package scpd import ( "encoding/xml" "strings" ) const ( SCPDXMLNamespace = "urn:schemas-upnp-org:service-1-0" ) func cleanWhitespace(s *string) { *s = strings.TrimSpace(*s) } // SCPD is the service description as described by section 2.5 "Service // description" in // http://upnp.org/specs/arch/UPnP-arch-DeviceArchitecture-v1.1.pdf type SCPD struct { XMLName xml.Name `xml:"scpd"` ConfigId string `xml:"configId,attr"` SpecVersion SpecVersion `xml:"specVersion"` Actions []Action `xml:"actionList>action"` StateVariables []StateVariable `xml:"serviceStateTable>stateVariable"` } // Clean attempts to remove stray whitespace etc. in the structure. It seems // unfortunately common for stray whitespace to be present in SCPD documents, // this method attempts to make it easy to clean them out. func (scpd *SCPD) Clean() { cleanWhitespace(&scpd.ConfigId) for i := range scpd.Actions { scpd.Actions[i].clean() } for i := range scpd.StateVariables { scpd.StateVariables[i].clean() } } func (scpd *SCPD) GetStateVariable(variable string) *StateVariable { for i := range scpd.StateVariables { v := &scpd.StateVariables[i] if v.Name == variable { return v } } return nil } func (scpd *SCPD) GetAction(action string) *Action { for i := range scpd.Actions { a := &scpd.Actions[i] if a.Name == action { return a } } return nil } // SpecVersion is part of a SCPD document, describes the version of the // specification that the data adheres to. type SpecVersion struct { Major int32 `xml:"major"` Minor int32 `xml:"minor"` } type Action struct { Name string `xml:"name"` Arguments []Argument `xml:"argumentList>argument"` } func (action *Action) clean() { cleanWhitespace(&action.Name) for i := range action.Arguments { action.Arguments[i].clean() } } func (action *Action) InputArguments() []*Argument { var result []*Argument for i := range action.Arguments { arg := &action.Arguments[i] if arg.IsInput() { result = append(result, arg) } } return result } func (action *Action) OutputArguments() []*Argument { var result []*Argument for i := range action.Arguments { arg := &action.Arguments[i] if arg.IsOutput() { result = append(result, arg) } } return result } type Argument struct { Name string `xml:"name"` Direction string `xml:"direction"` // in|out RelatedStateVariable string `xml:"relatedStateVariable"` // ? Retval string `xml:"retval"` // ? } func (arg *Argument) clean() { cleanWhitespace(&arg.Name) cleanWhitespace(&arg.Direction) cleanWhitespace(&arg.RelatedStateVariable) cleanWhitespace(&arg.Retval) } func (arg *Argument) IsInput() bool { return arg.Direction == "in" } func (arg *Argument) IsOutput() bool { return arg.Direction == "out" } type StateVariable struct { Name string `xml:"name"` SendEvents string `xml:"sendEvents,attr"` // yes|no Multicast string `xml:"multicast,attr"` // yes|no DataType DataType `xml:"dataType"` DefaultValue string `xml:"defaultValue"` AllowedValueRange *AllowedValueRange `xml:"allowedValueRange"` AllowedValues []string `xml:"allowedValueList>allowedValue"` } func (v *StateVariable) clean() { cleanWhitespace(&v.Name) cleanWhitespace(&v.SendEvents) cleanWhitespace(&v.Multicast) v.DataType.clean() cleanWhitespace(&v.DefaultValue) if v.AllowedValueRange != nil { v.AllowedValueRange.clean() } for i := range v.AllowedValues { cleanWhitespace(&v.AllowedValues[i]) } } type AllowedValueRange struct { Minimum string `xml:"minimum"` Maximum string `xml:"maximum"` Step string `xml:"step"` } func (r *AllowedValueRange) clean() { cleanWhitespace(&r.Minimum) cleanWhitespace(&r.Maximum) cleanWhitespace(&r.Step) } type DataType struct { Name string `xml:",chardata"` Type string `xml:"type,attr"` } func (dt *DataType) clean() { cleanWhitespace(&dt.Name) cleanWhitespace(&dt.Type) }