// Package memory is an in-memory transport package memory import ( "context" "errors" "fmt" "math/rand" "net" "sync" "time" "github.com/micro/go-micro/v3/network/transport" maddr "github.com/micro/go-micro/v3/util/addr" mnet "github.com/micro/go-micro/v3/util/net" ) type memorySocket struct { recv chan *transport.Message send chan *transport.Message // sock exit exit chan bool // listener exit lexit chan bool local string remote string // for send/recv transport.Timeout timeout time.Duration ctx context.Context sync.RWMutex } type memoryClient struct { *memorySocket opts transport.DialOptions } type memoryListener struct { addr string exit chan bool conn chan *memorySocket lopts transport.ListenOptions topts transport.Options sync.RWMutex ctx context.Context } type memoryTransport struct { opts transport.Options sync.RWMutex listeners map[string]*memoryListener } func (ms *memorySocket) Recv(m *transport.Message) error { ms.RLock() defer ms.RUnlock() ctx := ms.ctx if ms.timeout > 0 { var cancel context.CancelFunc ctx, cancel = context.WithTimeout(ms.ctx, ms.timeout) defer cancel() } select { case <-ctx.Done(): return ctx.Err() case <-ms.exit: return errors.New("connection closed") case <-ms.lexit: return errors.New("server connection closed") case cm := <-ms.recv: *m = *cm } return nil } func (ms *memorySocket) Local() string { return ms.local } func (ms *memorySocket) Remote() string { return ms.remote } func (ms *memorySocket) Send(m *transport.Message) error { ms.RLock() defer ms.RUnlock() ctx := ms.ctx if ms.timeout > 0 { var cancel context.CancelFunc ctx, cancel = context.WithTimeout(ms.ctx, ms.timeout) defer cancel() } select { case <-ctx.Done(): return ctx.Err() case <-ms.exit: return errors.New("connection closed") case <-ms.lexit: return errors.New("server connection closed") case ms.send <- m: } return nil } func (ms *memorySocket) Close() error { ms.Lock() defer ms.Unlock() select { case <-ms.exit: return nil default: close(ms.exit) } return nil } func (m *memoryListener) Addr() string { return m.addr } func (m *memoryListener) Close() error { m.Lock() defer m.Unlock() select { case <-m.exit: return nil default: close(m.exit) } return nil } func (m *memoryListener) Accept(fn func(transport.Socket)) error { for { select { case <-m.exit: return nil case c := <-m.conn: go fn(&memorySocket{ lexit: c.lexit, exit: c.exit, send: c.recv, recv: c.send, local: c.Remote(), remote: c.Local(), timeout: m.topts.Timeout, ctx: m.topts.Context, }) } } } func (m *memoryTransport) Dial(addr string, opts ...transport.DialOption) (transport.Client, error) { m.RLock() defer m.RUnlock() listener, ok := m.listeners[addr] if !ok { return nil, errors.New("could not dial " + addr) } var options transport.DialOptions for _, o := range opts { o(&options) } client := &memoryClient{ &memorySocket{ send: make(chan *transport.Message), recv: make(chan *transport.Message), exit: make(chan bool), lexit: listener.exit, local: addr, remote: addr, timeout: m.opts.Timeout, ctx: m.opts.Context, }, options, } // pseudo connect select { case <-listener.exit: return nil, errors.New("connection error") case listener.conn <- client.memorySocket: } return client, nil } func (m *memoryTransport) Listen(addr string, opts ...transport.ListenOption) (transport.Listener, error) { m.Lock() defer m.Unlock() var options transport.ListenOptions for _, o := range opts { o(&options) } host, port, err := net.SplitHostPort(addr) if err != nil { return nil, err } addr, err = maddr.Extract(host) if err != nil { return nil, err } // if zero port then randomly assign one if len(port) > 0 && port == "0" { i := rand.Intn(20000) port = fmt.Sprintf("%d", 10000+i) } // set addr with port addr = mnet.HostPort(addr, port) if _, ok := m.listeners[addr]; ok { return nil, errors.New("already listening on " + addr) } listener := &memoryListener{ lopts: options, topts: m.opts, addr: addr, conn: make(chan *memorySocket), exit: make(chan bool), ctx: m.opts.Context, } m.listeners[addr] = listener return listener, nil } func (m *memoryTransport) Init(opts ...transport.Option) error { for _, o := range opts { o(&m.opts) } return nil } func (m *memoryTransport) Options() transport.Options { return m.opts } func (m *memoryTransport) String() string { return "memory" } func NewTransport(opts ...transport.Option) transport.Transport { var options transport.Options rand.Seed(time.Now().UnixNano()) for _, o := range opts { o(&options) } if options.Context == nil { options.Context = context.Background() } return &memoryTransport{ opts: options, listeners: make(map[string]*memoryListener), } }