package controller import ( "encoding/json" "errors" "net/http" "strings" "time" "github.com/gorilla/mux" "github.com/gravitl/netmaker/database" "github.com/gravitl/netmaker/functions" "github.com/gravitl/netmaker/logic" "github.com/gravitl/netmaker/models" "github.com/gravitl/netmaker/servercfg" "golang.org/x/crypto/bcrypt" ) func nodeHandlers(r *mux.Router) { r.HandleFunc("/api/nodes", authorize(false, "user", http.HandlerFunc(getAllNodes))).Methods("GET") r.HandleFunc("/api/nodes/{network}", authorize(true, "network", http.HandlerFunc(getNetworkNodes))).Methods("GET") r.HandleFunc("/api/nodes/{network}/{macaddress}", authorize(true, "node", http.HandlerFunc(getNode))).Methods("GET") r.HandleFunc("/api/nodes/{network}/{macaddress}", authorize(true, "node", http.HandlerFunc(updateNode))).Methods("PUT") r.HandleFunc("/api/nodes/{network}/{macaddress}", authorize(true, "node", http.HandlerFunc(deleteNode))).Methods("DELETE") r.HandleFunc("/api/nodes/{network}/{macaddress}/createrelay", authorize(true, "user", http.HandlerFunc(createRelay))).Methods("POST") r.HandleFunc("/api/nodes/{network}/{macaddress}/deleterelay", authorize(true, "user", http.HandlerFunc(deleteRelay))).Methods("DELETE") r.HandleFunc("/api/nodes/{network}/{macaddress}/creategateway", authorize(true, "user", http.HandlerFunc(createEgressGateway))).Methods("POST") r.HandleFunc("/api/nodes/{network}/{macaddress}/deletegateway", authorize(true, "user", http.HandlerFunc(deleteEgressGateway))).Methods("DELETE") r.HandleFunc("/api/nodes/{network}/{macaddress}/createingress", securityCheck(false, http.HandlerFunc(createIngressGateway))).Methods("POST") r.HandleFunc("/api/nodes/{network}/{macaddress}/deleteingress", securityCheck(false, http.HandlerFunc(deleteIngressGateway))).Methods("DELETE") r.HandleFunc("/api/nodes/{network}/{macaddress}/approve", authorize(true, "user", http.HandlerFunc(uncordonNode))).Methods("POST") r.HandleFunc("/api/nodes/{network}", createNode).Methods("POST") r.HandleFunc("/api/nodes/adm/{network}/lastmodified", authorize(true, "network", http.HandlerFunc(getLastModified))).Methods("GET") r.HandleFunc("/api/nodes/adm/{network}/authenticate", authenticate).Methods("POST") } //Node authenticates using its password and retrieves a JWT for authorization. func authenticate(response http.ResponseWriter, request *http.Request) { var params = mux.Vars(request) networkname := params["network"] //Auth request consists of Mac Address and Password (from node that is authorizing //in case of Master, auth is ignored and mac is set to "mastermac" var authRequest models.AuthParams var result models.Node var errorResponse = models.ErrorResponse{ Code: http.StatusInternalServerError, Message: "W1R3: It's not you it's me.", } //Get password fnd mac rom request decoder := json.NewDecoder(request.Body) decoderErr := decoder.Decode(&authRequest) defer request.Body.Close() if decoderErr != nil { errorResponse.Code = http.StatusBadRequest errorResponse.Message = decoderErr.Error() returnErrorResponse(response, request, errorResponse) return } else { errorResponse.Code = http.StatusBadRequest if authRequest.MacAddress == "" { errorResponse.Message = "W1R3: MacAddress can't be empty" returnErrorResponse(response, request, errorResponse) return } else if authRequest.Password == "" { errorResponse.Message = "W1R3: Password can't be empty" returnErrorResponse(response, request, errorResponse) return } else { //Search DB for node with Mac Address. Ignore pending nodes (they should not be able to authenticate with API until approved). collection, err := database.FetchRecords(database.NODES_TABLE_NAME) if err != nil { errorResponse.Code = http.StatusBadRequest errorResponse.Message = err.Error() returnErrorResponse(response, request, errorResponse) return } for _, value := range collection { if err := json.Unmarshal([]byte(value), &result); err != nil { continue } if result.MacAddress == authRequest.MacAddress && result.IsPending != "yes" && result.Network == networkname { break } } if err != nil { errorResponse.Code = http.StatusBadRequest errorResponse.Message = err.Error() returnErrorResponse(response, request, errorResponse) return } //compare password from request to stored password in database //might be able to have a common hash (certificates?) and compare those so that a password isn't passed in in plain text... //TODO: Consider a way of hashing the password client side before sending, or using certificates err = bcrypt.CompareHashAndPassword([]byte(result.Password), []byte(authRequest.Password)) if err != nil { errorResponse.Code = http.StatusBadRequest errorResponse.Message = err.Error() returnErrorResponse(response, request, errorResponse) return } else { //Create a new JWT for the node tokenString, _ := logic.CreateJWT(authRequest.MacAddress, result.Network) if tokenString == "" { errorResponse.Code = http.StatusBadRequest errorResponse.Message = "Could not create Token" returnErrorResponse(response, request, errorResponse) return } var successResponse = models.SuccessResponse{ Code: http.StatusOK, Message: "W1R3: Device " + authRequest.MacAddress + " Authorized", Response: models.SuccessfulLoginResponse{ AuthToken: tokenString, MacAddress: authRequest.MacAddress, }, } //Send back the JWT successJSONResponse, jsonError := json.Marshal(successResponse) if jsonError != nil { errorResponse.Code = http.StatusBadRequest errorResponse.Message = err.Error() returnErrorResponse(response, request, errorResponse) return } response.WriteHeader(http.StatusOK) response.Header().Set("Content-Type", "application/json") response.Write(successJSONResponse) } } } } //The middleware for most requests to the API //They all pass through here first //This will validate the JWT (or check for master token) //This will also check against the authNetwork and make sure the node should be accessing that endpoint, //even if it's technically ok //This is kind of a poor man's RBAC. There's probably a better/smarter way. //TODO: Consider better RBAC implementations func authorize(networkCheck bool, authNetwork string, next http.Handler) http.HandlerFunc { return func(w http.ResponseWriter, r *http.Request) { var errorResponse = models.ErrorResponse{ Code: http.StatusInternalServerError, Message: "W1R3: It's not you it's me.", } var params = mux.Vars(r) networkexists, _ := functions.NetworkExists(params["network"]) //check that the request is for a valid network //if (networkCheck && !networkexists) || err != nil { if networkCheck && !networkexists { errorResponse = models.ErrorResponse{ Code: http.StatusNotFound, Message: "W1R3: This network does not exist. ", } returnErrorResponse(w, r, errorResponse) return } else { w.Header().Set("Content-Type", "application/json") //get the auth token bearerToken := r.Header.Get("Authorization") var tokenSplit = strings.Split(bearerToken, " ") //I put this in in case the user doesn't put in a token at all (in which case it's empty) //There's probably a smarter way of handling this. var authToken = "928rt238tghgwe@TY@$Y@#WQAEGB2FC#@HG#@$Hddd" if len(tokenSplit) > 1 { authToken = tokenSplit[1] } else { errorResponse = models.ErrorResponse{ Code: http.StatusUnauthorized, Message: "W1R3: Missing Auth Token.", } returnErrorResponse(w, r, errorResponse) return } //This checks if //A: the token is the master password //B: the token corresponds to a mac address, and if so, which one //TODO: There's probably a better way of dealing with the "master token"/master password. Plz Help. var isAuthorized = false var macaddress = "" username, networks, isadmin, errN := logic.VerifyUserToken(authToken) isnetadmin := isadmin if errN == nil && isadmin { macaddress = "mastermac" isAuthorized = true r.Header.Set("ismasterkey", "yes") } if !isadmin && params["network"] != "" { if functions.SliceContains(networks, params["network"]) { isnetadmin = true } } //The mastermac (login with masterkey from config) can do everything!! May be dangerous. if macaddress == "mastermac" { isAuthorized = true r.Header.Set("ismasterkey", "yes") //for everyone else, there's poor man's RBAC. The "cases" are defined in the routes in the handlers //So each route defines which access network should be allowed to access it } else { switch authNetwork { case "all": isAuthorized = true case "nodes": isAuthorized = (macaddress != "") || isnetadmin case "network": if isnetadmin { isAuthorized = true } else { node, err := logic.GetNodeByMacAddress(params["network"], macaddress) if err != nil { errorResponse = models.ErrorResponse{ Code: http.StatusUnauthorized, Message: "W1R3: Missing Auth Token.", } returnErrorResponse(w, r, errorResponse) return } isAuthorized = (node.Network == params["network"]) } case "node": if isnetadmin { isAuthorized = true } else { isAuthorized = (macaddress == params["macaddress"]) } case "user": isAuthorized = true default: isAuthorized = false } } if !isAuthorized { errorResponse = models.ErrorResponse{ Code: http.StatusUnauthorized, Message: "W1R3: You are unauthorized to access this endpoint.", } returnErrorResponse(w, r, errorResponse) return } else { //If authorized, this function passes along it's request and output to the appropriate route function. if username == "" { username = "(user not found)" } r.Header.Set("user", username) next.ServeHTTP(w, r) } } } } //Gets all nodes associated with network, including pending nodes func getNetworkNodes(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/json") var nodes []models.Node var params = mux.Vars(r) networkName := params["network"] nodes, err := logic.GetNetworkNodes(networkName) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } //Returns all the nodes in JSON format functions.PrintUserLog(r.Header.Get("user"), "fetched nodes on network"+networkName, 2) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(nodes) } //A separate function to get all nodes, not just nodes for a particular network. //Not quite sure if this is necessary. Probably necessary based on front end but may want to review after iteration 1 if it's being used or not func getAllNodes(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/json") user, err := logic.GetUser(r.Header.Get("user")) if err != nil && r.Header.Get("ismasterkey") != "yes" { returnErrorResponse(w, r, formatError(err, "internal")) return } var nodes []models.Node if user.IsAdmin || r.Header.Get("ismasterkey") == "yes" { nodes, err = logic.GetAllNodes() if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } } else { nodes, err = getUsersNodes(user) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } } //Return all the nodes in JSON format functions.PrintUserLog(r.Header.Get("user"), "fetched nodes", 2) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(nodes) } func getUsersNodes(user models.User) ([]models.Node, error) { var nodes []models.Node var err error for _, networkName := range user.Networks { tmpNodes, err := logic.GetNetworkNodes(networkName) if err != nil { continue } nodes = append(nodes, tmpNodes...) } return nodes, err } //Get an individual node. Nothin fancy here folks. func getNode(w http.ResponseWriter, r *http.Request) { // set header. w.Header().Set("Content-Type", "application/json") var params = mux.Vars(r) node, err := GetNode(params["macaddress"], params["network"]) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "fetched node "+params["macaddress"], 2) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(node) } //Get the time that a network of nodes was last modified. //TODO: This needs to be refactored //Potential way to do this: On UpdateNode, set a new field for "LastModified" //If we go with the existing way, we need to at least set network.NodesLastModified on UpdateNode func getLastModified(w http.ResponseWriter, r *http.Request) { // set header. w.Header().Set("Content-Type", "application/json") var params = mux.Vars(r) network, err := GetNetwork(params["network"]) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "called last modified", 2) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(network.NodesLastModified) } func createNode(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/json") var