// +build gotask package gotasks import ( "archive/zip" "encoding/xml" "fmt" "io" "log" "net/http" "os" "path" "path/filepath" "regexp" "strings" "text/template" "github.com/huin/goupnp" "github.com/huin/goupnp/scpd" "github.com/huin/goutil/codegen" "github.com/jingweno/gotask/tasking" ) var ( deviceURNPrefix = "urn:schemas-upnp-org:device:" serviceURNPrefix = "urn:schemas-upnp-org:service:" ) // DCP contains extra metadata to use when generating DCP source files. type DCPMetadata struct { Name string // What to name the Go DCP package. OfficialName string // Official name for the DCP. DocURL string // Optional - URL for further documentation about the DCP. XMLSpecURL string // Where to download the XML spec from. // Any special-case functions to run against the DCP before writing it out. Hacks []DCPHackFn } var dcpMetadata = []DCPMetadata{ { Name: "internetgateway1", OfficialName: "Internet Gateway Device v1", DocURL: "http://upnp.org/specs/gw/UPnP-gw-InternetGatewayDevice-v1-Device.pdf", XMLSpecURL: "http://upnp.org/specs/gw/UPnP-gw-IGD-TestFiles-20010921.zip", Hacks: []DCPHackFn{ func(dcp *DCP) error { for _, service := range dcp.Services { if service.URN == "urn:schemas-upnp-org:service:WANCommonInterfaceConfig:1" { variables := service.SCPD.StateVariables for key, variable := range variables { varName := variable.Name if varName == "TotalBytesSent" || varName == "TotalBytesReceived" { // Fix size of total bytes which is by default ui4 or maximum 4 GiB. variable.DataType.Name = "ui8" variables[key] = variable } } break } } return nil }, }, }, { Name: "internetgateway2", OfficialName: "Internet Gateway Device v2", DocURL: "http://upnp.org/specs/gw/UPnP-gw-InternetGatewayDevice-v2-Device.pdf", XMLSpecURL: "http://upnp.org/specs/gw/UPnP-gw-IGD-Testfiles-20110224.zip", Hacks: []DCPHackFn{ func(dcp *DCP) error { missingURN := "urn:schemas-upnp-org:service:WANIPv6FirewallControl:1" if _, ok := dcp.ServiceTypes[missingURN]; ok { return nil } urnParts, err := extractURNParts(missingURN, serviceURNPrefix) if err != nil { return err } dcp.ServiceTypes[missingURN] = urnParts return nil }, }, }, { Name: "av1", OfficialName: "MediaServer v1 and MediaRenderer v1", DocURL: "http://upnp.org/specs/av/av1/", XMLSpecURL: "http://upnp.org/specs/av/UPnP-av-TestFiles-20070927.zip", }, } type DCPHackFn func(*DCP) error // NAME // specgen - generates Go code from the UPnP specification files. // // DESCRIPTION // The specification is available for download from: // // OPTIONS // -s, --specs_dir= // Path to the specification storage directory. This is used to find (and download if not present) the specification ZIP files. Defaults to 'specs' // -o, --out_dir= // Path to the output directory. This is is where the DCP source files will be placed. Should normally correspond to the directory for github.com/huin/goupnp/dcps. Defaults to '../dcps' // --nogofmt // Disable passing the output through gofmt. Do this if debugging code output problems and needing to see the generated code prior to being passed through gofmt. func TaskSpecgen(t *tasking.T) { specsDir := fallbackStrValue("specs", t.Flags.String("specs_dir"), t.Flags.String("s")) if err := os.MkdirAll(specsDir, os.ModePerm); err != nil { t.Fatalf("Could not create specs-dir %q: %v\n", specsDir, err) } outDir := fallbackStrValue("../dcps", t.Flags.String("out_dir"), t.Flags.String("o")) useGofmt := !t.Flags.Bool("nogofmt") NEXT_DCP: for _, d := range dcpMetadata { specFilename := filepath.Join(specsDir, d.Name+".zip") err := acquireFile(specFilename, d.XMLSpecURL) if err != nil { t.Logf("Could not acquire spec for %s, skipping: %v\n", d.Name, err) continue NEXT_DCP } dcp := newDCP(d) if err := dcp.processZipFile(specFilename); err != nil { log.Printf("Error processing spec for %s in file %q: %v", d.Name, specFilename, err) continue NEXT_DCP } for i, hack := range d.Hacks { if err := hack(dcp); err != nil { log.Printf("Error with Hack[%d] for %s: %v", i, d.Name, err) continue NEXT_DCP } } dcp.writePackage(outDir, useGofmt) if err := dcp.writePackage(outDir, useGofmt); err != nil { log.Printf("Error writing package %q: %v", dcp.Metadata.Name, err) continue NEXT_DCP } } } func fallbackStrValue(defaultValue string, values ...string) string { for _, v := range values { if v != "" { return v } } return defaultValue } func acquireFile(specFilename string, xmlSpecURL string) error { if f, err := os.Open(specFilename); err != nil { if !os.IsNotExist(err) { return err } } else { f.Close() return nil } resp, err := http.Get(xmlSpecURL) if err != nil { return err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return fmt.Errorf("could not download spec %q from %q: ", specFilename, xmlSpecURL, resp.Status) } tmpFilename := specFilename + ".download" w, err := os.Create(tmpFilename) if err != nil { return err } defer w.Close() _, err = io.Copy(w, resp.Body) if err != nil { return err } return os.Rename(tmpFilename, specFilename) } // DCP collects together information about a UPnP Device Control Protocol. type DCP struct { Metadata DCPMetadata DeviceTypes map[string]*URNParts ServiceTypes map[string]*URNParts Services []SCPDWithURN } func newDCP(metadata DCPMetadata) *DCP { return &DCP{ Metadata: metadata, DeviceTypes: make(map[string]*URNParts), ServiceTypes: make(map[string]*URNParts), } } func (dcp *DCP) processZipFile(filename string) error { archive, err := zip.OpenReader(filename) if err != nil { return fmt.Errorf("error reading zip file %q: %v", filename, err) } defer archive.Close() for _, deviceFile := range globFiles("*/device/*.xml", archive) { if err := dcp.processDeviceFile(deviceFile); err != nil { return err } } for _, scpdFile := range globFiles("*/service/*.xml", archive) { if err := dcp.processSCPDFile(scpdFile); err != nil { return err } } return nil } func (dcp *DCP) processDeviceFile(file *zip.File) error { var device goupnp.Device if err := unmarshalXmlFile(file, &device); err != nil { return fmt.Errorf("error decoding device XML from file %q: %v", file.Name, err) } var mainErr error device.VisitDevices(func(d *goupnp.Device) { t := strings.TrimSpace(d.DeviceType) if t != "" { u, err := extractURNParts(t, deviceURNPrefix) if err != nil { mainErr = err } dcp.DeviceTypes[t] = u } }) device.VisitServices(func(s *goupnp.Service) { u, err := extractURNParts(s.ServiceType, serviceURNPrefix) if err != nil { mainErr = err } dcp.ServiceTypes[s.ServiceType] = u }) return mainErr } func (dcp *DCP) writePackage(outDir string, useGofmt bool) error { packageDirname := filepath.Join(outDir, dcp.Metadata.Name) err := os.MkdirAll(packageDirname, os.ModePerm) if err != nil && !os.IsExist(err) { return err } packageFilename := filepath.Join(packageDirname, dcp.Metadata.Name+".go") packageFile, err := os.Create(packageFilename) if err != nil { return err } var output io.WriteCloser = packageFile if useGofmt { if output, err = codegen.NewGofmtWriteCloser(output); err != nil { packageFile.Close() return err } } if err = packageTmpl.Execute(output, dcp); err != nil { output.Close() return err } return output.Close() } func (dcp *DCP) processSCPDFile(file *zip.File) error { scpd := new(scpd.SCPD) if err := unmarshalXmlFile(file, scpd); err != nil { return fmt.Errorf("error decoding SCPD XML from file %q: %v", file.Name, err) } scpd.Clean() urnParts, err := urnPartsFromSCPDFilename(file.Name) if err != nil { return fmt.Errorf("could not recognize SCPD filename %q: %v", file.Name, err) } dcp.Services = append(dcp.Services, SCPDWithURN{ URNParts: urnParts, SCPD: scpd, }) return nil } type SCPDWithURN struct { *URNParts SCPD *scpd.SCPD } func (s *SCPDWithURN) WrapArguments(args []*scpd.Argument) (argumentWrapperList, error) { wrappedArgs := make(argumentWrapperList, len(args)) for i, arg := range args { wa, err := s.wrapArgument(arg) if err != nil { return nil, err } wrappedArgs[i] = wa } return wrappedArgs, nil } func (s *SCPDWithURN) wrapArgument(arg *scpd.Argument) (*argumentWrapper, error) { relVar := s.SCPD.GetStateVariable(arg.RelatedStateVariable) if relVar == nil { return nil, fmt.Errorf("no such state variable: %q, for argument %q", arg.RelatedStateVariable, arg.Name) } cnv, ok := typeConvs[relVar.DataType.Name] if !ok { return nil, fmt.Errorf("unknown data type: %q, for state variable %q, for argument %q", relVar.DataType.Type, arg.RelatedStateVariable, arg.Name) } return &argumentWrapper{ Argument: *arg, relVar: relVar, conv: cnv, }, nil } type argumentWrapper struct { scpd.Argument relVar *scpd.StateVariable conv conv } func (arg *argumentWrapper) AsParameter() string { return fmt.Sprintf("%s %s", arg.Name, arg.conv.ExtType) } func (arg *argumentWrapper) HasDoc() bool { rng := arg.relVar.AllowedValueRange return ((rng != nil && (rng.Minimum != "" || rng.Maximum != "" || rng.Step != "")) || len(arg.relVar.AllowedValues) > 0) } func (arg *argumentWrapper) Document() string { relVar := arg.relVar if rng := relVar.AllowedValueRange; rng != nil { var parts []string if rng.Minimum != "" { parts = append(parts, fmt.Sprintf("minimum=%s", rng.Minimum)) } if rng.Maximum != "" { parts = append(parts, fmt.Sprintf("maximum=%s", rng.Maximum)) } if rng.Step != "" { parts = append(parts, fmt.Sprintf("step=%s", rng.Step)) } return "allowed value range: " + strings.Join(parts, ", ") } if len(relVar.AllowedValues) != 0 { return "allowed values: " + strings.Join(relVar.AllowedValues, ", ") } return "" } func (arg *argumentWrapper) Marshal() string { return fmt.Sprintf("soap.Marshal%s(%s)", arg.conv.FuncSuffix, arg.Name) } func (arg *argumentWrapper) Unmarshal(objVar string) string { return fmt.Sprintf("soap.Unmarshal%s(%s.%s)", arg.conv.FuncSuffix, objVar, arg.Name) } type argumentWrapperList []*argumentWrapper func (args argumentWrapperList) HasDoc() bool { for _, arg := range args { if arg.HasDoc() { return true } } return false } type conv struct { FuncSuffix string ExtType string } // typeConvs maps from a SOAP type (e.g "fixed.14.4") to the function name // suffix inside the soap module (e.g "Fixed14_4") and the Go type. var typeConvs = map[string]conv{ "ui1": conv{"Ui1", "uint8"}, "ui2": conv{"Ui2", "uint16"}, "ui4": conv{"Ui4", "uint32"}, "ui8": conv{"Ui8", "uint64"}, "i1": conv{"I1", "int8"}, "i2": conv{"I2", "int16"}, "i4": conv{"I4", "int32"}, "int": conv{"Int", "int64"}, "r4": conv{"R4", "float32"}, "r8": conv{"R8", "float64"}, "number": conv{"R8", "float64"}, // Alias for