func doResponses(conn *tao.Conn) {
defer conn.Close()
var peer *string
if conn.Peer() != nil {
peer = proto.String(conn.Peer().String())
verbose.Printf("Processing connection requests for peer %s\n", *peer)
netlog.Log("rendezvous: connection from peer %s", *peer)
} else {
verbose.Printf("Processing connection requests for anonymous peer\n")
netlog.Log("rendezvous: connection from anonymous")
}
for {
var req rendezvous.Request
if err := conn.ReadMessage(&req); err != nil {
if err != io.EOF {
doError(conn, err, rendezvous.ResponseStatus_RENDEZVOUS_BAD_REQUEST, "failed to read request")
}
break
}
doResponse(&req, conn, peer)
}
lock.Lock()
for k, v := range bindings {
if v.expiration.IsZero() && v.conn == conn {
delete(bindings, k)
verbose.Printf("Expired binding upon close: %s\n", k)
}
}
lock.Unlock()
verbose.Println("Done processing connection requests")
if peer == nil {
netlog.Log("rendezvous: connection closed from anonymous")
} else {
netlog.Log("rendezvous: connection closed from peer %s", *peer)
}
}
func doResponseWithoutStats(conn *tao.Conn) {
verbose.Println("Processing request")
doResponse(conn)
}
func doResponse(req *rendezvous.Request, conn *tao.Conn, peer *string) {
verbose.Println("Processing request")
// Check whether the request is well-formed
switch *req.Type {
case rendezvous.RequestType_RENDEZVOUS_REGISTER:
b := req.Binding
if b == nil {
doError(conn, nil, rendezvous.ResponseStatus_RENDEZVOUS_BAD_REQUEST, "missing binding")
return
}
if !allowAnon && peer == nil {
doError(conn, nil, rendezvous.ResponseStatus_RENDEZVOUS_REQUEST_DENIED, "anonymous registration forbidden")
return
}
if b.Principal != nil && (peer == nil || *b.Principal != *peer) {
doError(conn, nil, rendezvous.ResponseStatus_RENDEZVOUS_BAD_REQUEST, "third party registration forbidden")
return
}
approved := register(conn, b, peer)
if !approved {
doError(conn, nil, rendezvous.ResponseStatus_RENDEZVOUS_REQUEST_DENIED, "request is denied")
return
}
status := rendezvous.ResponseStatus_RENDEZVOUS_OK
resp := &rendezvous.Response{Status: &status}
sendResponse(conn, resp)
case rendezvous.RequestType_RENDEZVOUS_LOOKUP:
q := ".*"
if req.Query != nil {
q = *req.Query
}
r, err := regexp.Compile(q)
if err != nil {
doError(conn, err, rendezvous.ResponseStatus_RENDEZVOUS_BAD_REQUEST, "bad query")
return
}
var matches []*rendezvous.Binding
lock.Lock()
expire(time.Now())
for k, v := range bindings {
if r.MatchString(k) {
b := v.Binding
matches = append(matches, &b)
}
}
lock.Unlock()
fmt.Printf("Query [%s] ==> %d matches\n", q, len(matches))
status := rendezvous.ResponseStatus_RENDEZVOUS_OK
resp := &rendezvous.Response{Status: &status, Bindings: matches}
sendResponse(conn, resp)
case rendezvous.RequestType_RENDEZVOUS_POLICY:
var policy string
if manualMode {
policy = "manual"
} else if fcfsMode {
policy = "fcfs"
} else {
policy = "unspecified"
}
if allowAnon {
policy = "anon," + policy
}
status := rendezvous.ResponseStatus_RENDEZVOUS_OK
resp := &rendezvous.Response{Status: &status, Policy: &policy}
sendResponse(conn, resp)
default:
doError(conn, nil, rendezvous.ResponseStatus_RENDEZVOUS_BAD_REQUEST, "unrecognized request type")
return
}
}