params = mux.Vars(r) var errorResponse = models.ErrorResponse{ Code: http.StatusInternalServerError, Message: "W1R3: It's not you it's me.", } networkName := params["network"] networkexists, err := functions.NetworkExists(networkName) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } else if !networkexists { errorResponse = models.ErrorResponse{ Code: http.StatusNotFound, Message: "W1R3: Network does not exist! ", } returnErrorResponse(w, r, errorResponse) return } var node models.Node //get node from body of request err = json.NewDecoder(r.Body).Decode(&node) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } node.Network = networkName network, err := logic.GetNetworkByNode(&node) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } //Check to see if key is valid //TODO: Triple inefficient!!! This is the third call to the DB we make for networks validKey := logic.IsKeyValid(networkName, node.AccessKey) if !validKey { //Check to see if network will allow manual sign up //may want to switch this up with the valid key check and avoid a DB call that way. if network.AllowManualSignUp == "yes" { node.IsPending = "yes" } else { errorResponse = models.ErrorResponse{ Code: http.StatusUnauthorized, Message: "W1R3: Key invalid, or none provided.", } returnErrorResponse(w, r, errorResponse) return } } node, err = logic.CreateNode(node, networkName) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "created new node "+node.Name+" on network "+node.Network, 1) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(node) } //Takes node out of pending state //TODO: May want to use cordon/uncordon terminology instead of "ispending". func uncordonNode(w http.ResponseWriter, r *http.Request) { var params = mux.Vars(r) w.Header().Set("Content-Type", "application/json") node, err := UncordonNode(params["network"], params["macaddress"]) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "uncordoned node "+node.Name, 1) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode("SUCCESS") } // UncordonNode - approves a node to join a network func UncordonNode(network, macaddress string) (models.Node, error) { node, err := logic.GetNodeByMacAddress(network, macaddress) if err != nil { return models.Node{}, err } node.SetLastModified() node.IsPending = "no" node.PullChanges = "yes" data, err := json.Marshal(&node) if err != nil { return node, err } key, err := logic.GetRecordKey(node.MacAddress, node.Network) if err != nil { return node, err } err = database.Insert(key, string(data), database.NODES_TABLE_NAME) return node, err } func createEgressGateway(w http.ResponseWriter, r *http.Request) { var gateway models.EgressGatewayRequest var params = mux.Vars(r) w.Header().Set("Content-Type", "application/json") err := json.NewDecoder(r.Body).Decode(&gateway) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } gateway.NetID = params["network"] gateway.NodeID = params["macaddress"] node, err := CreateEgressGateway(gateway) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "created egress gateway on node "+gateway.NodeID+" on network "+gateway.NetID, 1) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(node) } // CreateEgressGateway - creates an egress gateway func CreateEgressGateway(gateway models.EgressGatewayRequest) (models.Node, error) { node, err := logic.GetNodeByMacAddress(gateway.NetID, gateway.NodeID) if node.OS == "windows" || node.OS == "macos" { // add in darwin later return models.Node{}, errors.New(node.OS + " is unsupported for egress gateways") } if err != nil { return models.Node{}, err } err = ValidateEgressGateway(gateway) if err != nil { return models.Node{}, err } node.IsEgressGateway = "yes" node.EgressGatewayRanges = gateway.Ranges postUpCmd := "iptables -A FORWARD -i " + node.Interface + " -j ACCEPT; iptables -t nat -A POSTROUTING -o " + gateway.Interface + " -j MASQUERADE" postDownCmd := "iptables -D FORWARD -i " + node.Interface + " -j ACCEPT; iptables -t nat -D POSTROUTING -o " + gateway.Interface + " -j MASQUERADE" if gateway.PostUp != "" { postUpCmd = gateway.PostUp } if gateway.PostDown != "" { postDownCmd = gateway.PostDown } if node.PostUp != "" { if !strings.Contains(node.PostUp, postUpCmd) { postUpCmd = node.PostUp + "; " + postUpCmd } } if node.PostDown != "" { if !strings.Contains(node.PostDown, postDownCmd) { postDownCmd = node.PostDown + "; " + postDownCmd } } key, err := logic.GetRecordKey(gateway.NodeID, gateway.NetID) if err != nil { return node, err } node.PostUp = postUpCmd node.PostDown = postDownCmd node.SetLastModified() node.PullChanges = "yes" nodeData, err := json.Marshal(&node) if err != nil { return node, err } if err = database.Insert(key, string(nodeData), database.NODES_TABLE_NAME); err != nil { return models.Node{}, err } if err = functions.NetworkNodesUpdatePullChanges(node.Network); err != nil { return models.Node{}, err } return node, nil } func ValidateEgressGateway(gateway models.EgressGatewayRequest) error { var err error //isIp := functions.IsIpCIDR(gateway.RangeString) empty := len(gateway.Ranges) == 0 if empty { err = errors.New("IP Ranges Cannot Be Empty") } empty = gateway.Interface == "" if empty { err = errors.New("Interface cannot be empty") } return err } func deleteEgressGateway(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/json") var params = mux.Vars(r) nodeMac := params["macaddress"] netid := params["network"] node, err := DeleteEgressGateway(netid, nodeMac) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "deleted egress gateway "+nodeMac+" on network "+netid, 1) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(node) } // DeleteEgressGateway - deletes egress from node func DeleteEgressGateway(network, macaddress string) (models.Node, error) { node, err := logic.GetNodeByMacAddress(network, macaddress) if err != nil { return models.Node{}, err } node.IsEgressGateway = "no" node.EgressGatewayRanges = []string{} node.PostUp = "" node.PostDown = "" if node.IsIngressGateway == "yes" { // check if node is still an ingress gateway before completely deleting postdown/up rules node.PostUp = "iptables -A FORWARD -i " + node.Interface + " -j ACCEPT; iptables -t nat -A POSTROUTING -o " + node.Interface + " -j MASQUERADE" node.PostDown = "iptables -D FORWARD -i " + node.Interface + " -j ACCEPT; iptables -t nat -D POSTROUTING -o " + node.Interface + " -j MASQUERADE" } node.SetLastModified() node.PullChanges = "yes" key, err := logic.GetRecordKey(node.MacAddress, node.Network) if err != nil { return models.Node{}, err } data, err := json.Marshal(&node) if err != nil { return models.Node{}, err } if err = database.Insert(key, string(data), database.NODES_TABLE_NAME); err != nil { return models.Node{}, err } if err = functions.NetworkNodesUpdatePullChanges(network); err != nil { return models.Node{}, err } return node, nil } // == INGRESS == func createIngressGateway(w http.ResponseWriter, r *http.Request) { var params = mux.Vars(r) w.Header().Set("Content-Type", "application/json") nodeMac := params["macaddress"] netid := params["network"] node, err := CreateIngressGateway(netid, nodeMac) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "created ingress gateway on node "+nodeMac+" on network "+netid, 1) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(node) } // CreateIngressGateway - creates an ingress gateway func CreateIngressGateway(netid string, macaddress string) (models.Node, error) { node, err := logic.GetNodeByMacAddress(netid, macaddress) if node.OS == "windows" || node.OS == "macos" { // add in darwin later return models.Node{}, errors.New(node.OS + " is unsupported for ingress gateways") } if err != nil { return models.Node{}, err } network, err := logic.GetParentNetwork(netid) if err != nil { return models.Node{}, err } node.IsIngressGateway = "yes" node.IngressGatewayRange = network.AddressRange postUpCmd := "iptables -A FORWARD -i " + node.Interface + " -j ACCEPT; iptables -t nat -A POSTROUTING -o " + node.Interface + " -j MASQUERADE" postDownCmd := "iptables -D FORWARD -i " + node.Interface + " -j ACCEPT; iptables -t nat -D POSTROUTING -o " + node.Interface + " -j MASQUERADE" if node.PostUp != "" { if !strings.Contains(node.PostUp, postUpCmd) { postUpCmd = node.PostUp + "; " + postUpCmd } } if node.PostDown != "" { if !strings.Contains(node.PostDown, postDownCmd) { postDownCmd = node.PostDown + "; " + postDownCmd } } node.SetLastModified() node.PostUp = postUpCmd node.PostDown = postDownCmd node.PullChanges = "yes" node.UDPHolePunch = "no" key, err := logic.GetRecordKey(node.MacAddress, node.Network) if err != nil { return models.Node{}, err } data, err := json.Marshal(&node) if err != nil { return models.Node{}, err } err = database.Insert(key, string(data), database.NODES_TABLE_NAME) if err != nil { return models.Node{}, err } err = logic.SetNetworkNodesLastModified(netid) return node, err } func deleteIngressGateway(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/json") var params = mux.Vars(r) nodeMac := params["macaddress"] node, err := DeleteIngressGateway(params["network"], nodeMac) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "deleted ingress gateway"+nodeMac, 1) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(node) } // DeleteIngressGateway - deletes an ingress gateway func DeleteIngressGateway(networkName string, macaddress string) (models.Node, error) { node, err := logic.GetNodeByMacAddress(networkName, macaddress) if err != nil { return models.Node{}, err } network, err := logic.GetParentNetwork(networkName) if err != nil { return models.Node{}, err } // delete ext clients belonging to ingress gateway if err = DeleteGatewayExtClients(macaddress, networkName); err != nil { return models.Node{}, err } node.UDPHolePunch = network.DefaultUDPHolePunch node.LastModified = time.Now().Unix() node.IsIngressGateway = "no" node.IngressGatewayRange = "" node.PullChanges = "yes" key, err := logic.GetRecordKey(node.MacAddress, node.Network) if err != nil { return models.Node{}, err } data, err := json.Marshal(&node) if err != nil { return models.Node{}, err } err = database.Insert(key, string(data), database.NODES_TABLE_NAME) if err != nil { return models.Node{}, err } err = logic.SetNetworkNodesLastModified(networkName) return node, err } func updateNode(w http.ResponseWriter, r *http.Request) { w.Header().Set("Content-Type", "application/json") var params = mux.Vars(r) var node models.Node //start here node, err := logic.GetNodeByMacAddress(params["network"], params["macaddress"]) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } var newNode models.Node // we decode our body request params err = json.NewDecoder(r.Body).Decode(&newNode) if err != nil { returnErrorResponse(w, r, formatError(err, "badrequest")) return } newNode.PullChanges = "yes" relayupdate := false if node.IsRelay == "yes" && len(newNode.RelayAddrs) > 0 { if len(newNode.RelayAddrs) != len(node.RelayAddrs) { relayupdate = true } else { for i, addr := range newNode.RelayAddrs { if addr != node.RelayAddrs[i] { relayupdate = true } } } } err = logic.UpdateNode(&node, &newNode) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } if relayupdate { UpdateRelay(node.Network, node.RelayAddrs, newNode.RelayAddrs) if err = functions.NetworkNodesUpdatePullChanges(node.Network); err != nil { functions.PrintUserLog("netmaker", "error setting relay updates: "+err.Error(), 1) } } if servercfg.IsDNSMode() { err = logic.SetDNS() } if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "updated node "+node.MacAddress+" on network "+node.Network, 1) w.WriteHeader(http.StatusOK) json.NewEncoder(w).Encode(newNode) } //Delete a node //Pretty straightforward func deleteNode(w http.ResponseWriter, r *http.Request) { // Set header w.Header().Set("Content-Type", "application/json") // get params var params = mux.Vars(r) err := DeleteNode(params["macaddress"]+"###"+params["network"], false) if err != nil { returnErrorResponse(w, r, formatError(err, "internal")) return } functions.PrintUserLog(r.Header.Get("user"), "Deleted node "+params["macaddress"]+" from network "+params["network"], 1) returnSuccessResponse(w, r, params["macaddress"]+" deleted.") }