/* * bridge.go * GoHue library for Philips Hue * Copyright (C) 2016 Collin Guarino (Collinux) collin.guarino@gmail.com * License: GPL version 2 or higher http://www.gnu.org/licenses/gpl.html */ // All things start with the bridge. You will find many Bridge.Func() items // to use once a bridge has been created and identified. // See the getting started guide on the Philips hue website: // http://www.developers.meethue.com/documentation/getting-started package hue import ( "bytes" "encoding/json" "encoding/xml" "errors" "fmt" "io" "io/ioutil" "log" "net/http" "runtime" "strconv" "strings" ) // Bridge struct defines hardware that is used to communicate with the lights. type Bridge struct { IPAddress string `json:"internalipaddress"` Username string Info BridgeInfo } // BridgeInfo struct is the format for parsing xml from a bridge. type BridgeInfo struct { XMLName xml.Name `xml:"root"` Device struct { XMLName xml.Name `xml:"device"` DeviceType string `xml:"deviceType"` FriendlyName string `xml:"friendlyName"` Manufacturer string `xml:"manufacturer"` ManufacturerURL string `xml:"manufacturerURL"` ModelDescription string `xml:"modelDescription"` ModelName string `xml:"modelName"` ModelNumber string `xml:"modelNumber"` ModelURL string `xml:"modelURL"` SerialNumber string `xml:"serialNumber"` UDN string `xml:"UDN"` } `xml:"device"` } // bridge.Get sends an http GET to the bridge func (bridge *Bridge) Get(path string) ([]byte, io.Reader, error) { uri := fmt.Sprintf("http://" + bridge.IPAddress + path) resp, err := http.Get(uri) if err != nil { err = errors.New("Error: Unable to access bridge. ") return []byte{}, nil, err } return HandleResponse(resp) } // Bridge.Put sends an http PUT to the bridge with // a body formatted with parameters (in a generic interface) func (bridge *Bridge) Put(path string, params interface{}) ([]byte, io.Reader, error) { uri := fmt.Sprintf("http://" + bridge.IPAddress + path) client := &http.Client{} data, err := json.Marshal(params) if err != nil { err = errors.New("Error: Unable marshal PUT request interface.") return []byte{}, nil, err } //fmt.Println("\n\nPARAMS: ", params) //log.Println("\nSending PUT body: ", string(data)) request, err := http.NewRequest("PUT", uri, bytes.NewReader(data)) resp, err := client.Do(request) if err != nil { err = errors.New("Error: Unable to access bridge.") return []byte{}, nil, err } return HandleResponse(resp) } // bridge.Post sends an http POST to the bridge with // a body formatted with parameters (in a generic interface). // If `params` is nil then it will send an empty body with the post request. func (bridge *Bridge) Post(path string, params interface{}) ([]byte, io.Reader, error) { // Add the params to the request or allow an empty body request := []byte{} if params != nil { reqBody, err := json.Marshal(params) if err != nil { err = errors.New("Error: Unable to add POST body parameters due to json marshal error.") return []byte{}, nil, err } request = reqBody } // Send the request and handle the response uri := fmt.Sprintf("http://" + bridge.IPAddress + path) resp, err := http.Post(uri, "text/json", bytes.NewReader(request)) if err != nil { err = errors.New("Error: Unable to access bridge.") return []byte{}, nil, err } return HandleResponse(resp) } // Bridge.Delete sends an http DELETE to the bridge func (bridge *Bridge) Delete(path string) error { uri := fmt.Sprintf("http://" + bridge.IPAddress + path) client := &http.Client{} req, err := http.NewRequest("DELETE", uri, nil) resp, err := client.Do(req) if err != nil { err = errors.New("Error: Unable to access bridge.") return err } _, _, err = HandleResponse(resp) return err } // HandleResponse manages the http.Response content from a // bridge Get/Put/Post/Delete by checking it for errors // and invalid return types. func HandleResponse(resp *http.Response) ([]byte, io.Reader, error) { body, err := ioutil.ReadAll(resp.Body) defer resp.Body.Close() if err != nil { trace("Error parsing bridge description xml.", nil) return []byte{}, nil, err } reader := bytes.NewReader(body) if strings.Contains(string(body), "\"error\"") { errString := string(body) errNum := errString[strings.Index(errString, "type\":")+6 : strings.Index(errString, ",\"address")] errDesc := errString[strings.Index(errString, "description\":\"")+14 : strings.Index(errString, "\"}}")] errOut := fmt.Sprintf("Error type %s: %s.", errNum, errDesc) err = errors.New(errOut) return []byte{}, nil, err } return body, reader, nil } // FindBridges will visit www.meethue.com/api/nupnp to see a list of // bridges on the local network. func FindBridges() ([]Bridge, error) { bridge := Bridge{IPAddress: "www.meethue.com"} body, _, err := bridge.Get("/api/nupnp") if err != nil { err = errors.New("Error: Unable to locate bridge.") return []Bridge{}, err } bridges := []Bridge{} err = json.Unmarshal(body, &bridges) if err != nil { return []Bridge{}, errors.New("Unable to parse FindBridges response. ") } return bridges, nil } // NewBridge defines hardware that is compatible with Hue. // The function is the core of all functionality, it's necessary // to call `NewBridge` and `Login` or `CreateUser` to access any // lights, scenes, groups, etc. func NewBridge(ip string) (*Bridge, error) { bridge := Bridge{ IPAddress: