add very partial hue2 driver wip.

3 years ago · 73e6cba770
7 changed files with 894 additions and 38 deletions
--- a/cmd/xy/main.go
+++ b/cmd/xy/main.go
@ -0,0 +1,39 @@
 package main
 import (
 	"context"
 	"encoding/json"
 	"fmt"
 	"git.aiterp.net/lucifer/new-server/internal/drivers/hue2"
 	"git.aiterp.net/lucifer/new-server/models"
 	"log"
 )
 func main() {
 	client := hue2.NewClient("10.80.8.8", "o2XKGgmVUGNBghYFdLUCVuinOTMxFH4pHV9PuTbU")
 	bridge := hue2.NewBridge(client)
 	err := bridge.RefreshAll(context.Background())
 	if err != nil {
 		log.Fatalln(err)
 	}
 	j, _ := json.Marshal(bridge.GenerateDevices())
 	fmt.Println(string(j))
 	for _, device := range bridge.GenerateDevices() {
 		switch device.InternalID {
 		case "6d5a45b0-ec69-4417-8588-717358b05086":
 			c, _ := models.ParseColorValue("xy:0.22,0.18")
 			device.State.Color = c
 			device.State.Intensity = 1
 			bridge.Update(device)
 		case "a71128f4-5295-4ae4-9fbc-5541abc8739b":
 			c, _ := models.ParseColorValue("k:2000")
 			device.State.Color = c
 			device.State.Intensity = 0.2
 			bridge.Update(device)
 		}
 	}
 	fmt.Println(bridge.MakeCongruent(context.Background()))
 }
--- a/internal/drivers/hue2/bridge.go
+++ b/internal/drivers/hue2/bridge.go
@ -0,0 +1,257 @@
 package hue2
 import (
 	"context"
 	"fmt"
 	"git.aiterp.net/lucifer/new-server/models"
 	"golang.org/x/sync/errgroup"
 	"math"
 	"strings"
 	"sync"
 	"time"
 )
 type Bridge struct {
 	mu        sync.Mutex
 	client    *Client
 	devices   map[string]models.Device
 	resources map[string]*ResourceData
 }
 func NewBridge(client *Client) *Bridge {
 	return &Bridge{
 		client:    client,
 		devices:   make(map[string]models.Device, 64),
 		resources: make(map[string]*ResourceData, 256),
 	}
 }
 func (b *Bridge) Update(devices ...models.Device) {
 	b.mu.Lock()
 	for _, device := range devices {
 		b.devices[device.InternalID] = device
 	}
 	b.mu.Unlock()
 }
 func (b *Bridge) MakeCongruent(ctx context.Context) (int, error) {
 	b.mu.Lock()
 	dur := time.Millisecond * 200
 	updates := make(map[string]ResourceUpdate)
 	for _, device := range b.devices {
 		resource := b.resources[device.InternalID]
 		if lightID := resource.ServiceID("light"); lightID != nil {
 			light := b.resources[*lightID]
 			update := ResourceUpdate{TransitionDuration: &dur}
 			changed := false
 			if light.ColorTemperature != nil && device.State.Color.IsKelvin() {
 				mirek := 1000000 / device.State.Color.Kelvin
 				if mirek < light.ColorTemperature.MirekSchema.MirekMinimum {
 					mirek = light.ColorTemperature.MirekSchema.MirekMinimum
 				}
 				if mirek > light.ColorTemperature.MirekSchema.MirekMaximum {
 					mirek = light.ColorTemperature.MirekSchema.MirekMaximum
 				}
 				if light.ColorTemperature.Mirek == nil || mirek != *light.ColorTemperature.Mirek {
 					update.Mirek = &mirek
 					changed = true
 				}
 			} else if xy, ok := device.State.Color.ToXY(); ok && light.Color != nil {
 				xy = light.Color.Gamut.Conform(xy).Round()
 				if xy.DistanceTo(light.Color.XY) > 0.00015 || (light.ColorTemperature != nil && light.ColorTemperature.Mirek != nil) {
 					update.ColorXY = &xy
 					changed = true
 				}
 			}
 			if light.Power != nil && light.Power.On != device.State.Power {
 				update.Power = &device.State.Power
 				changed = true
 			}
 			if light.Dimming != nil && math.Abs(light.Dimming.Brightness/100-device.State.Intensity) > 0.005 {
 				brightness := math.Abs(math.Min(device.State.Intensity*100, 100))
 				update.Brightness = &brightness
 				changed = true
 			}
 			if changed {
 				updates["light/"+light.ID] = update
 			}
 		}
 	}
 	b.mu.Unlock()
 	if len(updates) == 0 {
 		return 0, nil
