package main import ( "flag" "fmt" "os" "sync" "time" "github.com/coreos/coreos-cloudinit/datasource" "github.com/coreos/coreos-cloudinit/initialize" "github.com/coreos/coreos-cloudinit/pkg" "github.com/coreos/coreos-cloudinit/system" ) const ( version = "0.8.2" datasourceInterval = 100 * time.Millisecond datasourceMaxInterval = 30 * time.Second datasourceTimeout = 5 * time.Minute ) var ( printVersion bool ignoreFailure bool sources struct { file string configDrive string metadataService bool url string procCmdLine bool } convertNetconf string workspace string sshKeyName string ) func init() { flag.BoolVar(&printVersion, "version", false, "Print the version and exit") flag.BoolVar(&ignoreFailure, "ignore-failure", false, "Exits with 0 status in the event of malformed input from user-data") flag.StringVar(&sources.file, "from-file", "", "Read user-data from provided file") flag.StringVar(&sources.configDrive, "from-configdrive", "", "Read data from provided cloud-drive directory") flag.BoolVar(&sources.metadataService, "from-metadata-service", false, "Download data from metadata service") flag.StringVar(&sources.url, "from-url", "", "Download user-data from provided url") flag.BoolVar(&sources.procCmdLine, "from-proc-cmdline", false, fmt.Sprintf("Parse %s for '%s=', using the cloud-config served by an HTTP GET to ", datasource.ProcCmdlineLocation, datasource.ProcCmdlineCloudConfigFlag)) flag.StringVar(&convertNetconf, "convert-netconf", "", "Read the network config provided in cloud-drive and translate it from the specified format into networkd unit files (requires the -from-configdrive flag)") flag.StringVar(&workspace, "workspace", "/var/lib/coreos-cloudinit", "Base directory coreos-cloudinit should use to store data") flag.StringVar(&sshKeyName, "ssh-key-name", initialize.DefaultSSHKeyName, "Add SSH keys to the system with the given name") } func main() { flag.Parse() die := func() { if ignoreFailure { os.Exit(0) } os.Exit(1) } if printVersion == true { fmt.Printf("coreos-cloudinit version %s\n", version) os.Exit(0) } if convertNetconf != "" && sources.configDrive == "" { fmt.Println("-convert-netconf flag requires -from-configdrive") os.Exit(1) } switch convertNetconf { case "": case "debian": default: fmt.Printf("Invalid option to -convert-netconf: '%s'. Supported options: 'debian'\n", convertNetconf) os.Exit(1) } dss := getDatasources() if len(dss) == 0 { fmt.Println("Provide at least one of --from-file, --from-configdrive, --from-metadata-service, --from-url or --from-proc-cmdline") os.Exit(1) } ds := selectDatasource(dss) if ds == nil { fmt.Println("No datasources available in time") die() } fmt.Printf("Fetching user-data from datasource of type %q\n", ds.Type()) userdataBytes, err := ds.FetchUserdata() if err != nil { fmt.Printf("Failed fetching user-data from datasource: %v\n", err) die() } fmt.Printf("Fetching meta-data from datasource of type %q\n", ds.Type()) metadataBytes, err := ds.FetchMetadata() if err != nil { fmt.Printf("Failed fetching meta-data from datasource: %v\n", err) die() } // Extract IPv4 addresses from metadata if possible var subs map[string]string if len(metadataBytes) > 0 { subs, err = initialize.ExtractIPsFromMetadata(metadataBytes) if err != nil { fmt.Printf("Failed extracting IPs from meta-data: %v\n", err) die() } } env := initialize.NewEnvironment("/", ds.ConfigRoot(), workspace, convertNetconf, sshKeyName, subs) var ccm, ccu *initialize.CloudConfig var script *system.Script if ccm, err = initialize.ParseMetaData(string(metadataBytes)); err != nil { fmt.Printf("Failed to parse meta-data: %v\n", err) die() } if ud, err := initialize.ParseUserData(string(userdataBytes)); err != nil { fmt.Printf("Failed to parse user-data: %v\n", err) die() } else { switch t := ud.