package main //import "bufio" import "context" import "crypto/tls" import "crypto/x509" import "encoding/json" import "errors" import "fmt" import "io" import "log" import "net" import "net/http" import "os" import "os/signal" import "sync" import "sync/atomic" import "syscall" import "time" //import "github.com/google/uuid" import "google.golang.org/grpc" import "google.golang.org/grpc/credentials/insecure" const PTC_LIMIT = 8192 type PacketStreamClient grpc.BidiStreamingClient[Packet, Packet] type ServerConnMap = map[net.Addr]*ServerConn type ClientPeerConnMap = map[uint32]*ClientPeerConn type ClientRouteMap = map[uint32]*ClientRoute // -------------------------------------------------------------------- type ClientConfig struct { server_addr string peer_addrs []string } type Client struct { ctx context.Context ctx_cancel context.CancelFunc tlscfg *tls.Config ctl *http.Server // control server cts_mtx sync.Mutex cts_map ServerConnMap wg sync.WaitGroup stop_req atomic.Bool stop_chan chan bool } type ClientPeerConn struct { route *ClientRoute conn_id uint32 conn *net.TCPConn remot_conn_id uint32 addr string // peer address stop_chan chan bool stop_req atomic.Bool server_peer_eof atomic.Bool } // client connection to server type ServerConn struct { cli *Client cfg *ClientConfig saddr *net.TCPAddr // server address that is connected to conn *grpc.ClientConn // grpc connection to the server hdc HoduClient psc *GuardedPacketStreamClient // guarded grpc stream s_seed Seed c_seed Seed route_mtx sync.Mutex route_map ClientRouteMap route_wg sync.WaitGroup stop_req atomic.Bool stop_chan chan bool } type ClientRoute struct { cts *ServerConn id uint32 peer_addr *net.TCPAddr proto ROUTE_PROTO ptc_mtx sync.Mutex ptc_map ClientPeerConnMap ptc_limit int ptc_last_id uint32 ptc_wg sync.WaitGroup stop_req atomic.Bool stop_chan chan bool } type ClientCtlParamServer struct { ServerAddr string `json:"server-addr"` PeerAddrs []string `json:"peer-addrs"` } type GuardedPacketStreamClient struct { mtx sync.Mutex //psc Hodu_PacketStreamClient Hodu_PacketStreamClient } // ------------------------------------ func (g *GuardedPacketStreamClient) Send(data *Packet) error { g.mtx.Lock() defer g.mtx.Unlock() //return g.psc.Send(data) return g.Hodu_PacketStreamClient.Send(data) } /*func (g *GuardedPacketStreamClient) Recv() (*Packet, error) { return g.psc.Recv() } func (g *GuardedPacketStreamClient) Context() context.Context { return g.psc.Context() }*/ // -------------------------------------------------------------------- func NewClientRoute(cts *ServerConn, id uint32, addr *net.TCPAddr, proto ROUTE_PROTO) *ClientRoute { var r ClientRoute r.cts = cts r.id = id r.ptc_limit = PTC_LIMIT r.ptc_map = make(ClientPeerConnMap) r.ptc_last_id = 0 r.proto = proto r.peer_addr = addr r.stop_req.Store(false) r.stop_chan = make(chan bool, 1) return &r; } func (r *ClientRoute) RunTask(wg *sync.WaitGroup) { // this task on the route object isn't actually necessary. // most useful works are triggered by ReportEvent() and done by ConnectToPeer() defer wg.Done() main_loop: for { select { case <- r.stop_chan: break main_loop } } r.ptc_wg.Wait() // wait for all peer tasks are finished fmt.Printf ("*** End fo Client Roue Task\n") } func (r *ClientRoute) ReqStop() { if r.stop_req.CompareAndSwap(false, true) { var ptc *ClientPeerConn for _, ptc = range r.ptc_map { ptc.ReqStop() } r.stop_chan <- true } fmt.Printf ("*** Sent stop request to Route..