package cache import ( "sync" "github.com/nspcc-dev/neofs-api-go/pkg/client" "github.com/nspcc-dev/neofs-node/pkg/network" ) type ( // ClientCache is a structure around neofs-api-go/pkg/client to reuse // already created clients. ClientCache struct { mu *sync.RWMutex clients map[string]client.Client opts []client.Option } ) // NewSDKClientCache creates instance of client cache. // `opts` are used for new client creation. func NewSDKClientCache(opts ...client.Option) *ClientCache { return &ClientCache{ mu: new(sync.RWMutex), clients: make(map[string]client.Client), opts: opts, } } // Get function returns existing client or creates a new one. func (c *ClientCache) Get(netAddr network.AddressGroup) (client.Client, error) { // multiaddr is used as a key in client cache since // same host may have different connections(with tls or not), // therefore, host+port pair is not unique // FIXME: we should calculate map key regardless of the address order, // but network.StringifyGroup is order-dependent. // This works until the same mixed group is transmitted // (for a network map, it seems to be true). mAddr := network.StringifyGroup(netAddr) c.mu.RLock() if cli, ok := c.clients[mAddr]; ok { // todo: check underlying connection neofs-api-go#196 c.mu.RUnlock() return cli, nil } c.mu.RUnlock() // if client is not found in cache, then create a new one c.mu.Lock() defer c.mu.Unlock() // check once again if client is missing in cache, concurrent routine could // create client while this routine was locked on `c.mu.Lock()`. if cli, ok := c.clients[mAddr]; ok { return cli, nil } cli := newMultiClient(netAddr, c.opts) c.clients[mAddr] = cli return cli, nil } // CloseAll closes underlying connections of all cached clients. // // Ignores closing errors. func (c *ClientCache) CloseAll() { c.mu.RLock() { for _, cl := range c.clients { con := cl.Conn() if con != nil { _ = con.Close() } } } c.mu.RUnlock() }