ip, } // Test the connection by attempting to get the bridge info. err := bridge.GetInfo() if err != nil { return &Bridge{}, err } return &bridge, nil } // GetBridgeInfo retreives the description.xml file from the bridge. // This is used as a check to see if the bridge is accessible // and any error will be fatal as the bridge is required for nearly // all functions. func (bridge *Bridge) GetInfo() error { _, reader, err := bridge.Get("/description.xml") if err != nil { return err } data := BridgeInfo{} err = xml.NewDecoder(reader).Decode(&data) if err != nil { err = errors.New("Error: Unable to decode XML response from bridge. ") return err } bridge.Info = data return nil } // Bridge.Login verifies that the username token has bridge access // and only assigns the bridge its Username value if verification is successful. func (bridge *Bridge) Login(username string) error { uri := fmt.Sprintf("/api/%s", username) _, _, err := bridge.Get(uri) if err != nil { return err } bridge.Username = username return nil } // Bridge.CreateUser adds a new user token on the whitelist. // The token is the first return value in this function which must // be used with `Bridge.Login`. You cannot use a plaintext username // like the argument provided in this function. // This was done by Philips Hue for security reasons. func (bridge *Bridge) CreateUser(deviceType string) (string, error) { params := map[string]string{"devicetype": deviceType} body, _, err := bridge.Post("/api", params) if err != nil { return "", err } content := string(body) username := content[strings.LastIndex(content, ":\"")+2 : strings.LastIndex(content, "\"")] bridge.Username = username return username, nil } // Bridge.DeleteUser deletes a user given its USER KEY, not the string name. // See http://www.developers.meethue.com/documentation/configuration-api // for description on `username` deprecation in place of the devicetype key. func (bridge *Bridge) DeleteUser(username string) error { uri := fmt.Sprintf("/api/%s/config/whitelist/%s", bridge.Username, username) err := bridge.Delete(uri) if err != nil { return err } return nil } // GetAllLights retreives the state of all lights that the bridge is aware of. func (bridge *Bridge) GetAllLights() ([]Light, error) { uri := fmt.Sprintf("/api/%s/lights", bridge.Username) body, _, err := bridge.Get(uri) if err != nil { return []Light{}, err } // An index is at the top of every Light in the array lightMap := map[string]Light{} err = json.Unmarshal(body, &lightMap) if err != nil { return []Light{}, errors.New("Unable to marshal GetAllLights response. ") } // Parse the index, add the light to the list, and return the array lights := []Light{} for index, light := range lightMap { light.Index, err = strconv.Atoi(index) if err != nil { return []Light{}, errors.New("Unable to convert light index to integer. ") } light.Bridge = bridge lights = append(lights, light) } return lights, nil } // GetLightByIndex returns a light struct containing data on // a light given its index stored on the bridge. This is used for // quickly updating an individual light. func (bridge *Bridge) GetLightByIndex(index int) (Light, error) { // Send an http GET and inspect the response uri := fmt.Sprintf("/api/%s/lights/%d", bridge.Username, index) body, _, err := bridge.Get(uri) if err != nil { return Light{}, err } if strings.Contains(string(body), "not available") { return Light{}, errors.New("Error: Light selection index out of bounds. ") } // Parse and load the response into the light array light := Light{} err = json.Unmarshal(body, &light) if err != nil { return Light{}, errors.New("Error: Unable to unmarshal light data. ") } light.Index = index light.Bridge = bridge return light, nil } // Bridge.FindNewLights makes the bridge search the zigbee spectrum for // lights in the area and will add them to the list of lights available. // If successful these new lights can be used by `Bridge.GetAllLights` // // Notes from Philips Hue API documentation: // The bridge will search for 1 minute and will add a maximum of 15 new // lights. To add further lights, the command needs to be sent again after // the search has completed. If a search is already active, it will be // aborted and a new search will start. // http://www.developers.meethue.com/documentation/lights-api#13_search_for_new_lights func (bridge *Bridge) FindNewLights() error { uri := fmt.Sprintf("/api/%s/lights", bridge.Username) _, _, err := bridge.Post(uri, nil) if err != nil { return err } return nil } // GetLight returns a light struct containing data on a given name. func (bridge *Bridge) GetLightByName(name string) (Light, error) { lights, _ := bridge.GetAllLights() for _, light := range lights { if light.Name == name { return light, nil } } errOut := fmt.Sprintf("Error: Light name '%s' not found. ", name) return Light{}, errors.New(errOut) } // Log the date, time, file location, line number, and function. // Message can be "" or Err can be nil (not both) func trace(message string, err error) { pc := make([]uintptr, 10) runtime.Callers(2, pc) f := runtime.FuncForPC(pc[0]) file, line := f.FileLine(pc[0]) if err != nil { log.Printf("%s:%d %s: %s\n", file, line, f.Name(), err) } else { log.Printf("%s:%d %s: %s\n", file, line, f.Name(), message) } }