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netmaker/controllers/node.go
Tobias Cudnik 3a4363c890
NET-163: Return 403 instead of 401 (#2326) 
* return 401 instead of 403

* fixed http.StatusForbidden

* Tagged build version (temp)

* Unauthorized_Err when applicable

* untagged version
2023-05-25 09:40:39 -04:00

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package controller
import (
"context"
"encoding/json"
"fmt"
"net/http"
"strings"
"github.com/gorilla/mux"
"github.com/gravitl/netmaker/database"
"github.com/gravitl/netmaker/logger"
"github.com/gravitl/netmaker/logic"
"github.com/gravitl/netmaker/logic/pro"
"github.com/gravitl/netmaker/models"
"github.com/gravitl/netmaker/models/promodels"
"github.com/gravitl/netmaker/mq"
"github.com/gravitl/netmaker/servercfg"
"golang.org/x/crypto/bcrypt"
)
var hostIDHeader = "host-id"
func nodeHandlers(r *mux.Router) {
r.HandleFunc("/api/nodes", authorize(false, false, "user", http.HandlerFunc(getAllNodes))).Methods(http.MethodGet)
r.HandleFunc("/api/nodes/{network}", authorize(false, true, "network", http.HandlerFunc(getNetworkNodes))).Methods(http.MethodGet)
r.HandleFunc("/api/nodes/{network}/{nodeid}", authorize(true, true, "node", http.HandlerFunc(getNode))).Methods(http.MethodGet)
r.HandleFunc("/api/nodes/{network}/{nodeid}", authorize(false, true, "node", http.HandlerFunc(updateNode))).Methods(http.MethodPut)
r.HandleFunc("/api/nodes/{network}/{nodeid}", authorize(true, true, "node", http.HandlerFunc(deleteNode))).Methods(http.MethodDelete)
r.HandleFunc("/api/nodes/{network}/{nodeid}/createrelay", authorize(false, true, "user", http.HandlerFunc(createRelay))).Methods(http.MethodPost)
r.HandleFunc("/api/nodes/{network}/{nodeid}/deleterelay", authorize(false, true, "user", http.HandlerFunc(deleteRelay))).Methods(http.MethodDelete)
r.HandleFunc("/api/nodes/{network}/{nodeid}/creategateway", authorize(false, true, "user", http.HandlerFunc(createEgressGateway))).Methods(http.MethodPost)
r.HandleFunc("/api/nodes/{network}/{nodeid}/deletegateway", authorize(false, true, "user", http.HandlerFunc(deleteEgressGateway))).Methods(http.MethodDelete)
r.HandleFunc("/api/nodes/{network}/{nodeid}/createingress", logic.SecurityCheck(false, http.HandlerFunc(createIngressGateway))).Methods(http.MethodPost)
r.HandleFunc("/api/nodes/{network}/{nodeid}/deleteingress", logic.SecurityCheck(false, http.HandlerFunc(deleteIngressGateway))).Methods(http.MethodDelete)
r.HandleFunc("/api/nodes/{network}/{nodeid}", authorize(true, true, "node", http.HandlerFunc(updateNode))).Methods(http.MethodPost)
r.HandleFunc("/api/nodes/adm/{network}/authenticate", authenticate).Methods(http.MethodPost)
r.HandleFunc("/api/v1/nodes/migrate", migrate).Methods(http.MethodPost)
}
// swagger:route POST /api/nodes/adm/{network}/authenticate nodes authenticate
//
// Authenticate to make further API calls related to a network.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: successResponse
func authenticate(response http.ResponseWriter, request *http.Request) {
var authRequest models.AuthParams
var result models.Node
var errorResponse = models.ErrorResponse{
Code: http.StatusInternalServerError, Message: "W1R3: It's not you it's me.",
}
decoder := json.NewDecoder(request.Body)
decoderErr := decoder.Decode(&authRequest)
defer request.Body.Close()
if decoderErr != nil {
errorResponse.Code = http.StatusBadRequest
errorResponse.Message = decoderErr.Error()
logger.Log(0, request.Header.Get("user"), "error decoding request body: ",
decoderErr.Error())
logic.ReturnErrorResponse(response, request, errorResponse)
return
}
errorResponse.Code = http.StatusBadRequest
if authRequest.ID == "" {
errorResponse.Message = "W1R3: ID can't be empty"
logger.Log(0, request.Header.Get("user"), errorResponse.Message)