 	}
 	eg, ctx := errgroup.WithContext(ctx)
 	for key := range updates {
 		update := updates[key]
 		split := strings.SplitN(key, "/", 2)
 		link := ResourceLink{Kind: split[0], ID: split[1]}
 		eg.Go(func() error {
 			return b.client.UpdateResource(ctx, link, update)
 		})
 	}
 	return len(updates), eg.Wait()
 }
 func (b *Bridge) GenerateDevices() []models.Device {
 	b.mu.Lock()
 	resources := b.resources
 	b.mu.Unlock()
 	devices := make([]models.Device, 0, 16)
 	for _, resource := range resources {
 		if resource.Type != "device" || strings.HasPrefix(resource.Metadata.Archetype, "bridge") {
 			continue
 		}
 		device := models.Device{
 			InternalID: resource.ID,
 			Name:       resource.Metadata.Name,
 			DriverProperties: map[string]interface{}{
 				"archetype": resource.Metadata.Archetype,
 				"name":      resource.ProductData.ProductName,
 				"product":   resource.ProductData,
 				"legacyId":  resource.LegacyID,
 			},
 		}
 		// Set icon
 		if resource.ProductData.ProductName == "Hue dimmer switch" {
 			device.Icon = "switch"
 		} else if resource.ProductData.ProductName == "Hue motion sensor" {
 			device.Icon = "sensor"
 		} else {
 			device.Icon = "lightbulb"
 		}
 		buttonCount := 0
 		for _, ptr := range resource.Services {
 			switch ptr.Kind {
 			case "device_power":
 				{
 					device.DriverProperties["battery"] = resources[ptr.ID].PowerState
 				}
 			case "button":
 				{
 					buttonCount += 1
 				}
 			case "zigbee_connectivity":
 				{
 					device.DriverProperties["zigbee"] = resources[ptr.ID].Status
 				}
 			case "motion":
 				{
 					device.Capabilities = append(device.Capabilities, models.DCPresence)
 				}
 			case "temperature":
 				{
 					device.Capabilities = append(device.Capabilities, models.DCTemperatureSensor)
 				}
 			case "light":
 				{
 					light := resources[ptr.ID]
 					if light.Power != nil {
 						device.State.Power = light.Power.On
 						device.Capabilities = append(device.Capabilities, models.DCPower)
 					}
 					if light.Dimming != nil {
 						device.State.Intensity = light.Dimming.Brightness / 100
 						device.Capabilities = append(device.Capabilities, models.DCIntensity)
 					}
 					if light.ColorTemperature != nil {
 						if light.ColorTemperature.Mirek != nil {
 							device.State.Color = models.ColorValue{
 								Kelvin: int(1000000 / *light.ColorTemperature.Mirek),
 							}
 						}
 						device.Capabilities = append(device.Capabilities, models.DCColorKelvin)
 						device.DriverProperties["maxTemperature"] = 1000000 / light.ColorTemperature.MirekSchema.MirekMinimum
 						device.DriverProperties["minTemperature"] = 1000000 / light.ColorTemperature.MirekSchema.MirekMaximum
 					}
 					if light.Color != nil {
 						if device.State.Color.IsEmpty() {
 							device.State.Color = models.ColorValue{
 								XY: &light.Color.XY,
 							}
 						}
 						device.DriverProperties["colorGamut"] = light.Color.Gamut
 						device.DriverProperties["colorGamutType"] = light.Color.GamutType
 						device.Capabilities = append(device.Capabilities, models.DCColorHS, models.DCColorXY)
 					}
 				}
 			}
 		}
 		if buttonCount == 4 {
 			device.ButtonNames = []string{"On", "DimUp", "DimDown", "Off"}
 		} else if buttonCount == 1 {
 			device.ButtonNames = []string{"Button"}
 		} else {
 			for n := 1; n <= buttonCount; n++ {
 				device.ButtonNames = append(device.ButtonNames, fmt.Sprint("Button", n))
 			}
 		}
 		devices = append(devices, device)
 	}
 	return devices
 }
 func (b *Bridge) Refresh(ctx context.Context, kind string) error {
 	if kind == "device" {
 		// Device refresh requires the full deal as services are taken for granted.
