, in <-chan []byte, out chan<- []byte) *RemoteErr // StreamHandler handles fully bidirectional streams, // There is flow control in both directions. StreamHandler struct { // Handle an incoming request. Initial payload is sent. // Additional input packets (if any) are streamed to request. // Upstream will block when request channel is full. // Response packets can be sent at any time. // Any non-nil error sent as response means no more responses are sent. Handle StreamHandlerFn // Subroute for handler. // Subroute must be static and clients should specify a matching subroute. // Should not be set unless there are different handlers for the same HandlerID. Subroute string // OutCapacity is the output capacity. If <= 0 capacity will be 1. OutCapacity int // InCapacity is the output capacity. // If == 0 no input is expected InCapacity int } ) type subHandlerID [32]byte func makeSubHandlerID(id HandlerID, subRoute string) subHandlerID { b := subHandlerID(sha256.Sum256([]byte(subRoute))) b[0] = byte(id) b[1] = 0 // Reserved return b } func (s subHandlerID) withHandler(id HandlerID) subHandlerID { s[0] = byte(id) s[1] = 0 // Reserved return s } func (s *subHandlerID) String() string { if s == nil { return "" } return hex.EncodeToString(s[:]) } func makeZeroSubHandlerID(id HandlerID) subHandlerID { return subHandlerID{byte(id)} } type handlers struct { single [handlerLast]SingleHandlerFn stateless [handlerLast]*StatelessHandler streams [handlerLast]*StreamHandler subSingle map[subHandlerID]SingleHandlerFn subStateless map[subHandlerID]*StatelessHandler subStreams map[subHandlerID]*StreamHandler } func (h *handlers) init() { h.subSingle = make(map[subHandlerID]SingleHandlerFn) h.subStateless = make(map[subHandlerID]*StatelessHandler) h.subStreams = make(map[subHandlerID]*StreamHandler) } func (h *handlers) hasAny(id HandlerID) bool { if !id.valid() { return false } return h.single[id] != nil || h.stateless[id] != nil || h.streams[id] != nil } func (h *handlers) hasSubhandler(id subHandlerID) bool { return h.subSingle[id] != nil || h.subStateless[id] != nil || h.subStreams[id] != nil } // RoundTripper provides an interface for type roundtrip serialization. type RoundTripper interface { msgp.Unmarshaler msgp.Marshaler msgp.Sizer comparable } // SingleHandler is a type safe handler for single roundtrip requests. type SingleHandler[Req, Resp RoundTripper] struct { id HandlerID sharedResp bool callReuseReq bool ignoreNilConn bool newReq func() Req newResp func() Resp recycleReq func(Req) recycleResp func(Resp) } func recycleFunc[RT RoundTripper](newRT func() RT) (newFn func() RT, recycle func(r RT)) { rAny := any(newRT()) var rZero RT if _, ok := rAny.(Recycler); ok { return newRT, func(r RT) { if r != rZero { if rc, ok := any(r).(Recycler); ok { rc.Recycle() } } } } pool := sync.Pool{ New: func() interface{} { return newRT() }, } return func() RT { return pool.Get().(RT) }, func(r RT) { if r != rZero { pool.Put(r) } } } // NewSingleHandler creates a typed handler that can provide Marshal/Unmarshal. // Use Register to register a server handler. // Use Call to initiate a clientside call. func NewSingleHandler[Req, Resp RoundTripper](h HandlerID, newReq func() Req, newResp func() Resp) *SingleHandler[Req, Resp] { s := SingleHandler[Req, Resp]{id: h} s.newReq, s.recycleReq = recycleFunc[Req](newReq) s.newResp, s.recycleResp = recycleFunc[Resp](newResp) if _, ok := any(newReq()).(Recycler); ok { s.callReuseReq = true } return &s } // PutResponse will accept a response for reuse. // This can be used by a caller to recycle a response after receiving it from a Call. func (h *SingleHandler[Req, Resp]) PutResponse(r Resp) { h.recycleResp(r) } // AllowCallRequestPool indicates it is safe to reuse the request // on the client side, meaning the request is recycled/pooled when a request is sent. // CAREFUL: This should only be used when there are no pointers, slices that aren't freshly constructed. func (h *SingleHandler[Req, Resp]) AllowCallRequestPool(b bool) *SingleHandler[Req, Resp] { h.callReuseReq = b return h } // IgnoreNilConn will ignore nil connections when calling. // This will make Call return nil instead of ErrDisconnected