r8. "fixed.14.4": conv{"Fixed14_4", "float64"}, "float": conv{"R8", "float64"}, "char": conv{"Char", "rune"}, "string": conv{"String", "string"}, "date": conv{"Date", "time.Time"}, "dateTime": conv{"DateTime", "time.Time"}, "dateTime.tz": conv{"DateTimeTz", "time.Time"}, "time": conv{"TimeOfDay", "soap.TimeOfDay"}, "time.tz": conv{"TimeOfDayTz", "soap.TimeOfDay"}, "boolean": conv{"Boolean", "bool"}, "bin.base64": conv{"BinBase64", "[]byte"}, "bin.hex": conv{"BinHex", "[]byte"}, "uri": conv{"URI", "*url.URL"}, } func globFiles(pattern string, archive *zip.ReadCloser) []*zip.File { var files []*zip.File for _, f := range archive.File { if matched, err := path.Match(pattern, f.Name); err != nil { // This shouldn't happen - all patterns are hard-coded, errors in them // are a programming error. panic(err) } else if matched { files = append(files, f) } } return files } func unmarshalXmlFile(file *zip.File, data interface{}) error { r, err := file.Open() if err != nil { return err } decoder := xml.NewDecoder(r) defer r.Close() return decoder.Decode(data) } type URNParts struct { URN string Name string Version string } func (u *URNParts) Const() string { return fmt.Sprintf("URN_%s_%s", u.Name, u.Version) } // extractURNParts extracts the name and version from a URN string. func extractURNParts(urn, expectedPrefix string) (*URNParts, error) { if !strings.HasPrefix(urn, expectedPrefix) { return nil, fmt.Errorf("%q does not have expected prefix %q", urn, expectedPrefix) } parts := strings.SplitN(strings.TrimPrefix(urn, expectedPrefix), ":", 2) if len(parts) != 2 { return nil, fmt.Errorf("%q does not have a name and version", urn) } name, version := parts[0], parts[1] return &URNParts{urn, name, version}, nil } var scpdFilenameRe = regexp.MustCompile( `.*/([a-zA-Z0-9]+)([0-9]+)\.xml`) func urnPartsFromSCPDFilename(filename string) (*URNParts, error) { parts := scpdFilenameRe.FindStringSubmatch(filename) if len(parts) != 3 { return nil, fmt.Errorf("SCPD filename %q does not have expected number of parts", filename) } name, version := parts[1], parts[2] return &URNParts{ URN: serviceURNPrefix + name + ":" + version, Name: name, Version: version, }, nil } var packageTmpl = template.Must(template.New("package").Parse(`{{$name := .Metadata.Name}} // Client for UPnP Device Control Protocol {{.Metadata.OfficialName}}. // {{if .Metadata.DocURL}} // This DCP is documented in detail at: {{.Metadata.DocURL}}{{end}} // // Typically, use one of the New* functions to create clients for services. package {{$name}} // *********************************************************** // GENERATED FILE - DO NOT EDIT BY HAND. See README.md // *********************************************************** import ( "net/url" "time" "github.com/huin/goupnp" "github.com/huin/goupnp/soap" ) // Hack to avoid Go complaining if time isn't used. var _ time.Time // Device URNs: const ({{range .DeviceTypes}} {{.Const}} = "{{.URN}}"{{end}} ) // Service URNs: const ({{range .ServiceTypes}} {{.Const}} = "{{.URN}}"{{end}} ) {{range .Services}} {{$srv := .