(type) { case *initialize.CloudConfig: ccu = t case system.Script: script = &t } } var cc *initialize.CloudConfig if ccm != nil && ccu != nil { fmt.Println("Merging cloud-config from meta-data and user-data") merged := mergeCloudConfig(*ccu, *ccm) cc = &merged } else if ccm != nil && ccu == nil { fmt.Println("Processing cloud-config from meta-data") cc = ccm } else if ccm == nil && ccu != nil { fmt.Println("Processing cloud-config from user-data") cc = ccu } else { fmt.Println("No cloud-config data to handle.") } if cc != nil { if err = initialize.Apply(*cc, env); err != nil { fmt.Printf("Failed to apply cloud-config: %v\n", err) die() } } if script != nil { if err = runScript(*script, env); err != nil { fmt.Printf("Failed to run script: %v\n", err) die() } } } // mergeCloudConfig merges certain options from mdcc (a CloudConfig derived from // meta-data) onto udcc (a CloudConfig derived from user-data), if they are // not already set on udcc (i.e. user-data always takes precedence) // NB: This needs to be kept in sync with ParseMetadata so that it tracks all // elements of a CloudConfig which that function can populate. func mergeCloudConfig(mdcc, udcc initialize.CloudConfig) (cc initialize.CloudConfig) { if mdcc.Hostname != "" { if udcc.Hostname != "" { fmt.Printf("Warning: user-data hostname (%s) overrides metadata hostname (%s)", udcc.Hostname, mdcc.Hostname) } else { udcc.Hostname = mdcc.Hostname } } for _, key := range mdcc.SSHAuthorizedKeys { udcc.SSHAuthorizedKeys = append(udcc.SSHAuthorizedKeys, key) } if mdcc.NetworkConfigPath != "" { if udcc.NetworkConfigPath != "" { fmt.Printf("Warning: user-data NetworkConfigPath %s overrides metadata NetworkConfigPath %s", udcc.NetworkConfigPath, mdcc.NetworkConfigPath) } else { udcc.NetworkConfigPath = mdcc.NetworkConfigPath } } return udcc } // getDatasources creates a slice of possible Datasources for cloudinit based // on the different source command-line flags. func getDatasources() []datasource.Datasource { dss := make([]datasource.Datasource, 0, 5) if sources.file != "" { dss = append(dss, datasource.NewLocalFile(sources.file)) } if sources.url != "" { dss = append(dss, datasource.NewRemoteFile(sources.url)) } if sources.configDrive != "" { dss = append(dss, datasource.NewConfigDrive(sources.configDrive)) } if sources.metadataService { dss = append(dss, datasource.NewMetadataService()) } if sources.procCmdLine { dss = append(dss, datasource.NewProcCmdline()) } return dss } // selectDatasource attempts to choose a valid Datasource to use based on its // current availability. The first Datasource to report to be available is // returned. Datasources will be retried if possible if they are not // immediately available. If all Datasources are permanently unavailable or // datasourceTimeout is reached before one becomes available, nil is returned. func selectDatasource(sources []datasource.Datasource) datasource.Datasource { ds := make(chan datasource.Datasource) stop := make(chan struct{}) var wg sync.WaitGroup for _, s := range sources { wg.Add(1) go func(s datasource.Datasource) { defer wg.Done() duration := datasourceInterval for { fmt.Printf("Checking availability of %q\n", s.Type()) if s.IsAvailable() { ds <- s return } else if !s.AvailabilityChanges() { return } select { case <-stop: return case <-time.Tick(duration): duration = pkg.ExpBackoff(duration, datasourceMaxInterval) } } }(s) } done := make(chan struct{}) go func() { wg.Wait() close(done) }() var s datasource.Datasource select { case s = <-ds: case <-done: case <-time.Tick(datasourceTimeout): } close(stop) return s } // TODO(jonboulle): this should probably be refactored and moved into a different module func runScript(script system.Script, env *initialize.Environment) error { err := initialize.PrepWorkspace(env.Workspace()) if err != nil { fmt.Printf("Failed preparing workspace: %v\n", err) return err } path, err := initialize.PersistScriptInWorkspace(script, env.Workspace()) if err == nil { var name string name, err = system.ExecuteScript(path) initialize.PersistUnitNameInWorkspace(name, env.Workspace()) } return err }