 		return b.RefreshAll(ctx)
 	}
 	resources, err := b.client.Resources(ctx, kind)
 	if err != nil {
 		return err
 	}
 	b.mu.Lock()
 	oldResources := b.resources
 	b.mu.Unlock()
 	newResources := make(map[string]*ResourceData, len(b.resources))
 	for key, value := range oldResources {
 		if value.Type != kind {
 			newResources[key] = value
 		}
 	}
 	for i := range resources {
 		resource := resources[i]
 		newResources[resource.ID] = &resource
 	}
 	b.mu.Lock()
 	b.resources = newResources
 	b.mu.Unlock()
 	return nil
 }
 func (b *Bridge) RefreshAll(ctx context.Context) error {
 	allResources, err := b.client.AllResources(ctx)
 	if err != nil {
 		return err
 	}
 	resources := make(map[string]*ResourceData, len(allResources))
 	for i := range allResources {
 		resource := allResources[i]
 		resources[resource.ID] = &resource
 	}
 	b.mu.Lock()
 	b.resources = resources
 	b.mu.Unlock()
 	return nil
 }
--- a/internal/drivers/hue2/client.go
+++ b/internal/drivers/hue2/client.go
@ -0,0 +1,167 @@
 package hue2
 import (
 	"bytes"
 	"context"
 	"crypto/tls"
 	"encoding/json"
 	"fmt"
 	"io"
 	"net"
 	"net/http"
 	"strings"
 	"time"
 )
 func NewClient(host, token string) *Client {
 	ch := make(chan struct{}, 5)
 	for i := 0; i < 3; i++ {
 		ch <- struct{}{}
 	}
 	return &Client{
 		host:  host,
 		token: token,
 		ch:    ch,
 	}
 }
 type Client struct {
 	host  string
 	token string
 	ch    chan struct{}
 }
 func (c *Client) AllResources(ctx context.Context) ([]ResourceData, error) {
 	res := struct {
 		Error interface{}
 		Data  []ResourceData
 	}{}
 	err := c.get(ctx, "clip/v2/resource", &res)
 	if err != nil {
 		return nil, err
 	}
 	return res.Data, nil
 }
 func (c *Client) Resources(ctx context.Context, kind string) ([]ResourceData, error) {
 	res := struct {
 		Error interface{}
 		Data  []ResourceData
 	}{}
 	err := c.get(ctx, "clip/v2/resource/"+kind, &res)
 	if err != nil {
 		return nil, err
 	}
 	return res.Data, nil
 }
 func (c *Client) UpdateResource(ctx context.Context, link ResourceLink, update ResourceUpdate) error {
 	return c.put(ctx, link.Path(), update, nil)
 }
 func (c *Client) get(ctx context.Context, path string, target interface{}) error {
 	select {
 	case <-ctx.Done():
 		return ctx.Err()
 	case <-c.ch:
 		defer func() {
 			c.ch <- struct{}{}
 		}()
 	}
 	req, err := http.NewRequest("GET", fmt.Sprintf("https://%s/%s", c.host, path), nil)
 	if err != nil {
 		return err
 	}
 	req.Header.Set("hue-application-key", c.token)
 	res, err := httpClient.Do(req.WithContext(ctx))
 	if err != nil {
 		return err
 	}
 	defer res.Body.Close()
 	if target == nil {
 		return nil
 	}
 	return json.NewDecoder(res.Body).Decode(&target)
 }
 func (c *Client) put(ctx context.Context, path string, body interface{}, target interface{}) error {
 	select {
 	case <-ctx.Done():
 		return ctx.Err()
 	case <-c.ch:
 		defer func() {
 			c.ch <- struct{}{}
 		}()
 	}
 	rb, err := reqBody(body)
 	if err != nil {
 		return err
 	}
 	req, err := http.NewRequest("PUT", fmt.Sprintf("https://%s/%s", c.host, path), rb)
