// libmgmt example package main import ( "fmt" "log" "os" "os/signal" "sync" "syscall" "time" "github.com/purpleidea/mgmt/gapi" mgmt "github.com/purpleidea/mgmt/lib" "github.com/purpleidea/mgmt/pgraph" "github.com/purpleidea/mgmt/resources" "github.com/purpleidea/mgmt/yamlgraph" "github.com/urfave/cli" ) // XXX: this has not been updated to latest GAPI/Deploy API. Patches welcome! const ( // Name is the name of this frontend. Name = "libmgmt" ) // MyGAPI implements the main GAPI interface. type MyGAPI struct { Name string // graph name Interval uint // refresh interval, 0 to never refresh data gapi.Data initialized bool closeChan chan struct{} wg sync.WaitGroup // sync group for tunnel go routines } // NewMyGAPI creates a new MyGAPI struct and calls Init(). func NewMyGAPI(data gapi.Data, name string, interval uint) (*MyGAPI, error) { obj := &MyGAPI{ Name: name, Interval: interval, } return obj, obj.Init(data) } // Cli takes a cli.Context, and returns our GAPI if activated. All arguments // should take the prefix of the registered name. On activation, if there are // any validation problems, you should return an error. If this was not // activated, then you should return a nil GAPI and a nil error. func (obj *MyGAPI) Cli(c *cli.Context, fs resources.Fs) (*gapi.Deploy, error) { if s := c.String(obj.Name); c.IsSet(obj.Name) { if s != "" { return nil, fmt.Errorf("input is not empty") } return &gapi.Deploy{ Name: obj.Name, Noop: c.GlobalBool("noop"), Sema: c.GlobalInt("sema"), GAPI: &MyGAPI{ // TODO: add properties here... }, }, nil } return nil, nil // we weren't activated! } // CliFlags returns a list of flags used by this deploy subcommand. func (obj *MyGAPI) CliFlags() []cli.Flag { return []cli.Flag{ cli.StringFlag{ Name: obj.Name, Value: "", Usage: "run", }, } } // Init initializes the MyGAPI struct. func (obj *MyGAPI) Init(data gapi.Data) error { if obj.initialized { return fmt.Errorf("already initialized") } if obj.Name == "" { return fmt.Errorf("the graph name must be specified") } obj.data = data // store for later obj.closeChan = make(chan struct{}) obj.initialized = true return nil } // Graph returns a current Graph. func (obj *MyGAPI) Graph() (*pgraph.Graph, error) { if !obj.initialized { return nil, fmt.Errorf("%s: MyGAPI is not initialized", Name) } n1, err := resources.NewNamedResource("noop", "noop1") if err != nil { return nil, err } // NOTE: This is considered the legacy method to build graphs. Avoid // importing the legacy `yamlgraph` lib if possible for custom graphs. // we can still build a graph via the yaml method gc := &yamlgraph.GraphConfig{ Graph: obj.Name, Resources: yamlgraph.Resources{ // must redefine anonymous struct :( // in alphabetical order Exec: []*resources.ExecRes{}, File: []*resources.FileRes{}, Msg: []*resources.MsgRes{}, Noop: []*resources.NoopRes{n1.(*resources.NoopRes)}, Pkg: []*resources.PkgRes{}, Svc: []*resources.SvcRes{}, Timer: []*resources.TimerRes{}, Virt: []*resources.VirtRes{}, }, //Collector: []collectorResConfig{}, //Edges: []Edge{}, Comment: "comment!", } g, err := gc.NewGraphFromConfig(obj.data.Hostname, obj.data.World, obj.data.Noop) return g, err } // Next returns nil errors every time there could be a new graph. func (obj *MyGAPI) Next() chan gapi.Next { ch := make(chan gapi.Next) obj.wg.Add(1) go func() { defer obj.wg.Done() defer close(ch) // this will run before the obj.wg.Done() if !obj.initialized { next := gapi.Next{ Err: fmt.Errorf("%s: MyGAPI is not initialized", Name), Exit: true, // exit, b/c programming error? } ch <- next } startChan := make(chan struct{}) // start signal close(startChan) // kick it off! ticker := make(<-chan time.Time) if obj.data.NoStreamWatch || obj.Interval <= 0 { ticker = nil } else { // arbitrarily change graph every interval seconds t := time.NewTicker(time.Duration(obj.Interval) * time.Second) defer t.Stop() ticker = t.C } for { select { case <-startChan: // kick the loop once at start startChan = nil // disable // pass case <-ticker: // pass case <-obj.closeChan: return } log.Printf("%s: Generating new graph...", Name) select { case ch <- gapi.Next{}: // trigger a run case <-obj.closeChan: return } } }() return ch } // Close shuts down the MyGAPI. func (obj *MyGAPI) Close() error { if !obj.initialized { return fmt.Errorf("%s: MyGAPI is not initialized", Name) } close(obj.closeChan) obj.wg.Wait() obj.initialized = false // closed = true return nil } // Run runs an embedded mgmt server. func Run() error { obj := &mgmt.Main{} obj.Program = "libmgmt" // TODO: set on compilation obj.Version = "0.0.1" // TODO: set on compilation obj.TmpPrefix = true obj.IdealClusterSize = -1 obj.ConvergedTimeout = -1 obj.Noop = true //obj.GAPI = &MyGAPI{ // graph API // Name: "libmgmt", // TODO: set on compilation // Interval: 15, // arbitrarily change graph every 15 seconds //} if err := obj.Init(); err != nil { return err } // install the exit signal handler exit := make(chan struct{}) defer close(exit) go func() { signals := make(chan os.Signal, 1) signal.Notify(signals, os.Interrupt) // catch ^C //signal.Notify(signals, os.Kill) // catch signals signal.Notify(signals, syscall.SIGTERM) select { case sig := <-signals: // any signal will do if sig == os.Interrupt { log.Println("Interrupted by ^C") obj.Exit(nil) return } log.Println("Interrupted by signal") obj.Exit(fmt.Errorf("killed by %v", sig)) return case <-exit: return } }() return obj.Run() } func main() { log.Printf("Hello!") if err := Run(); err != nil { fmt.Println(err) os.Exit(1) return } log.Printf("Goodbye!") }