package models import ( "encoding/json" "log" "os" "sync" "time" "github.com/FreifunkBremen/respond-collector/data" "github.com/FreifunkBremen/respond-collector/jsontime" "github.com/FreifunkBremen/respond-collector/meshviewer" ) // Nodes struct: cache DB of Node's structs type Nodes struct { Version int `json:"version"` Timestamp jsontime.Time `json:"timestamp"` List map[string]*Node `json:"nodes"` // the current nodemap, indexed by node ID config *Config sync.RWMutex } type GlobalStats struct { Nodes uint32 Clients uint32 ClientsWifi uint32 ClientsWifi24 uint32 ClientsWifi5 uint32 } // NewNodes create Nodes structs func NewNodes(config *Config) *Nodes { nodes := &Nodes{ List: make(map[string]*Node), config: config, } if config.Nodes.NodesPath != "" { nodes.load() } nodes.Version = 2 return nodes } func (nodes *Nodes) Start() { go nodes.worker() } // Update a Node func (nodes *Nodes) Update(nodeID string, res *data.ResponseData) *Node { now := jsontime.Now() nodes.Lock() node, _ := nodes.List[nodeID] if node == nil { node = &Node{ Firstseen: now, } nodes.List[nodeID] = node } nodes.Unlock() node.Lastseen = now node.Flags.Online = true // Update neighbours if val := res.Neighbours; val != nil { node.Neighbours = val } // Update nodeinfo if val := res.NodeInfo; val != nil { node.Nodeinfo = val node.Flags.Gateway = val.VPN } // Update statistics if val := res.Statistics; val != nil { // Update channel utilization if previous statistics are present if node.Statistics != nil && node.Statistics.Wireless != nil && val.Wireless != nil { val.Wireless.SetUtilization(node.Statistics.Wireless) } node.Statistics = val } return node } // GetNodesMini get meshviewer valide JSON func (nodes *Nodes) GetNodesMini() *meshviewer.Nodes { meshviewerNodes := &meshviewer.Nodes{ Version: 1, List: make(map[string]*meshviewer.Node), Timestamp: nodes.Timestamp, } for nodeID := range nodes.List { node, _ := meshviewerNodes.List[nodeID] nodeOrigin := nodes.List[nodeID] if node == nil { node = &meshviewer.Node{ Firstseen: nodeOrigin.Firstseen, Lastseen: nodeOrigin.Lastseen, Flags: nodeOrigin.Flags, Nodeinfo: nodeOrigin.Nodeinfo, } meshviewerNodes.List[nodeID] = node } // Calculate Total total := nodeOrigin.Statistics.Clients.Total if total == 0 { total = nodeOrigin.Statistics.Clients.Wifi24 + nodeOrigin.Statistics.Clients.Wifi5 } node.Statistics = &meshviewer.Statistics{ NodeId: nodeOrigin.Statistics.NodeId, Gateway: nodeOrigin.Statistics.Gateway, RootFsUsage: nodeOrigin.Statistics.RootFsUsage, LoadAverage: nodeOrigin.Statistics.LoadAverage, Memory: nodeOrigin.Statistics.Memory, Uptime: nodeOrigin.Statistics.Uptime, Idletime: nodeOrigin.Statistics.Idletime, Processes: nodeOrigin.Statistics.Processes, MeshVpn: nodeOrigin.Statistics.MeshVpn, Traffic: nodeOrigin.Statistics.Traffic, Clients: total, } } return meshviewerNodes } // Periodically saves the cached DB to json file func (nodes *Nodes) worker() { c := time.Tick(time.Second * time.Duration(nodes.config.Nodes.SaveInterval)) for range c { nodes.expire() nodes.save() } } // Expires nodes and set nodes offline func (nodes *Nodes) expire() { nodes.Timestamp = jsontime.Now() // Nodes last seen before expireTime will be removed maxAge := nodes.config.Nodes.MaxAge if maxAge <= 0 { maxAge = 7 // our default } expireTime := nodes.Timestamp.Add(-time.Duration(maxAge) * time.Hour * 24) // Nodes last seen before offlineTime are changed to 'offline' offlineTime := nodes.Timestamp.Add(-time.Minute * 10) // Locking foo nodes.Lock() defer nodes.Unlock() for id, node := range nodes.List { if node.Lastseen.Before(expireTime) { // expire delete(nodes.List, id) } else if node.Lastseen.Before(offlineTime) { // set to offline node.Flags.Online = false } } } func (nodes *Nodes) load() { path := nodes.config.Nodes.NodesPath if f, err := os.Open(path); err == nil { if err := json.NewDecoder(f).Decode(nodes); err == nil { log.Println("loaded", len(nodes.List), "nodes") } else { log.Println("failed to unmarshal nodes:", err) } } else { log.Println("failed to load cached nodes:", err) } } func (nodes *Nodes) save() { // Locking foo nodes.RLock() defer nodes.RUnlock() // serialize nodes save(nodes, nodes.config.Nodes.NodesPath) save(nodes.GetNodesMini(), nodes.config.Nodes.NodesMiniPath) if path := nodes.config.Nodes.GraphsPath; path != "" { save(nodes.BuildGraph(), path) } } // Returns global statistics for InfluxDB func (nodes *Nodes) GlobalStats() (result *GlobalStats) { result = &GlobalStats{} nodes.Lock() for _, node := range nodes.List { if node.Flags.Online { result.Nodes += 1 if stats := node.Statistics; stats != nil { result.Clients += stats.Clients.Total result.ClientsWifi24 += stats.Clients.Wifi24 result.ClientsWifi5 += stats.Clients.Wifi5 result.ClientsWifi += stats.Clients.Wifi } } } nodes.Unlock() return } // Returns fields for InfluxDB func (stats *GlobalStats) Fields() map[string]interface{} { return map[string]interface{}{ "nodes": stats.Nodes, "clients.total": stats.Clients, "clients.wifi": stats.ClientsWifi, "clients.wifi24": stats.ClientsWifi24, "clients.wifi5": stats.ClientsWifi5, } } // Marshals the input and writes it into the given file func save(input interface{}, outputFile string) { tmpFile := outputFile + ".tmp" f, err := os.OpenFile(tmpFile, os.O_WRONLY|os.O_CREATE|os.O_TRUNC, 0644) if err != nil { log.Panic(err) } err = json.NewEncoder(f).Encode(input) if err != nil { log.Panic(err) } f.Close() if err := os.Rename(tmpFile, outputFile); err != nil { log.Panic(err) } }