 	if err != nil {
 		return err
 	}
 	req.Header.Set("hue-application-key", c.token)
 	res, err := httpClient.Do(req.WithContext(ctx))
 	if err != nil {
 		return err
 	}
 	defer res.Body.Close()
 	if target == nil {
 		return nil
 	}
 	return json.NewDecoder(res.Body).Decode(&target)
 }
 func reqBody(body interface{}) (io.Reader, error) {
 	if body == nil {
 		return nil, nil
 	}
 	switch v := body.(type) {
 	case []byte:
 		return bytes.NewReader(v), nil
 	case string:
 		return strings.NewReader(v), nil
 	case io.Reader:
 		return v, nil
 	default:
 		jsonData, err := json.Marshal(v)
 		if err != nil {
 			return nil, err
 		}
 		return bytes.NewReader(jsonData), nil
 	}
 }
 var httpClient = &http.Client{
 	Transport: &http.Transport{
 		Proxy: http.ProxyFromEnvironment,
 		DialContext: (&net.Dialer{
 			Timeout:   30 * time.Second,
 			KeepAlive: 30 * time.Second,
 		}).DialContext,
 		MaxIdleConns:        256,
 		MaxIdleConnsPerHost: 16,
 		IdleConnTimeout:     10 * time.Minute,
 		TLSClientConfig:     &tls.Config{InsecureSkipVerify: true},
 	},
 	Timeout: time.Minute,
 }
--- a/internal/drivers/hue2/data.go
+++ b/internal/drivers/hue2/data.go
@ -0,0 +1,144 @@
 package hue2
 import (
 	"fmt"
 	"git.aiterp.net/lucifer/new-server/models"
 	"strings"
 	"time"
 )
 type DeviceData struct {
 	ID       string         `json:"id"`
 	LegacyID string         `json:"id_v1"`
 	Metadata DeviceMetadata `json:"metadata"`
 	Type     string         `json:"type"`
 	ProductData DeviceProductData `json:"product_data"`
 	Services    []ResourceLink    `json:"services"`
 }
 type DeviceMetadata struct {
 	Archetype string `json:"archetype"`
 	Name      string `json:"name"`
 }
 type DeviceProductData struct {
 	Certified        bool   `json:"certified"`
 	ManufacturerName string `json:"manufacturer_name"`
 	ModelID          string `json:"model_id"`
 	ProductArchetype string `json:"product_archetype"`
 	ProductName      string `json:"product_name"`
 	SoftwareVersion  string `json:"software_version"`
 }
 type ResourceData struct {
 	ID       string         `json:"id"`
 	LegacyID string         `json:"id_v1"`
 	Metadata DeviceMetadata `json:"metadata"`
 	Type     string         `json:"type"`
 	Mode *string `json:"mode"`
 	Owner            *ResourceLink      `json:"owner"`
 	ProductData      *DeviceProductData `json:"product_data"`
 	Services         []ResourceLink     `json:"services"`
 	Power            *LightPower        `json:"on"`
 	Color            *LightColor        `json:"color"`
 	ColorTemperature *LightCT           `json:"color_temperature"`
 	Dimming          *LightDimming      `json:"dimming"`
 	Dynamics         *LightDynamics     `json:"dynamics"`
 	Alert            *LightAlert        `json:"alert"`
 	PowerState       *PowerState        `json:"power_state"`
 	Status           *string            `json:"status"`
 }
 func (res *ResourceData) ServiceID(kind string) *string {
 	for _, ptr := range res.Services {
 		if ptr.Kind == kind {
 			return &ptr.ID
 		}
 	}
 	return nil
 }
 type PowerState struct {