logic.ReturnErrorResponse(response, request, errorResponse)
return
} else if authRequest.Password == "" {
errorResponse.Message = "W1R3: Password can't be empty"
logger.Log(0, request.Header.Get("user"), errorResponse.Message)
logic.ReturnErrorResponse(response, request, errorResponse)
return
}
var err error
result, err = logic.GetNodeByID(authRequest.ID)
if err != nil {
result, err = logic.GetDeletedNodeByID(authRequest.ID)
if err != nil {
errorResponse.Code = http.StatusBadRequest
errorResponse.Message = err.Error()
logger.Log(0, request.Header.Get("user"),
fmt.Sprintf("failed to get node info [%s]: %v", authRequest.ID, err))
logic.ReturnErrorResponse(response, request, errorResponse)
return
}
}
host, err := logic.GetHost(result.HostID.String())
if err != nil {
errorResponse.Code = http.StatusBadRequest
errorResponse.Message = err.Error()
logger.Log(0, request.Header.Get("user"),
"error retrieving host: ", err.Error())
logic.ReturnErrorResponse(response, request, errorResponse)
return
}
err = bcrypt.CompareHashAndPassword([]byte(host.HostPass), []byte(authRequest.Password))
if err != nil {
errorResponse.Code = http.StatusBadRequest
errorResponse.Message = err.Error()
logger.Log(0, request.Header.Get("user"),
"error validating user password: ", err.Error())
logic.ReturnErrorResponse(response, request, errorResponse)
return
}
tokenString, err := logic.CreateJWT(authRequest.ID, authRequest.MacAddress, result.Network)
if tokenString == "" {
errorResponse.Code = http.StatusBadRequest
errorResponse.Message = "Could not create Token"
logger.Log(0, request.Header.Get("user"),
fmt.Sprintf("%s: %v", errorResponse.Message, err))
logic.ReturnErrorResponse(response, request, errorResponse)
return
}
var successResponse = models.SuccessResponse{
Code: http.StatusOK,
Message: "W1R3: Device " + authRequest.ID + " Authorized",
Response: models.SuccessfulLoginResponse{
AuthToken: tokenString,
ID: authRequest.ID,
},
}
successJSONResponse, jsonError := json.Marshal(successResponse)
if jsonError != nil {
errorResponse.Code = http.StatusBadRequest
errorResponse.Message = err.Error()
logger.Log(0, request.Header.Get("user"),
"error marshalling resp: ", err.Error())
logic.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(hostAllowed, networkCheck bool, authNetwork string, next http.Handler) http.HandlerFunc {
return func(w http.ResponseWriter, r *http.Request) {
var errorResponse = models.ErrorResponse{
Code: http.StatusForbidden, Message: logic.Forbidden_Msg,
}
var params = mux.Vars(r)
networkexists, _ := logic.NetworkExists(params["network"])
//check that the request is for a valid network
//if (networkCheck && !networkexists) || err != nil {
if networkCheck && !networkexists {
logic.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 {
logic.ReturnErrorResponse(w, r, errorResponse)
return
}
// check if host instead of user
if hostAllowed {
// TODO --- should ensure that node is only operating on itself
if hostID, _, _, err := logic.VerifyHostToken(authToken); err == nil {
r.Header.Set(hostIDHeader, hostID)
// this indicates request is from a node
// used for failover - if a getNode comes from node, this will trigger a metrics wipe
next.ServeHTTP(w, r)
return
}
}
var isAuthorized = false
var nodeID = ""
username, networks, isadmin, errN := logic.VerifyUserToken(authToken)
if errN != nil {
logic.ReturnErrorResponse(w, r, errorResponse)
return
}
isnetadmin := isadmin
if errN == nil && isadmin {
nodeID = "mastermac"
isAuthorized = true
r.Header.Set("ismasterkey", "yes")
}
if !isadmin && params["network"] != "" {
if logic.StringSliceContains(networks, params["network"]) && pro.IsUserNetAdmin(params["network"], username) {
isnetadmin = true
}
}
//The mastermac (login with masterkey from config) can do everything!! May be dangerous.
