package cache import ( "context" "errors" "fmt" "sync" "time" rawclient "git.frostfs.info/TrueCloudLab/frostfs-api-go/v2/rpc/client" clientcore "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/core/client" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/network" metrics "git.frostfs.info/TrueCloudLab/frostfs-observability/metrics/grpc" tracing "git.frostfs.info/TrueCloudLab/frostfs-observability/tracing/grpc" "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/client" objectSDK "git.frostfs.info/TrueCloudLab/frostfs-sdk-go/object" "google.golang.org/grpc" "google.golang.org/grpc/codes" "google.golang.org/grpc/status" ) type singleClient struct { sync.RWMutex client clientcore.Client lastAttempt time.Time } type multiClient struct { mtx sync.RWMutex clients map[string]*singleClient // addrMtx protects addr field. Should not be taken before the mtx. addrMtx sync.RWMutex addr network.AddressGroup opts ClientCacheOpts } const defaultReconnectInterval = time.Second * 30 func newMultiClient(addr network.AddressGroup, opts ClientCacheOpts) *multiClient { if opts.ReconnectTimeout <= 0 { opts.ReconnectTimeout = defaultReconnectInterval } return &multiClient{ clients: make(map[string]*singleClient), addr: addr, opts: opts, } } func (x *multiClient) createForAddress(ctx context.Context, addr network.Address) (clientcore.Client, error) { var c client.Client prmInit := client.PrmInit{ DisableFrostFSErrorResolution: true, } if x.opts.Key != nil { prmInit.Key = *x.opts.Key } prmDial := client.PrmDial{ Endpoint: addr.URIAddr(), GRPCDialOptions: []grpc.DialOption{ grpc.WithChainUnaryInterceptor( metrics.NewUnaryClientInterceptor(), tracing.NewUnaryClientInteceptor(), ), grpc.WithChainStreamInterceptor( metrics.NewStreamClientInterceptor(), tracing.NewStreamClientInterceptor(), ), }, } if x.opts.DialTimeout > 0 { prmDial.DialTimeout = x.opts.DialTimeout } if x.opts.StreamTimeout > 0 { prmDial.StreamTimeout = x.opts.StreamTimeout } if x.opts.ResponseCallback != nil { prmInit.ResponseInfoCallback = x.opts.ResponseCallback } c.Init(prmInit) err := c.Dial(ctx, prmDial) if err != nil { return nil, fmt.Errorf("can't init SDK client: %w", err) } return &c, nil } // updateGroup replaces current multiClient addresses with a new group. // Old addresses not present in group are removed. func (x *multiClient) updateGroup(group network.AddressGroup) { // Firstly, remove old clients. cache := make([]string, 0, group.Len()) group.IterateAddresses(func(a network.Address) bool { cache = append(cache, a.String()) return false }) x.addrMtx.RLock() oldGroup := x.addr x.addrMtx.RUnlock() if len(oldGroup) == len(cache) { needUpdate := false for i := range oldGroup { if cache[i] != oldGroup[i].String() { needUpdate = true break } } if !needUpdate { return } } x.mtx.Lock() defer x.mtx.Unlock() loop: for a := range x.clients { for i := range cache { if cache[i] == a { continue loop } } x.clients[a].invalidate() delete(x.clients, a) } // Then add new clients. x.addrMtx.Lock() x.addr = group x.addrMtx.Unlock() } var errRecentlyFailed = errors.New("client has recently failed, skipping") func (x *multiClient) iterateClients(ctx context.Context, f func(clientcore.Client) error) error { var firstErr error x.addrMtx.RLock() group := x.addr x.addrMtx.RUnlock() group.IterateAddresses(func(addr network.Address) bool { select { case <-ctx.Done(): firstErr = context.Canceled return true default: } var err error c, err := x.client(ctx, addr) if err == nil { err = f(c) } // non-status logic error that could be returned // from the SDK client; should not be considered // as a connection error var siErr *objectSDK.SplitInfoError var eiErr *objectSDK.ECInfoError success := err == nil || errors.Is(err, context.Canceled) || errors.As(err, &siErr) || errors.As(err, &eiErr) if success || firstErr == nil || errors.Is(firstErr, errRecentlyFailed) { firstErr = err } if err != nil { x.ReportError(err) } return success }) return firstErr } func (x *multiClient) ReportError(err error) { if errors.Is(err, errRecentlyFailed) { return } if