 	BatteryState string  `json:"battery_state"`
 	BatteryLevel float64 `json:"battery_level"`
 }
 type LightPower struct {
 	On bool `json:"on"`
 }
 type LightDimming struct {
 	Brightness float64 `json:"brightness"`
 }
 type LightColor struct {
 	Gamut     models.ColorGamut `json:"gamut"`
 	GamutType string            `json:"gamut_type"`
 	XY        models.ColorXY    `json:"xy"`
 }
 type LightCT struct {
 	Mirek       *int               `json:"mirek"`
 	MirekSchema LightCTMirekSchema `json:"mirek_schema"`
 	MirekValid  bool               `json:"mirek_valid"`
 }
 type LightCTMirekSchema struct {
 	MirekMaximum int `json:"mirek_maximum"`
 	MirekMinimum int `json:"mirek_minimum"`
 }
 type LightDynamics struct {
 	Speed        float64  `json:"speed"`
 	SpeedValid   bool     `json:"speed_valid"`
 	Status       string   `json:"status"`
 	StatusValues []string `json:"status_values"`
 }
 type LightAlert struct {
 	ActionValues []string `json:"action_values"`
 }
 type ResourceUpdate struct {
 	Power              *bool
 	ColorXY            *models.ColorXY
 	Brightness         *float64
 	Mirek              *int
 	TransitionDuration *time.Duration
 }
 func (r ResourceUpdate) MarshalJSON() ([]byte, error) {
 	chunks := make([]string, 0, 4)
 	if r.Power != nil {
 		chunks = append(chunks, fmt.Sprintf(`"on":{"on":%v}`, *r.Power))
 	}
 	if r.ColorXY != nil {
 		chunks = append(chunks, fmt.Sprintf(`"color":{"xy":{"x":%f,"y":%f}}`, r.ColorXY.X, r.ColorXY.Y))
 	}
 	if r.Brightness != nil {
 		chunks = append(chunks, fmt.Sprintf(`"dimming":{"brightness":%f}`, *r.Brightness))
 	}
 	if r.Mirek != nil {
 		chunks = append(chunks, fmt.Sprintf(`"color_temperature":{"mirek":%d}`, *r.Mirek))
 	}
 	if r.TransitionDuration != nil {
 		chunks = append(chunks, fmt.Sprintf(`"dynamics":{"duration":%d}`, r.TransitionDuration.Truncate(time.Millisecond*100).Milliseconds()))
 	}
 	fmt.Println(fmt.Sprintf("{%s}", strings.Join(chunks, ",")))
 	return []byte(fmt.Sprintf("{%s}", strings.Join(chunks, ","))), nil
 }
 type ResourceLink struct {
 	ID   string `json:"rid"`
 	Kind string `json:"rtype"`
 }
 func (rl *ResourceLink) Path() string {
 	return fmt.Sprintf("/clip/v2/resource/%s/%s", rl.Kind, rl.ID)
 }
--- a/models/colorvalue.go
+++ b/models/colorvalue.go
@ -11,6 +11,11 @@ type ColorValue struct {
 	Hue        float64  `json:"h,omitempty"` // 0..360
 	Saturation float64  `json:"s,omitempty"` // 0..=1
 	Kelvin     int      `json:"kelvin,omitempty"`
 	XY         *ColorXY `json:"xy,omitempty"`
 }
 func (c *ColorValue) IsEmpty() bool {
 	return c.XY == nil && c.Kelvin == 0 && c.Saturation == 0 && c.Hue == 0
 }
 func (c *ColorValue) IsHueSat() bool {
@ -18,7 +23,27 @@ func (c *ColorValue) IsHueSat() bool {
 }
 func (c *ColorValue) IsKelvin() bool {
 	return c.Kelvin > 0
 	return !c.IsXY() && c.Kelvin > 0
 }
 func (c *ColorValue) IsXY() bool {
 	return c.XY != nil
 }
 // ToXY converts the color to XY if possible. If the color already is XY, it returns
 // a copy of its held value. There are no guarantees of conforming to a gamut, however.