if nodeID == "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 = (nodeID != "") || isnetadmin
case "network":
if isnetadmin {
isAuthorized = true
} else {
node, err := logic.GetNodeByID(nodeID)
if err != nil {
logic.ReturnErrorResponse(w, r, errorResponse)
return
}
isAuthorized = (node.Network == params["network"])
}
case "node":
if isnetadmin {
isAuthorized = true
} else {
isAuthorized = (nodeID == params["netid"])
}
case "host":
case "user":
isAuthorized = true
default:
isAuthorized = false
}
}
if !isAuthorized {
logic.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)
}
}
}
}
// swagger:route GET /api/nodes/{network} nodes getNetworkNodes
//
// Gets all nodes associated with network including pending nodes.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeSliceResponse
func getNetworkNodes(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/json")
var params = mux.Vars(r)
networkName := params["network"]
nodes, err := logic.GetNetworkNodes(networkName)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("error fetching nodes on network %s: %v", networkName, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
// returns all the nodes in JSON/API format
apiNodes := logic.GetAllNodesAPI(nodes[:])
logger.Log(2, r.Header.Get("user"), "fetched nodes on network", networkName)
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(apiNodes)
}
// swagger:route GET /api/nodes nodes getAllNodes
//
// Get all nodes across all networks.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeSliceResponse
//
// 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" {
logger.Log(0, r.Header.Get("user"),
"error fetching user info: ", err.Error())
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
var nodes []models.Node
if user.IsAdmin || r.Header.Get("ismasterkey") == "yes" {
nodes, err = logic.GetAllNodes()
if err != nil {
logger.Log(0, "error fetching all nodes info: ", err.Error())
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
} else {
nodes, err = getUsersNodes(*user)
if err != nil {
logger.Log(0, r.Header.Get("user"),
"error fetching nodes: ", err.Error())
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
}
// return all the nodes in JSON/API format
apiNodes := logic.GetAllNodesAPI(nodes[:])
logger.Log(3, r.Header.Get("user"), "fetched all nodes they have access to")
logic.SortApiNodes(apiNodes[:])
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(apiNodes)
}
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
}
// swagger:route GET /api/nodes/{network}/{nodeid} nodes getNode
//
// Get an individual node.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeResponse
func getNode(w http.ResponseWriter, r *http.Request) {
// set header.