}} {{$srvIdent := printf "%s%s" .Name .Version}} // {{$srvIdent}} is a client for UPnP SOAP service with URN "{{.URN}}". See // goupnp.ServiceClient, which contains RootDevice and Service attributes which // are provided for informational value. type {{$srvIdent}} struct { goupnp.ServiceClient } // New{{$srvIdent}}Clients discovers instances of the service on the network, // and returns clients to any that are found. errors will contain an error for // any devices that replied but which could not be queried, and err will be set // if the discovery process failed outright. // // This is a typical entry calling point into this package. func New{{$srvIdent}}Clients() (clients []*{{$srvIdent}}, errors []error, err error) { var genericClients []goupnp.ServiceClient if genericClients, errors, err = goupnp.NewServiceClients({{$srv.Const}}); err != nil { return } clients = new{{$srvIdent}}ClientsFromGenericClients(genericClients) return } // New{{$srvIdent}}ClientsByURL discovers instances of the service at the given // URL, and returns clients to any that are found. An error is returned if // there was an error probing the service. // // This is a typical entry calling point into this package when reusing an // previously discovered service URL. func New{{$srvIdent}}ClientsByURL(loc *url.URL) ([]*{{$srvIdent}}, error) { genericClients, err := goupnp.NewServiceClientsByURL(loc, {{$srv.Const}}) if err != nil { return nil, err } return new{{$srvIdent}}ClientsFromGenericClients(genericClients), nil } // New{{$srvIdent}}ClientsFromRootDevice discovers instances of the service in // a given root device, and returns clients to any that are found. An error is // returned if there was not at least one instance of the service within the // device. The location parameter is simply assigned to the Location attribute // of the wrapped ServiceClient(s). // // This is a typical entry calling point into this package when reusing an // previously discovered root device. func New{{$srvIdent}}ClientsFromRootDevice(rootDevice *goupnp.RootDevice, loc *url.URL) ([]*{{$srvIdent}}, error) { genericClients, err := goupnp.NewServiceClientsFromRootDevice(rootDevice, loc, {{$srv.Const}}) if err != nil { return nil, err } return new{{$srvIdent}}ClientsFromGenericClients(genericClients), nil } func new{{$srvIdent}}ClientsFromGenericClients(genericClients []goupnp.ServiceClient) []*{{$srvIdent}} { clients := make([]*{{$srvIdent}}, len(genericClients)) for i := range genericClients { clients[i] = &{{$srvIdent}}{genericClients[i]} } return clients } {{range .SCPD.Actions}}{{/* loops over *SCPDWithURN values */}} {{$winargs := $srv.WrapArguments .InputArguments}} {{$woutargs := $srv.WrapArguments .OutputArguments}} {{if $winargs.HasDoc}} // // Arguments:{{range $winargs}}{{if .HasDoc}} // // * {{.Name}}: {{.Document}}{{end}}{{end}}{{end}} {{if $woutargs.HasDoc}} // // Return values:{{range $woutargs}}{{if .HasDoc}} // // * {{.Name}}: {{.Document}}{{end}}{{end}}{{end}} func (client *{{$srvIdent}}) {{.Name}}({{range $winargs -}} {{.AsParameter}}, {{end -}} ) ({{range $woutargs -}} {{.AsParameter}}, {{end}} err error) { // Request structure. request := {{if $winargs}}&{{template "argstruct" $winargs}}{{"{}"}}{{else}}{{"interface{}(nil)"}}{{end}} // BEGIN Marshal arguments into request. {{range $winargs}} if request.{{.Name}}, err = {{.Marshal}}; err != nil { return }{{end}} // END Marshal arguments into request. // Response structure. response := {{if $woutargs}}&{{template "argstruct" $woutargs}}{{"{}"}}{{else}}{{"interface{}(nil)"}}{{end}} // Perform the SOAP call. if err = client.SOAPClient.PerformAction({{$srv.URNParts.Const}}, "{{.Name}}", request, response); err != nil { return } // BEGIN Unmarshal arguments from response. {{range $woutargs}} if {{.Name}}, err = {{.Unmarshal "response"}}; err != nil { return }{{end}} // END Unmarshal arguments from response. return } {{end}} {{end}} {{define "argstruct"}}struct {{"{"}}{{range .}} {{.Name}} string {{end}}{{"}"}}{{end}} `))