 func (c *ColorValue) ToXY() (xy ColorXY, ok bool) {
 	if c.XY != nil {
 		xy = *c.XY
 		ok = true
 	} else if c.Kelvin > 0 && c.Hue < 0.001 && c.Saturation <= 0.001 {
 		ok = false
 	} else {
 		xy = hsToXY(c.Hue, c.Saturation)
 		ok = true
 	}
 	return
 }
 func (c *ColorValue) String() string {
@ -29,15 +54,15 @@ func (c *ColorValue) String() string {
 	return fmt.Sprintf("hs:%.4g,%.3g", c.Hue, c.Saturation)
 }
 func ParseColorValue(raw string) (ColorValue, error) {
 	tokens := strings.SplitN(raw, ":", 2)
 	if len(tokens) != 2 {
 		return ColorValue{}, ErrBadInput
 	}
 	if tokens[0] == "kelvin" || tokens[0] == "k" {
 	switch tokens[0] {
 	case "kelvin", "k":
 		{
 			parsedPart, err := strconv.Atoi(tokens[1])
 			if err != nil {
 				return ColorValue{}, ErrBadInput
@ -46,7 +71,24 @@ func ParseColorValue(raw string) (ColorValue, error) {
 			return ColorValue{Kelvin: parsedPart}, nil
 		}
 	if tokens[0] == "hs" {
 	case "xy":
 		{
 			parts := strings.Split(tokens[1], ",")
 			if len(parts) < 2 {
 				return ColorValue{}, ErrUnknownColorFormat
 			}
 			x, err1 := strconv.ParseFloat(parts[0], 64)
 			y, err2 := strconv.ParseFloat(parts[1], 64)
 			if err1 != nil || err2 != nil {
 				return ColorValue{}, ErrBadInput
 			}
 			return ColorValue{XY: &ColorXY{X: x, Y: y}}, nil
 		}
 	case "hs":
 		{
 			parts := strings.Split(tokens[1], ",")
 			if len(parts) < 2 {
 				return ColorValue{}, ErrUnknownColorFormat
@ -61,7 +103,8 @@ func ParseColorValue(raw string) (ColorValue, error) {
 			return ColorValue{Hue: math.Mod(part1, 360), Saturation: math.Min(math.Max(part2, 0), 1)}, nil
 		}
 	if tokens[0] == "hsk" {
 	case "hsk":
 		{
 			parts := strings.Split(tokens[1], ",")
 			if len(parts) < 3 {
 				return ColorValue{}, ErrUnknownColorFormat
@ -80,6 +123,7 @@ func ParseColorValue(raw string) (ColorValue, error) {
 				Kelvin:     part3,
 			}, nil
 		}
 	}
 	return ColorValue{}, ErrUnknownColorFormat
 }
--- a/models/colorxy.go
+++ b/models/colorxy.go
@ -0,0 +1,204 @@
 package models
 import (
 	"github.com/lucasb-eyer/go-colorful"
 	"math"
 )
 const eps = 0.0001
 const epsSquare = eps * eps
 type ColorGamut struct {
 	Red   ColorXY `json:"red"`
 	Green ColorXY `json:"green"`
 	Blue  ColorXY `json:"blue"`
 }
 func (cg *ColorGamut) side(x1, y1, x2, y2, x, y float64) float64 {
 	return (y2-y1)*(x-x1) + (-x2+x1)*(y-y1)
 }
 func (cg *ColorGamut) naiveContains(color ColorXY) bool {
 	x, y := color.X, color.Y