w.Header().Set("Content-Type", "application/json")
nodeRequest := r.Header.Get("requestfrom") == "node"
var params = mux.Vars(r)
nodeid := params["nodeid"]
node, err := logic.GetNodeByID(nodeid)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("error fetching node [ %s ] info: %v", nodeid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
host, err := logic.GetHost(node.HostID.String())
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("error fetching host for node [ %s ] info: %v", nodeid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
hostPeerUpdate, err := logic.GetPeerUpdateForHost(context.Background(), node.Network, host, nil, nil)
if err != nil && !database.IsEmptyRecord(err) {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("error fetching wg peers config for host [ %s ]: %v", host.ID.String(), err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
server := servercfg.GetServerInfo()
if servercfg.GetBrokerType() == servercfg.EmqxBrokerType {
// set MQ username for EMQX clients
server.MQUserName = host.ID.String()
}
response := models.NodeGet{
Node: node,
Host: *host,
HostPeers: hostPeerUpdate.Peers,
Peers: hostPeerUpdate.NodePeers,
ServerConfig: server,
PeerIDs: hostPeerUpdate.PeerIDs,
}
if servercfg.Is_EE && nodeRequest {
if err = logic.EnterpriseResetAllPeersFailovers(node.ID, node.Network); err != nil {
logger.Log(1, "failed to reset failover list during node config pull", node.ID.String(), node.Network)
}
}
logger.Log(2, r.Header.Get("user"), "fetched node", params["nodeid"])
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(response)
}
// == EGRESS ==
// swagger:route POST /api/nodes/{network}/{nodeid}/creategateway nodes createEgressGateway
//
// Create an egress gateway.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeResponse
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 {
logger.Log(0, r.Header.Get("user"), "error decoding request body: ", err.Error())
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "badrequest"))
return
}
gateway.NetID = params["network"]
gateway.NodeID = params["nodeid"]
node, err := logic.CreateEgressGateway(gateway)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("failed to create egress gateway on node [%s] on network [%s]: %v",
gateway.NodeID, gateway.NetID, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
apiNode := node.ConvertToAPINode()
logger.Log(1, r.Header.Get("user"), "created egress gateway on node", gateway.NodeID, "on network", gateway.NetID)
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(apiNode)
go func() {
mq.PublishPeerUpdate()
}()
runUpdates(&node, true)
}
// swagger:route DELETE /api/nodes/{network}/{nodeid}/deletegateway nodes deleteEgressGateway
//
// Delete an egress gateway.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeResponse
func deleteEgressGateway(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/json")
var params = mux.Vars(r)
nodeid := params["nodeid"]
netid := params["network"]
node, err := logic.DeleteEgressGateway(netid, nodeid)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("failed to delete egress gateway on node [%s] on network [%s]: %v",
nodeid, netid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
apiNode := node.ConvertToAPINode()
logger.Log(1, r.Header.Get("user"), "deleted egress gateway on node", nodeid, "on network", netid)
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(apiNode)
go func() {
mq.PublishPeerUpdate()
}()
runUpdates(&node, true)
}
// == INGRESS ==
// swagger:route POST /api/nodes/{network}/{nodeid}/createingress nodes createIngressGateway
//
// Create an ingress gateway.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeResponse
func createIngressGateway(w http.ResponseWriter, r *http.Request) {
var params = mux.Vars(r)
w.Header().Set("Content-Type", "application/json")
nodeid := params["nodeid"]
netid := params["network"]
var request models.IngressRequest
json.NewDecoder(r.Body).Decode(&request)
node, err := logic.CreateIngressGateway(netid, nodeid, request)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("failed to create ingress gateway on node [%s] on network [%s]: %v",
nodeid, netid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
if servercfg.Is_EE && request.Failover {
if err = logic.EnterpriseResetFailoverFunc(node.Network); err != nil {
logger.Log(1, "failed to reset failover list during failover create", node.ID.String(), node.Network)
}
}
apiNode := node.ConvertToAPINode()
logger.Log(1, r.Header.Get("user"), "created ingress gateway on node", nodeid, "on network", netid)