when the connection is nil. // This may only be set ONCE before use. func (h *SingleHandler[Req, Resp]) IgnoreNilConn() *SingleHandler[Req, Resp] { if h.ignoreNilConn { gridLogOnceIf(context.Background(), fmt.Errorf("%s: IgnoreNilConn called twice", h.id.String()), h.id.String()+"IgnoreNilConn") } h.ignoreNilConn = true return h } // WithSharedResponse indicates it is unsafe to reuse the response // when it has been returned on a handler. // This will disable automatic response recycling/pooling. // Typically this is used when the response sharing part of its data structure. func (h *SingleHandler[Req, Resp]) WithSharedResponse() *SingleHandler[Req, Resp] { h.sharedResp = true return h } // NewResponse creates a new response. // Handlers can use this to create a reusable response. // The response may be reused, so caller should clear any fields. func (h *SingleHandler[Req, Resp]) NewResponse() Resp { return h.newResp() } // NewRequest creates a new request. // Handlers can use this to create a reusable request. // The request may be reused, so caller should clear any fields. func (h *SingleHandler[Req, Resp]) NewRequest() Req { return h.newReq() } // Register a handler for a Req -> Resp roundtrip. // Requests are automatically recycled. func (h *SingleHandler[Req, Resp]) Register(m *Manager, handle func(req Req) (resp Resp, err *RemoteErr), subroute ...string) error { if h.newReq == nil { return errors.New("newReq nil in NewSingleHandler") } if h.newResp == nil { return errors.New("newResp nil in NewSingleHandler") } return m.RegisterSingleHandler(h.id, func(payload []byte) ([]byte, *RemoteErr) { req := h.NewRequest() _, err := req.UnmarshalMsg(payload) if err != nil { PutByteBuffer(payload) r := RemoteErr(err.Error()) return nil, &r } resp, rerr := handle(req) h.recycleReq(req) if rerr != nil { PutByteBuffer(payload) return nil, rerr } payload, err = resp.MarshalMsg(payload[:0]) if !h.sharedResp { h.PutResponse(resp) } if err != nil { PutByteBuffer(payload) r := RemoteErr(err.Error()) return nil, &r } return payload, nil }, subroute...) } // Requester is able to send requests to a remote. type Requester interface { Request(ctx context.Context, h HandlerID, req []byte) ([]byte, error) } // Call the remote with the request and return the response. // The response should be returned with PutResponse when no error. // If no deadline is set, a 1-minute deadline is added. func (h *SingleHandler[Req, Resp]) Call(ctx context.Context, c Requester, req Req) (resp Resp, err error) { if c == nil { if h.ignoreNilConn { return resp, nil } return resp, ErrDisconnected } payload, err := req.MarshalMsg(GetByteBufferCap(req.Msgsize())) if err != nil { return resp, err } switch any(req).(type) { case *MSS, *URLValues: ctx = context.WithValue(ctx, TraceParamsKey{}, req) case *NoPayload, *Bytes: // do not need to trace nopayload and bytes payload default: ctx = context.WithValue(ctx, TraceParamsKey{}, fmt.Sprintf("type=%T", req)) } if h.callReuseReq { defer h.recycleReq(req) } res, err := c.Request(ctx, h.id, payload) PutByteBuffer(payload) if err != nil { return resp, err } defer PutByteBuffer(res) r := h.NewResponse() _, err = r.UnmarshalMsg(res) if err != nil { h.PutResponse(r) return resp, err } return r, err } // RemoteClient contains information about the caller. type RemoteClient struct { Name string } type ( ctxCallerKey = struct{} ctxSubrouteKey = struct{} ) // GetCaller returns caller information from contexts provided to handlers. func GetCaller(ctx context.Context) *RemoteClient { val, _ := ctx.Value(ctxCallerKey{}).(*RemoteClient) return val } // GetSubroute returns caller information from contexts provided to handlers. func GetSubroute(ctx context.Context) string { val, _ := ctx.Value(ctxSubrouteKey{}).