 	x1, y1 := cg.Red.X, cg.Red.Y
 	x2, y2 := cg.Green.X, cg.Green.Y
 	x3, y3 := cg.Blue.X, cg.Blue.Y
 	checkSide1 := cg.side(x1, y1, x2, y2, x, y) < 0
 	checkSide2 := cg.side(x2, y2, x3, y3, x, y) < 0
 	checkSide3 := cg.side(x3, y3, x1, y1, x, y) < 0
 	return checkSide1 && checkSide2 && checkSide3
 }
 func (cg *ColorGamut) getBounds() (xMin, xMax, yMin, yMax float64) {
 	x1, y1 := cg.Red.X, cg.Red.Y
 	x2, y2 := cg.Green.X, cg.Green.Y
 	x3, y3 := cg.Blue.X, cg.Blue.Y
 	xMin = math.Min(x1, math.Min(x2, x3)) - eps
 	xMax = math.Max(x1, math.Max(x2, x3)) + eps
 	yMin = math.Min(y1, math.Min(y2, y3)) - eps
 	yMax = math.Max(y1, math.Max(y2, y3)) + eps
 	return
 }
 func (cg *ColorGamut) isInBounds(color ColorXY) bool {
 	x, y := color.X, color.Y
 	xMin, xMax, yMin, yMax := cg.getBounds()
 	return !(x < xMin || xMax < x || y < yMin || yMax < y)
 }
 func (cg *ColorGamut) distanceSquarePointToSegment(x1, y1, x2, y2, x, y float64) float64 {
 	sqLength1 := (x2-x1)*(x2-x1) + (y2-y1)*(y2-y1)
 	dotProduct := ((x-x1)*(x2-x1) + (y-y1)*(y2-y1)) / sqLength1
 	if dotProduct < 0 {
 		return (x-x1)*(x-x1) + (y-y1)*(y-y1)
 	} else if dotProduct <= 1 {
 		sqLength2 := (x1-x)*(x1-x) + (y1-y)*(y1-y)
 		return sqLength2 - dotProduct*dotProduct*sqLength1
 	} else {
 		return (x-x2)*(x-x2) + (y-y2)*(y-y2)
 	}
 }
 func (cg *ColorGamut) atTheEdge(color ColorXY) bool {
 	x, y := color.X, color.Y
 	x1, y1 := cg.Red.X, cg.Red.Y
 	x2, y2 := cg.Green.X, cg.Green.Y
 	x3, y3 := cg.Blue.X, cg.Blue.Y
 	if cg.distanceSquarePointToSegment(x1, y1, x2, y2, x, y) <= epsSquare {
 		return true
 	}
 	if cg.distanceSquarePointToSegment(x2, y2, x3, y3, x, y) <= epsSquare {
 		return true
 	}
 	if cg.distanceSquarePointToSegment(x3, y3, x1, y1, x, y) <= epsSquare {
 		return true
 	}
 	return false
 }
 func (cg *ColorGamut) Contains(color ColorXY) bool {
 	if cg == nil {
 		return true
 	}
 	return cg.isInBounds(color) && (cg.naiveContains(color) || cg.atTheEdge(color))
 }
 func (cg *ColorGamut) Conform(color ColorXY) ColorXY {
 	if cg.Contains(color) {
 		return color
 	}
 	var best *ColorXY
 	xMin, xMax, yMin, yMax := cg.getBounds()
 	for x := xMin; x < xMax; x += 0.001 {
 		for y := yMin; y < yMax; y += 0.001 {
 			color2 := ColorXY{X: x, Y: y}
 			if cg.Contains(color2) {
 				if best == nil || color.DistanceTo(color2) < color.DistanceTo(*best) {
 					best = &color2
 				}
 			}
 		}
 	}
 	if best == nil {
 		centerX := (cg.Red.X + cg.Green.X + cg.Blue.X) / 3