status.Code(err) == codes.Canceled || errors.Is(err, context.Canceled) { return } // non-status logic error that could be returned // from the SDK client; should not be considered // as a connection error var siErr *objectSDK.SplitInfoError var eiErr *objectSDK.ECInfoError if errors.As(err, &siErr) || errors.As(err, &eiErr) { return } // Dropping all clients here is not necessary, we do this // because `multiClient` doesn't yet provide convenient interface // for reporting individual errors for streaming operations. x.mtx.RLock() for _, sc := range x.clients { sc.invalidate() } x.mtx.RUnlock() } func (s *singleClient) invalidate() { s.Lock() if s.client != nil { _ = s.client.Close() } s.client = nil s.Unlock() } func (x *multiClient) ObjectPutInit(ctx context.Context, p client.PrmObjectPutInit) (res client.ObjectWriter, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectPutInit(ctx, p) return err }) return } func (x *multiClient) ObjectPutSingle(ctx context.Context, p client.PrmObjectPutSingle) (res *client.ResObjectPutSingle, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectPutSingle(ctx, p) return err }) return } func (x *multiClient) ContainerAnnounceUsedSpace(ctx context.Context, prm client.PrmAnnounceSpace) (res *client.ResAnnounceSpace, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ContainerAnnounceUsedSpace(ctx, prm) return err }) return } func (x *multiClient) ObjectDelete(ctx context.Context, p client.PrmObjectDelete) (res *client.ResObjectDelete, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectDelete(ctx, p) return err }) return } func (x *multiClient) ObjectGetInit(ctx context.Context, p client.PrmObjectGet) (res *client.ObjectReader, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectGetInit(ctx, p) return err }) return } func (x *multiClient) ObjectRangeInit(ctx context.Context, p client.PrmObjectRange) (res *client.ObjectRangeReader, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectRangeInit(ctx, p) return err }) return } func (x *multiClient) ObjectHead(ctx context.Context, p client.PrmObjectHead) (res *client.ResObjectHead, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectHead(ctx, p) return err }) return } func (x *multiClient) ObjectHash(ctx context.Context, p client.PrmObjectHash) (res *client.ResObjectHash, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectHash(ctx, p) return err }) return } func (x *multiClient) ObjectSearchInit(ctx context.Context, p client.PrmObjectSearch) (res *client.ObjectListReader, err error) { err = x.iterateClients(ctx, func(c clientcore.Client) error { res, err = c.ObjectSearchInit(ctx, p) return err }) return } func (x *multiClient) ExecRaw(func(client *rawclient.Client) error) error { panic("multiClient.ExecRaw() must not be called") } func (x *multiClient) Close() error { x.mtx.RLock() { for _, c := range x.clients { if c.client != nil { _ = c.client.Close() } } } x.mtx.RUnlock() return nil } func (x *multiClient) RawForAddress(ctx context.Context, addr network.Address, f func(client *rawclient.Client) error) error { c, err := x.client(ctx, addr) if err != nil { return err } err = c.ExecRaw(f) if err != nil { x.ReportError(err) } return err } func (x *multiClient) client(ctx context.Context, addr network.Address) (clientcore.Client, error) { strAddr := addr.String() x.mtx.RLock() c, cached := x.clients[strAddr] x.mtx.RUnlock() if cached { c.RLock() if c.client != nil { cl := c.client c.RUnlock() return cl, nil } if x.opts.ReconnectTimeout != 0 && time.Since(c.lastAttempt) < x.opts.ReconnectTimeout { c.RUnlock() return nil, errRecentlyFailed } c.RUnlock() } else { var ok bool x.mtx.Lock() c, ok = x.clients[strAddr] if !ok { c = new(singleClient) x.clients[strAddr] = c } x.mtx.Unlock() } c.Lock() defer c.Unlock() if c.client != nil { return c.client, nil } if x.opts.ReconnectTimeout != 0 && time.Since(c.lastAttempt) < x.opts.ReconnectTimeout { return nil, errRecentlyFailed } cl, err := x.createForAddress(ctx, addr) if err != nil { c.lastAttempt = time.Now() return nil, err } c.client = cl return cl, nil }