\n"); } func (r* ClientRoute) ConnectToPeer(pts_id uint32) { var err error var conn net.Conn var real_conn *net.TCPConn var ptc *ClientPeerConn var d net.Dialer var ctx context.Context //var cancel context.CancelFunc var ok bool // TODO: how to abort blocking DialTCP()? call cancellation funtion? // TODO: make timeuot value configurable // TODO: fire the cancellation function upon stop request??? ctx, _ = context.WithTimeout(r.cts.cli.ctx, 10 * time.Second) //defer cancel(): d.LocalAddr = nil // TOOD: use this if local address is specified conn, err = d.DialContext(ctx, "tcp", r.peer_addr.String()); if err != nil { // TODO: make send peer started failure mesage? fmt.Printf ("failed to connect to %s - %s\n", r.peer_addr.String(), err.Error()) goto peer_aborted } real_conn, ok = conn.(*net.TCPConn) if !ok { fmt.Printf("not tcp connection - %s\n", err.Error()) goto peer_aborted } ptc, err = r.AddNewClientPeerConn(real_conn, pts_id) if err != nil { // TODO: logging // TODO: make send peer started failure mesage? fmt.Printf("YYYYYYYY - %s\n", err.Error()) goto peer_aborted } fmt.Printf("STARTED NEW SERVER PEER STAK\n") err = r.cts.psc.Send(MakePeerStartedPacket(r.id, ptc.conn_id)) if err != nil { fmt.Printf("CLOSING NEW SERVER PEER STAK - %s\n", err.Error()) goto peer_aborted } r.ptc_wg.Add(1) go ptc.RunTask(&r.ptc_wg) return peer_aborted: if conn != nil { conn.Close() err = r.cts.psc.Send(MakePeerAbortedPacket(r.id, ptc.conn_id)) if err != nil { // TODO: logging } } } func (r* ClientRoute) DisconnectFromPeer(pts_id uint32) error { var ptc *ClientPeerConn var ok bool r.ptc_mtx.Lock() ptc, ok = r.ptc_map[pts_id] if !ok { r.ptc_mtx.Unlock() return fmt.Errorf("non-existent connection id - %u", pts_id) } r.ptc_mtx.Unlock() ptc.ReqStop() return nil } func (r* ClientRoute) CloseWriteToPeer(pts_id uint32) error { var ptc *ClientPeerConn var ok bool r.ptc_mtx.Lock() ptc, ok = r.ptc_map[pts_id] if !ok { r.ptc_mtx.Unlock() return fmt.Errorf("non-existent connection id - %u", pts_id) } r.ptc_mtx.Unlock() ptc.CloseWrite() return nil } func (r* ClientRoute) ReportEvent (pts_id uint32, event_type PACKET_KIND, event_data []byte) error { var err error switch event_type { case PACKET_KIND_PEER_STARTED: fmt.Printf ("GOT PEER STARTD . CONENCT TO CLIENT_SIDE PEER\n") r.ConnectToPeer(pts_id) case PACKET_KIND_PEER_ABORTED: fallthrough case PACKET_KIND_PEER_STOPPED: fmt.Printf ("GOT PEER STOPPED . DISCONNECTION FROM CLIENT_SIDE PEER\n") err = r.DisconnectFromPeer(pts_id) if err != nil { // TODO: } case PACKET_KIND_PEER_EOF: fmt.Printf ("GOT PEER EOF. REMEMBER EOF\n") err = r.CloseWriteToPeer(pts_id) if err != nil { // TODO: } case PACKET_KIND_PEER_DATA: var ptc *ClientPeerConn var ok bool var err error ptc, ok = r.ptc_map[pts_id] if ok { _, err = ptc.conn.Write(event_data) return err } else { } // TODO: other types } return nil } // -------------------------------------------------------------------- func NewServerConn(c *Client, addr *net.TCPAddr, cfg *ClientConfig) *ServerConn { var cts ServerConn cts.cli = c cts.route_map = make(ClientRouteMap) cts.saddr = addr cts.cfg = cfg cts.stop_req.Store(false) cts.stop_chan = make(chan bool, 1) // the actual connection to the server is established in the main task function // The cts.conn, cts.hdc, cts.psc fields are left unassigned here. return &cts } func (cts *ServerConn) AddNewClientRoute(route_id uint32, addr *net.TCPAddr, proto ROUTE_PROTO) (*ClientRoute, error) { var r *ClientRoute cts.route_mtx.Lock() if cts.route_map[route_id] != nil { cts.route_mtx.Unlock() return nil, fmt.Errorf ("existent route id - %d", route_id) } r = NewClientRoute(cts, route_id, addr, proto) cts.route_map[route_id] = r cts.route_mtx.Unlock() fmt.Printf ("added client route.... %d -> %d\n", route_id, len(cts.route_map)) cts.route_wg.Add(1) go r.RunTask(&cts.route_wg) return r, nil } func (cts *ServerConn) RemoveClientRoute (route_id uint32) error { var r *ClientRoute var ok bool cts.route_mtx.Lock() r, ok = cts.route_map[route_id] if (!ok) { cts.route_mtx.Unlock() return fmt.Errorf ("non-existent route id - %d", route_id) } delete(cts.route_map, route_id) cts.route_mtx.Unlock() r.ReqStop() // TODO: make this unblocking or blocking? return nil; } func (cts *ServerConn) RemoveClientRoutes () { var r *ClientRoute var id uint32 cts.route_mtx.Lock() for _, r = range cts.route_map { r.ReqStop() } for id, r = range cts.route_map { delete(cts.route_map, id) } cts.route_map = make(ClientRouteMap) cts.route_mtx.Unlock() } func (cts *ServerConn) AddClientRoutes (peer_addrs []string) error { var i int var v string var addr *net.TCPAddr var proto ROUTE_PROTO var r *ClientRoute var err error for i, v = range peer_addrs { addr, err = net.ResolveTCPAddr(NET_TYPE_TCP, v) if err != nil { return fmt.Errorf("unable to resovle %s - %s", v, err.Error()) } if addr.IP.To4() != nil { proto = ROUTE_PROTO_TCP4 } else { proto = ROUTE_PROTO_TCP6 } _, err = cts.AddNewClientRoute(uint32(i), addr, proto) if err != nil { return fmt.Errorf("unable to add client route for %s - %s", addr, err.Error()) } } for _, r = range cts.route_map { err = cts.psc.Send(MakeRouteStartPacket(r.id, r.proto, addr.String())) if err != nil { return fmt.Errorf("unable to send route-start packet - %s", err.Error()) } } return nil; } func (cts *ServerConn) ReqStop() { if cts.stop_req.CompareAndSwap(false, true) { var r *ClientRoute cts.route_mtx.Lock() for _, r = range cts.route_map { r.ReqStop() } cts.route_mtx.Unlock() // TODO: notify the server.. send term command??? cts.stop_chan <- true } fmt.Printf ("*** Sent stop request to ServerConn..\n"); } func (cts *ServerConn) RunTask(wg *sync.WaitGroup) { var conn *grpc.ClientConn = nil var hdc HoduClient var psc PacketStreamClient var slpctx context.Context var c_seed Seed var s_seed *Seed var err error defer wg.Done() // arrange to call at the end of this function // TODO: HANDLE connection timeout.. // ctx, _/*cancel*/ := context.WithTimeout(context.Background(), time.Second) start_over: fmt.Printf ("Connecting GRPC to [%s]\n", cts.saddr.String()) conn, err = grpc.NewClient(cts.saddr.String(), grpc.WithTransportCredentials(insecure.NewCredentials())) if err != nil { // TODO: logging fmt.Printf("ERROR: unable to make grpc client to %s - %s\n", cts.cfg.server_addr, err.Error()) goto reconnect_to_server } hdc = NewHoduClient(conn) // seed exchange is for furture expansion of the protocol // there is nothing to do much about it for now. c_seed.Version = HODU_VERSION c_seed.Flags = 0 s_seed, err = hdc.GetSeed(cts.cli.ctx, &c_seed) if err != nil { fmt.Printf("ERROR: unable to get seed from %s - %s\n", cts.cfg.server_addr, err.Error()) goto reconnect_to_server } cts.s_seed = *s_seed cts.c_seed = c_seed psc, err = hdc.PacketStream(cts.cli.ctx) if err != nil { fmt.Printf ("ERROR: unable to get grpc packet stream - %s\n", err.Error()) goto reconnect_to_server } cts.conn = conn cts.hdc = hdc //cts.psc = &GuardedPacketStreamClient{psc: psc} cts.psc = &GuardedPacketStreamClient{Hodu_PacketStreamClient: psc} // the connection structure to a server is ready. // let's add routes to the client-side peers. err = cts.AddClientRoutes(cts.cfg.peer_addrs) if err != nil { fmt.Printf ("ERROR: unable to add routes to client-side peers - %s\n", err.Error()) goto done } fmt.Printf("[%v]\n", cts.route_map) for { var pkt *Packet select { case <-cts.cli.ctx.Done(): fmt.Printf("context doine... error - %s\n", cts.cli.ctx.Err().Error()) goto done case <-cts.stop_chan: goto done default: // no other case is ready. run the code below select. // without the default case, the select construct would block } pkt, err = psc.Recv() if errors.Is(err, io.EOF) { fmt.Printf("server disconnected\n") goto reconnect_to_server } if err != nil { fmt.Printf("server receive error - %s\n", err.Error()) goto reconnect_to_server } switch pkt.Kind { case PACKET_KIND_ROUTE_STARTED: // the server side managed to set up the route the client requested var x *Packet_Route var ok bool x, ok = pkt.U.(*Packet_Route) if ok { fmt.Printf ("SERVER LISTENING ON %s\n", x.Route.AddrStr); err = cts.ReportEvent(x.Route.RouteId, 0, pkt.Kind, nil) if err != nil { // TODO: } else { // TODO: } } else { // TODO: send invalid request... or simply keep quiet? } case PACKET_KIND_ROUTE_STOPPED: var x *Packet_Route var ok bool x, ok = pkt.U.(*Packet_Route) if ok { err = cts.ReportEvent(x.Route.RouteId, 0, pkt.Kind, nil) if err != nil { // TODO: } else { // TODO: } } else { // TODO: send invalid request... or simply keep quiet? } case PACKET_KIND_PEER_STARTED: // the connection from the client to a peer has been established var x *Packet_Peer var ok bool x, ok = pkt.U.(*Packet_Peer) if ok { err = cts.ReportEvent(x.Peer.RouteId, x.Peer.PeerId, PACKET_KIND_PEER_STARTED, nil) if err != nil { // TODO: } else { // TODO: } } else { // TODO } case PACKET_KIND_PEER_STOPPED: // the connection from the client to a peer has been established var x *Packet_Peer var ok bool x, ok = pkt.U.(*Packet_Peer) if ok { err = cts.ReportEvent(x.Peer.RouteId, x.Peer.PeerId, PACKET_KIND_PEER_STOPPED, nil) if err != nil { // TODO: } else { // TODO: } } else { // TODO } case PACKET_KIND_PEER_EOF: var x *Packet_Peer var ok bool x, ok = pkt.U.(*Packet_Peer) if ok { err = cts.ReportEvent(x.Peer.RouteId, x.Peer.PeerId, PACKET_KIND_PEER_EOF, nil) if err != nil { // TODO: } else { // TODO: } } else { // TODO } case PACKET_KIND_PEER_DATA: // the connection from the client to a peer has been established fmt.Printf ("**** GOT PEER DATA\n") var x *Packet_Data var ok bool x, ok = pkt.U.(*Packet_Data) if ok { err = cts.ReportEvent(x.Data.RouteId, x.Data.PeerId, PACKET_KIND_PEER_DATA, x.Data.Data) if err != nil { fmt.Printf ("failed to report event - %s\n", err.Error()) // TODO: } else { // TODO: } } else { // TODO } } } done: fmt.Printf ("^^^^^^^^^^^^^^^^^^^^ Server Coon RunTask ending...\n") if conn != nil { conn.Close() // TODO: need to reset c.sc, c.sg, c.psc to nil? // for this we need to ensure that everyone is ending } cts.RemoveClientRoutes() cts.route_wg.Wait() // wait until all route tasks are finished return reconnect_to_server: if conn != nil { conn.Close() // TODO: need to reset c.sc, c.sg, c.psc to nil? // for this we need to ensure that everyone is ending } cts.RemoveClientRoutes() slpctx, _ = context.WithTimeout(cts.cli.ctx, 3 * time.Second) select { case <-cts.cli.ctx.Done(): fmt.Printf("context doine... error - %s\n", cts.cli.ctx.Err().Error()) goto done case <-cts.stop_chan: goto done case <- slpctx.Done(): // do nothing } goto start_over } func (cts *ServerConn) ReportEvent (route_id uint32, pts_id uint32, event_type PACKET_KIND, event_data []byte) error { var r *ClientRoute var ok bool cts.route_mtx.Lock() r, ok = cts.route_map[route_id] if (!ok) { cts.route_mtx.Unlock() return fmt.Errorf ("non-existent route id - %d", route_id) } cts.route_mtx.Unlock() return r.ReportEvent(pts_id, event_type, event_data) } // -------------------------------------------------------------------- func (r *ClientRoute) AddNewClientPeerConn (c *net.TCPConn, pts_id uint32) (*ClientPeerConn, error) { var ptc *ClientPeerConn //var ok bool //var start_id uint32 r.ptc_mtx.Lock() defer r.ptc_mtx.Unlock() /* if len(r.ptc_map) >= r.ptc_limit { return nil, fmt.Errorf("peer-to-client connection table full") } start_id = r.ptc_last_id for { _, ok = r.ptc_map[r.ptc_last_id] if !ok { break } r.ptc_last_id++ if r.ptc_last_id == start_id { // unlikely to happen but it cycled through the whole range. return nil, fmt.Errorf("failed to assign peer-to-table connection id") } } ptc = NewClientPeerConn(r, c, r.ptc_last_id) */ ptc = NewClientPeerConn(r, c, pts_id) r.ptc_map[ptc.conn_id] = ptc //r.ptc_last_id++ return ptc, nil } // -------------------------------------------------------------------- func NewClient(ctx context.Context, listen_on string, tlscfg *tls.Config) *Client { var c Client c.ctx, c.ctx_cancel = context.WithCancel(ctx) c.tlscfg = tlscfg c.cts_map = make(ServerConnMap) // TODO: make it configurable... c.stop_req.Store(false) c.stop_chan = make(chan bool, 1) c.ctl = &http.Server{ Addr: listen_on, Handler: &c, } return &c } func (c *Client) AddNewServerConn(addr *net.TCPAddr, cfg *ClientConfig) (*ServerConn, error) { var cts *ServerConn var ok bool cts = NewServerConn(c, addr, cfg) c.cts_mtx.Lock() defer c.cts_mtx.Unlock() _, ok = c.cts_map[addr] if ok { return nil, fmt.Errorf("existing server - %s", addr.String()) } c.cts_map[addr] = cts; fmt.Printf ("ADD total servers %d\n", len(c.cts_map)); return cts, nil } func (c *Client) RemoveServerConn(cts *ServerConn) { c.cts_mtx.Lock() delete(c.cts_map, cts.saddr) fmt.Printf ("REMOVE total servers %d\n", len(c.cts_map)); c.cts_mtx.Unlock() } func (c *Client) ReqStop() { if c.stop_req.CompareAndSwap(false, true) { var cts *ServerConn c.ctl.Shutdown(c.ctx) // to break c.ctl.ListenAndServe() for _, cts = range c.cts_map { cts.ReqStop() } // TODO: notify the server.. send term command??? c.stop_chan <- true c.ctx_cancel() } fmt.Printf ("*** Sent stop request to client..\n"); } func (c *Client) ServeHTTP(w http.ResponseWriter, req *http.Request) { var err error // command handler for the control channel if req.URL.String() == "/servers" { switch req.Method { case http.MethodGet: goto bad_request // TODO: case http.MethodPost: var s ClientCtlParamServer var cc ClientConfig err = json.NewDecoder(req.Body).Decode(&s) if err != nil { fmt.Printf ("failed to decode body - %s\n", err.Error()) goto bad_request } cc.server_addr = s.ServerAddr cc.peer_addrs = s.PeerAddrs c.RunService(&cc) w.WriteHeader(http.StatusCreated) case http.MethodPut: goto bad_request // TODO: case http.MethodDelete: var cts *ServerConn for _, cts = range c.cts_map { cts.ReqStop() } } } else { goto bad_request } fmt.Printf ("[%s][%s][%s]\n", req.RequestURI, req.URL.String(), req.Method) return bad_request: w.WriteHeader(http.StatusBadRequest) return } /* * POST GET PUT DELETE * /servers - create new server list all servers bulk update delete all servers * /servers/1 - X get server 1 details update server 1 delete server 1 * /servers/1/xxx - */ func (c *Client) RunCtlTask() { var err error defer c.wg.Done() err = c.ctl.ListenAndServe() if err != http.ErrServerClosed { fmt.Printf ("------------http server error - %s\n", err.Error()) } else { fmt.Printf ("********* http server ended\n") } } // naming convention: // RunService - returns after having executed another go routine // RunTask - supposed to be detached as a go routine func (c *Client) RunService(cfg *ClientConfig) { var saddr *net.TCPAddr var cts *ServerConn var err error if len(cfg.peer_addrs) < 0 || len(cfg.peer_addrs) > int(^uint16(0)) { // TODO: change this check... not really right... fmt.Printf("no peer addresses or too many peer addresses") return } saddr, err = net.ResolveTCPAddr(NET_TYPE_TCP, cfg.server_addr) if err != nil { fmt.Printf("unable to resolve %s - %s", cfg.server_addr, err.Error()) return } cts, err = c.AddNewServerConn(saddr, cfg) if err != nil { fmt.Printf("unable to add server connection structure to %s - %s", cfg.server_addr, err.Error()) return } c.wg.Add(1) go cts.RunTask(&c.wg) } func (c *Client) WaitForTermination() { fmt.Printf ("Waiting for task top stop\n") // waiting for tasks to stop c.wg.Wait() fmt.Printf ("XXXXXXXXXXXX Waiting for task top stop\n") // TOOD: find a better way to stop the signal handling loop. // above all the signal handler must not be with a single client, // but with the whole app. syscall.Kill(syscall.Getpid(), syscall.SIGTERM) // TODO: find a better to terminate the signal handler... } // -------------------------------------------------------------------- func (c *Client) handle_os_signals() { var sighup_chan chan os.Signal var sigterm_chan chan os.Signal var sig os.Signal defer c.wg.Done() sighup_chan = make(chan os.Signal, 1) sigterm_chan = make(chan os.Signal, 1) signal.Notify(sighup_chan, syscall.SIGHUP) signal.Notify(sigterm_chan, syscall.SIGTERM, os.Interrupt) chan_loop: for { select { case <-sighup_chan: // TODO: //s.RefreshConfig() case sig = <-sigterm_chan: // TODO: get timeout value from config //c.Shutdown(fmt.Sprintf("termination by signal %s", sig), 3*time.Second) c.ReqStop() //log.Debugf("termination by signal %s", sig) fmt.Printf("termination by signal %s\n", sig) break chan_loop } } fmt.Printf("end of signal handler\n") } // -------------------------------------------------------------------- const rootCert = `-----BEGIN CERTIFICATE----- MIIB+TCCAZ+gAwIBAgIJAL05LKXo6PrrMAoGCCqGSM49BAMCMFkxCzAJBgNVBAYT AkFVMRMwEQYDVQQIDApTb21lLVN0YXRlMSEwHwYDVQQKDBhJbnRlcm5ldCBXaWRn aXRzIFB0eSBMdGQxEjAQBgNVBAMMCWxvY2FsaG9zdDAeFw0xNTEyMDgxNDAxMTNa Fw0yNTEyMDUxNDAxMTNaMFkxCzAJBgNVBAYTAkFVMRMwEQYDVQQIDApTb21lLVN0 YXRlMSEwHwYDVQQKDBhJbnRlcm5ldCBXaWRnaXRzIFB0eSBMdGQxEjAQBgNVBAMM CWxvY2FsaG9zdDBZMBMGByqGSM49AgEGCCqGSM49AwEHA0IABHGaaHVod0hLOR4d 66xIrtS2TmEmjSFjt+DIEcb6sM9RTKS8TZcdBnEqq8YT7m2sKbV+TEq9Nn7d9pHz pWG2heWjUDBOMB0GA1UdDgQWBBR0fqrecDJ44D/fiYJiOeBzfoqEijAfBgNVHSME GDAWgBR0fqrecDJ44D/fiYJiOeBzfoqEijAMBgNVHRMEBTADAQH/MAoGCCqGSM49 BAMCA0gAMEUCIEKzVMF3JqjQjuM2rX7Rx8hancI5KJhwfeKu1xbyR7XaAiEA2UT7 1xOP035EcraRmWPe7tO0LpXgMxlh2VItpc2uc2w= -----END CERTIFICATE----- ` func client_main(listen_on string, server_addr string, peer_addrs []string) error { var c *Client var cert_pool *x509.CertPool var tlscfg *tls.Config var cc ClientConfig cert_pool = x509.NewCertPool() ok := cert_pool.AppendCertsFromPEM([]byte(rootCert)) if !ok { log.Fatal("failed to parse root certificate") } tlscfg = &tls.Config{ RootCAs: cert_pool, ServerName: "localhost", InsecureSkipVerify: true, } c = NewClient(context.Background(), listen_on, tlscfg) c.wg.Add(1) go c.handle_os_signals() c.wg.Add(1) go c.RunCtlTask() // control channel task cc.server_addr = server_addr cc.peer_addrs = peer_addrs c.RunService(&cc) c.WaitForTermination() return nil }