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(apiNode)
runUpdates(&node, true)
}
// swagger:route DELETE /api/nodes/{network}/{nodeid}/deleteingress nodes deleteIngressGateway
//
// Delete an ingress gateway.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeResponse
func deleteIngressGateway(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/json")
var params = mux.Vars(r)
nodeid := params["nodeid"]
netid := params["network"]
node, wasFailover, removedClients, err := logic.DeleteIngressGateway(netid, nodeid)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("failed to delete ingress gateway on node [%s] on network [%s]: %v",
nodeid, netid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
if servercfg.Is_EE && wasFailover {
if err = logic.EnterpriseResetFailoverFunc(node.Network); err != nil {
logger.Log(1, "failed to reset failover list during failover create", node.ID.String(), node.Network)
}
}
apiNode := node.ConvertToAPINode()
logger.Log(1, r.Header.Get("user"), "deleted ingress gateway", nodeid)
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(apiNode)
if len(removedClients) > 0 {
host, err := logic.GetHost(node.HostID.String())
if err == nil {
go mq.PublishSingleHostPeerUpdate(
context.Background(),
host,
nil,
removedClients[:],
)
}
}
runUpdates(&node, true)
}
// swagger:route PUT /api/nodes/{network}/{nodeid} nodes updateNode
//
// Update an individual node.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeResponse
func updateNode(w http.ResponseWriter, r *http.Request) {
w.Header().Set("Content-Type", "application/json")
var params = mux.Vars(r)
//start here
nodeid := params["nodeid"]
currentNode, err := logic.GetNodeByID(nodeid)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("error fetching node [ %s ] info: %v", nodeid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
var newData models.ApiNode
// we decode our body request params
err = json.NewDecoder(r.Body).Decode(&newData)
if err != nil {
logger.Log(0, r.Header.Get("user"), "error decoding request body: ", err.Error())
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "badrequest"))
return
}
newNode := newData.ConvertToServerNode(&currentNode)
relayupdate := false
if currentNode.IsRelay && len(newNode.RelayAddrs) > 0 {
if len(newNode.RelayAddrs) != len(currentNode.RelayAddrs) {
relayupdate = true
} else {
for i, addr := range newNode.RelayAddrs {
if addr != currentNode.RelayAddrs[i] {
relayupdate = true
}
}
}
}
host, err := logic.GetHost(newNode.HostID.String())
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("failed to get host for node [ %s ] info: %v", nodeid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
relayedUpdate := false
if currentNode.IsRelayed && (currentNode.Address.String() != newNode.Address.String() || currentNode.Address6.String() != newNode.Address6.String()) {
relayedUpdate = true
}
ifaceDelta := logic.IfaceDelta(&currentNode, newNode)
aclUpdate := currentNode.DefaultACL != newNode.DefaultACL
if ifaceDelta && servercfg.Is_EE {
if err = logic.EnterpriseResetAllPeersFailovers(currentNode.ID, currentNode.Network); err != nil {
logger.Log(0, "failed to reset failover lists during node update for node", currentNode.ID.String(), currentNode.Network)
}
}
err = logic.UpdateNode(&currentNode, newNode)
if err != nil {
logger.Log(0, r.Header.Get("user"),
fmt.Sprintf("failed to update node info [ %s ] info: %v", nodeid, err))
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "internal"))
return
}
if relayupdate {
updatenodes := logic.UpdateRelay(currentNode.Network, currentNode.RelayAddrs, newNode.RelayAddrs)
if len(updatenodes) > 0 {
for _, relayedNode := range updatenodes {
runUpdates(&relayedNode, false)
}
}
}
if relayedUpdate {
updateRelay(&currentNode, newNode)
}
if servercfg.IsDNSMode() {
logic.SetDNS()
}
apiNode := newNode.ConvertToAPINode()
logger.Log(1, r.Header.Get("user"), "updated node", currentNode.ID.String(), "on network", currentNode.Network)
w.WriteHeader(http.StatusOK)
json.NewEncoder(w).Encode(apiNode)
runUpdates(newNode, ifaceDelta)
go func(aclUpdate bool, newNode *models.Node) {
if aclUpdate {
if err := mq.PublishPeerUpdate(); err != nil {
logger.Log(0, "error during node ACL update for node", newNode.ID.String())
}
}
if err := mq.PublishReplaceDNS(&currentNode, newNode, host); err != nil {
logger.Log(1, "failed to publish dns update", err.Error())
}
}(aclUpdate, newNode)
}
// swagger:route DELETE /api/nodes/{network}/{nodeid} nodes deleteNode
//
// Delete an individual node.
