package connections import ( "context" "crypto/ecdsa" "errors" "math" "math/rand" "sync" "time" "github.com/nspcc-dev/neofs-api-go/pkg/client" "google.golang.org/grpc" ) type PoolBuilderOptions struct { Key *ecdsa.PrivateKey NodeConnectionTimeout time.Duration NodeRequestTimeout time.Duration ClientRebalanceInterval time.Duration weights []float64 connections []*grpc.ClientConn } type PoolBuilder struct { addresses []string weights []float64 } func (pb *PoolBuilder) AddNode(address string, weight float64) *PoolBuilder { pb.addresses = append(pb.addresses, address) pb.weights = append(pb.weights, weight) return pb } func (pb *PoolBuilder) Build(ctx context.Context, options *PoolBuilderOptions) (Pool, error) { totalWeight := 0.0 for _, w := range pb.weights { totalWeight += w } if math.Abs(totalWeight-1.0) >= 1e-4 { return nil, errors.New("total weight must be equal to unity") } var cons = make([]*grpc.ClientConn, len(pb.addresses)) for i, address := range pb.addresses { con, err := func() (*grpc.ClientConn, error) { toctx, c := context.WithTimeout(ctx, options.NodeConnectionTimeout) defer c() return grpc.DialContext(toctx, address, grpc.WithInsecure(), grpc.WithBlock()) }() if err != nil { return nil, err } cons[i] = con } options.weights = pb.weights options.connections = cons return new(ctx, options) } type Pool interface { Client() client.Client } type pool struct { lock sync.RWMutex sampler *Sampler clients []client.Client healthy []bool } func new(ctx context.Context, options *PoolBuilderOptions) (Pool, error) { n := len(options.weights) clients := make([]client.Client, n) healthy := make([]bool, n) for i, con := range options.connections { c, err := client.New(client.WithDefaultPrivateKey(options.Key), client.WithGRPCConnection(con)) if err != nil { return nil, err } clients[i] = c healthy[i] = true } source := rand.NewSource(time.Now().UnixNano()) pool := &pool{ sampler: NewSampler(options.weights, source), clients: clients, healthy: healthy, } go func() { ticker := time.NewTimer(options.ClientRebalanceInterval) for range ticker.C { ok := true for i, client := range pool.clients { func() { tctx, c := context.WithTimeout(ctx, options.NodeRequestTimeout) defer c() if _, err := client.EndpointInfo(tctx); err != nil { ok = false } pool.lock.Lock() pool.healthy[i] = ok pool.lock.Unlock() }() } ticker.Reset(options.ClientRebalanceInterval) } }() return pool, nil } func (p *pool) Client() client.Client { p.lock.RLock() defer p.lock.RUnlock() if len(p.clients) == 1 { if p.healthy[0] { return p.clients[0] } return nil } var i *int = nil for k := 0; k < 10; k++ { i_ := p.sampler.Next() if p.healthy[i_] { i = &i_ } } if i != nil { return p.clients[*i] } return nil }