 		centerY := (cg.Red.Y + cg.Green.Y + cg.Blue.Y) / 3
 		stepX := (centerX - color.X) / 5000
 		stepY := (centerY - color.Y) / 5000
 		for !cg.Contains(color) {
 			color.X += stepX
 			color.Y += stepY
 		}
 		return color
 	}
 	for x := best.X - 0.001; x < best.X+0.001; x += 0.0001 {
 		for y := best.Y - 0.001; y < best.Y+0.001; y += 0.0001 {
 			color2 := ColorXY{X: x, Y: y}
 			if cg.atTheEdge(color2) {
 				if best == nil || color.DistanceTo(color2) < color.DistanceTo(*best) {
 					best = &color2
 				}
 			}
 		}
 	}
 	for x := best.X - 0.0001; x < best.X+0.0001; x += 0.00001 {
 		for y := best.Y - 0.0001; y < best.Y+0.0001; y += 0.00001 {
 			color2 := ColorXY{X: x, Y: y}
 			if cg.atTheEdge(color2) {
 				if best == nil || color.DistanceTo(color2) < color.DistanceTo(*best) {
 					best = &color2
 				}
 			}
 		}
 	}
 	return *best
 }
 type ColorXY struct {
 	X float64 `json:"x"`
 	Y float64 `json:"y"`
 }
 func (xy ColorXY) DistanceTo(other ColorXY) float64 {
 	return math.Sqrt(math.Pow(xy.X-other.X, 2) + math.Pow(xy.Y-other.Y, 2))
 }
 func (xy ColorXY) Round() ColorXY {
 	return ColorXY{
 		X: math.Round(xy.X*10000) / 10000,
 		Y: math.Round(xy.Y*10000) / 10000,
 	}
 }
 func hsToXY(hue, sat float64) ColorXY {
 	c := colorful.Hsv(hue, sat, 1)
 	red255, green255, blue255 := c.RGB255()
 	red := float64(red255) / 255.0
 	green := float64(green255) / 255.0
 	blue := float64(blue255) / 255.0
 	return screenRGBToXY(red, green, blue)
 }
 func rgbToXY(red float64, green float64, blue float64) ColorXY {
 	x := red*0.649926 + green*0.103455 + blue*0.197109
 	y := red*0.234327 + green*0.743075 + blue*0.022598
 	z := green*0.053077 + blue*1.035763
 	return ColorXY{
 		X: x / (x + y + z),
 		Y: y / (x + y + z),
 	}
 }
 func screenRGBToXY(red, green, blue float64) ColorXY {
 	for _, component := range []*float64{&red, &green, &blue} {
 		if *component > 0.04045 {
 			*component = math.Pow((*component+0.055)/(1.055), 2.4)
 		} else {
 			*component /= 12.92
 		}
 	}
 	return rgbToXY(red, green, blue)
 }
--- a/models/device.go
+++ b/models/device.go
@ -86,6 +86,7 @@ var (
 	DCColorHS            DeviceCapability = "ColorHS"
 	DCColorHSK           DeviceCapability = "ColorHSK"
 	DCColorKelvin        DeviceCapability = "ColorKelvin"
 	DCColorXY            DeviceCapability = "ColorXY"
 	DCButtons            DeviceCapability = "Buttons"
 	DCPresence           DeviceCapability = "Presence"
 	DCIntensity          DeviceCapability = "Intensity"