(string) return val } func setCaller(ctx context.Context, cl *RemoteClient) context.Context { return context.WithValue(ctx, ctxCallerKey{}, cl) } func setSubroute(ctx context.Context, s string) context.Context { return context.WithValue(ctx, ctxSubrouteKey{}, s) } // StreamTypeHandler is a type safe handler for streaming requests. type StreamTypeHandler[Payload, Req, Resp RoundTripper] struct { WithPayload bool // Override the default capacities (1) OutCapacity int // Set to 0 if no input is expected. // Will be 0 if newReq is nil. InCapacity int reqPool sync.Pool respPool sync.Pool id HandlerID newPayload func() Payload nilReq Req nilResp Resp sharedResponse bool } // NewStream creates a typed handler that can provide Marshal/Unmarshal. // Use Register to register a server handler. // Use Call to initiate a clientside call. // newPayload can be nil. In that case payloads will always be nil. // newReq can be nil. In that case no input stream is expected and the handler will be called with nil 'in' channel. func NewStream[Payload, Req, Resp RoundTripper](h HandlerID, newPayload func() Payload, newReq func() Req, newResp func() Resp) *StreamTypeHandler[Payload, Req, Resp] { if newResp == nil { panic("newResp missing in NewStream") } s := newStreamHandler[Payload, Req, Resp](h) if newReq != nil { s.reqPool.New = func() interface{} { return newReq() } } else { s.InCapacity = 0 } s.respPool.New = func() interface{} { return newResp() } s.newPayload = newPayload s.WithPayload = newPayload != nil return s } // WithSharedResponse indicates it is unsafe to reuse the response. // Typically this is used when the response sharing part of its data structure. func (h *StreamTypeHandler[Payload, Req, Resp]) WithSharedResponse() *StreamTypeHandler[Payload, Req, Resp] { h.sharedResponse = true return h } // NewPayload creates a new payload. func (h *StreamTypeHandler[Payload, Req, Resp]) NewPayload() Payload { return h.newPayload() } // NewRequest creates a new request. // The struct may be reused, so caller should clear any fields. func (h *StreamTypeHandler[Payload, Req, Resp]) NewRequest() Req { return h.reqPool.Get().(Req) } // PutRequest will accept a request for reuse. // These should be returned by the handler. func (h *StreamTypeHandler[Payload, Req, Resp]) PutRequest(r Req) { if r != h.nilReq { h.reqPool.Put(r) } } // PutResponse will accept a response for reuse. // These should be returned by the caller. func (h *StreamTypeHandler[Payload, Req, Resp]) PutResponse(r Resp) { if r != h.nilResp { h.respPool.Put(r) } } // NewResponse creates a new response. // Handlers can use this to create a reusable response. func (h *StreamTypeHandler[Payload, Req, Resp]) NewResponse() Resp { return h.respPool.Get().(Resp) } func newStreamHandler[Payload, Req, Resp RoundTripper](h HandlerID) *StreamTypeHandler[Payload, Req, Resp] { return &StreamTypeHandler[Payload, Req, Resp]{id: h, InCapacity: 1, OutCapacity: 1} } // Register a handler for two-way streaming with payload, input stream and output stream. // An optional subroute can be given. Multiple entries are joined with '/'. func (h *StreamTypeHandler[Payload, Req, Resp]) Register(m *Manager, handle func(ctx context.Context, p Payload, in <-chan Req, out chan<- Resp) *RemoteErr, subroute ...string) error { return h.register(m, handle, subroute...) } // WithOutCapacity adjusts the output capacity from the handler perspective. // This must be done prior to registering the handler. func (h *StreamTypeHandler[Payload, Req, Resp]) WithOutCapacity(out int) *StreamTypeHandler[Payload, Req, Resp] { h.OutCapacity = out return h } // WithInCapacity adjusts the input capacity from the handler perspective. // This must be done prior to registering the handler. func (h *StreamTypeHandler[Payload, Req, Resp]) WithInCapacity(in int) *StreamTypeHandler[Payload, Req, Resp] { h.InCapacity = in return h } // RegisterNoInput a handler for one-way streaming with payload and output stream. // An optional subroute can be given. Multiple entries are joined with '/'. func (h *StreamTypeHandler[Payload, Req, Resp]) RegisterNoInput(m *Manager, handle func(ctx context.Context, p Payload, out chan<- Resp) *RemoteErr, subroute ...string) error { h.InCapacity = 0 return h.register(m, func(ctx context.Context, p Payload, in <-chan Req, out chan<- Resp) *RemoteErr { return handle(ctx, p, out) }, subroute...) } // RegisterNoPayload a handler for one-way streaming with payload and output stream. // An optional subroute can be given. Multiple entries are joined with '/'. func (h *StreamTypeHandler[Payload, Req, Resp]) RegisterNoPayload(m *Manager, handle func(ctx context.Context, in <-chan Req, out chan<- Resp) *RemoteErr, subroute ...string) error { h.WithPayload = false return h.register(m, func(ctx context.Context, p Payload, in <-chan Req, out chan<- Resp) *RemoteErr { return handle(ctx, in, out) }, subroute...) } // Register a handler for two-way streaming with optional payload and input stream. func (h *StreamTypeHandler[Payload, Req, Resp]) register(m *Manager, handle func(ctx context.Context, p Payload, in <-chan Req, out chan<- Resp) *RemoteErr, subroute ...string) error { return m.RegisterStreamingHandler(h.id, StreamHandler{ Handle: func(ctx context.Context, payload []byte, in <-chan []byte, out chan<- []byte) *RemoteErr { var plT Payload if h.WithPayload { plT = h.NewPayload() _, err := plT.UnmarshalMsg(payload) PutByteBuffer(payload) if err != nil { r := RemoteErr(err.Error()) return &r } } var inT chan Req if h.InCapacity > 0 { // Don't add extra buffering inT = make(chan Req) go func() { defer xioutil.SafeClose(inT) for { select { case <-ctx.Done(): return case v, ok := <-in: if !ok { return } input := h.NewRequest() _, err := input.UnmarshalMsg(v) if err != nil { gridLogOnceIf(ctx, err, err.Error()) } PutByteBuffer(v) // Send input select { case <-ctx.Done(): return case inT <- input: } } } }() } outT := make(chan Resp) outDone := make(chan struct{}) go func() { defer xioutil.SafeClose(outDone) dropOutput := false for v := range outT { if dropOutput { continue } dst, err := v.MarshalMsg(GetByteBufferCap(v.Msgsize())) if err != nil { gridLogOnceIf(ctx, err, err.Error()) } if !h.sharedResponse { h.PutResponse(v) } select { case <-ctx.Done(): dropOutput = true case out <- dst: } } }() rErr := handle(ctx, plT, inT, outT) xioutil.SafeClose(outT) <-outDone return rErr }, OutCapacity: h.OutCapacity, InCapacity: h.InCapacity, Subroute: strings.Join(subroute, "/"), }) } // TypedStream is a stream with specific types. type TypedStream[Req, Resp RoundTripper] struct { // responses from the remote server. // Channel will be closed after error or when remote closes. // responses *must* be read to either an error is returned or the channel is closed. responses *Stream newResp func() Resp // Requests sent to the server. // If the handler is defined with 0 incoming capacity this will be nil. // Channel *must* be closed to signal the end of the stream. // If the request context is canceled, the stream will no longer process requests. Requests chan<- Req } // Results returns the results from the remote server one by one. // If any error is returned by the callback, the stream will be canceled. // If the context is canceled, the stream will be canceled. func (s *TypedStream[Req, Resp]) Results(next func(resp Resp) error) (err error) { return s.responses.Results(func(b []byte) error { resp := s.newResp() _, err := resp.UnmarshalMsg(b) if err != nil { return err } return next(resp) }) } // Streamer creates a stream. type Streamer interface { NewStream(ctx context.Context, h HandlerID, payload []byte) (st *Stream, err error) } // Call the remove with the request and func (h *StreamTypeHandler[Payload, Req, Resp]) Call(ctx context.Context, c Streamer, payload Payload) (st *TypedStream[Req, Resp], err error) { if c == nil { return nil, ErrDisconnected } var payloadB []byte if h.WithPayload { var err error payloadB, err = payload.MarshalMsg(GetByteBufferCap(payload.Msgsize())) if err != nil { return nil, err } } stream, err := c.NewStream(ctx, h.id, payloadB) PutByteBuffer(payloadB) if err != nil { return nil, err } // respT := make(chan TypedResponse[Resp]) var reqT chan Req if h.InCapacity > 0 { reqT = make(chan Req) // Request handler if stream.Requests == nil { return nil, fmt.Errorf("internal error: stream request channel nil") } go func() { defer xioutil.SafeClose(stream.Requests) for req := range reqT { b, err := req.MarshalMsg(GetByteBufferCap(req.Msgsize())) if err != nil { gridLogOnceIf(ctx, err, err.Error()) } h.PutRequest(req) stream.Requests <- b } }() } else if stream.Requests != nil { xioutil.SafeClose(stream.Requests) } return &TypedStream[Req, Resp]{responses: stream, newResp: h.NewResponse, Requests: reqT}, nil }