//
// Schemes: https
//
// Security:
// oauth
//
// Responses:
// 200: nodeResponse
func deleteNode(w http.ResponseWriter, r *http.Request) {
// Set header
w.Header().Set("Content-Type", "application/json")
// get params
var params = mux.Vars(r)
var nodeid = params["nodeid"]
fromNode := r.Header.Get("requestfrom") == "node"
node, err := logic.GetNodeByID(nodeid)
if err != nil {
if logic.CheckAndRemoveLegacyNode(nodeid) {
logger.Log(0, "removed legacy node", nodeid)
logic.ReturnSuccessResponse(w, r, nodeid+" deleted.")
} else {
logger.Log(0, "error retrieving node to delete", err.Error())
logic.ReturnErrorResponse(w, r, logic.FormatError(err, "badrequest"))
}
return
}
if r.Header.Get("ismaster") != "yes" {
username := r.Header.Get("user")
if username != "" && !doesUserOwnNode(username, params["network"], nodeid) {
logic.ReturnErrorResponse(w, r, logic.FormatError(fmt.Errorf("user not permitted"), "badrequest"))
return
}
}
if err := logic.DeleteNode(&node, fromNode); err != nil {
logic.ReturnErrorResponse(w, r, logic.FormatError(fmt.Errorf("failed to delete node"), "internal"))
return
}
logic.ReturnSuccessResponse(w, r, nodeid+" deleted.")
logger.Log(1, r.Header.Get("user"), "Deleted node", nodeid, "from network", params["network"])
if !fromNode { // notify node change
runUpdates(&node, false)
}
go func(deletedNode *models.Node, fromNode bool) { // notify of peer change
var err error
if fromNode {
err = mq.PublishDeletedNodePeerUpdate(deletedNode)
} else {
err = mq.PublishPeerUpdate()
}
if err != nil {
logger.Log(1, "error publishing peer update ", err.Error())
}
host, err := logic.GetHost(node.HostID.String())
if err != nil {
logger.Log(1, "failed to retrieve host for node", node.ID.String(), err.Error())
}
if err := mq.PublishDNSDelete(&node, host); err != nil {
logger.Log(1, "error publishing dns update", err.Error())
}
}(&node, fromNode)
}
func runUpdates(node *models.Node, ifaceDelta bool) {
go func() { // don't block http response
// publish node update if not server
if err := mq.NodeUpdate(node); err != nil {
logger.Log(1, "error publishing node update to node", node.ID.String(), err.Error())
}
}()
}
func updateRelay(oldnode, newnode *models.Node) {
relay := logic.FindRelay(oldnode)
newrelay := relay
//check if node's address has been updated and if so, update the relayAddrs of the relay node with the updated address of the relayed node
if oldnode.Address.String() != newnode.Address.String() {
for i, ip := range newrelay.RelayAddrs {
if ip == oldnode.Address.IP.String() {
newrelay.RelayAddrs = append(newrelay.RelayAddrs[:i], relay.RelayAddrs[i+1:]...)
newrelay.RelayAddrs = append(newrelay.RelayAddrs, newnode.Address.IP.String())
}
}
}
//check if node's address(v6) has been updated and if so, update the relayAddrs of the relay node with the updated address(v6) of the relayed node
if oldnode.Address6.String() != newnode.Address6.String() {
for i, ip := range newrelay.RelayAddrs {
if ip == oldnode.Address.IP.String() {
newrelay.RelayAddrs = append(newrelay.RelayAddrs[:i], newrelay.RelayAddrs[i+1:]...)
newrelay.RelayAddrs = append(newrelay.RelayAddrs, newnode.Address6.IP.String())
}
}
}
logic.UpdateNode(relay, newrelay)
}
func doesUserOwnNode(username, network, nodeID string) bool {
u, err := logic.GetUser(username)
if err != nil {
return false
}
if u.IsAdmin {
return true
}
netUser, err := pro.GetNetworkUser(network, promodels.NetworkUserID(u.UserName))
if err != nil {
return false
}
if netUser.AccessLevel == pro.NET_ADMIN {
return true
}
return logic.StringSliceContains(netUser.Nodes, nodeID)
}
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