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mqtt.go
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package server
import (
"fmt"
"reflect"
"strconv"
"strings"
"time"
"github.com/evcc-io/evcc/api"
"github.com/evcc-io/evcc/core/loadpoint"
"github.com/evcc-io/evcc/core/site"
"github.com/evcc-io/evcc/provider/mqtt"
"github.com/evcc-io/evcc/util"
)
var deprecatedTopics = []string{
"activePhases", "range", "socCharge", "vehicleSoC",
"batterySoC", "bufferSoC", "minSoC", "prioritySoC",
"targetSoC", "vehicleTargetSoC",
}
// MQTT is the MQTT server. It uses the MQTT client for publishing.
type MQTT struct {
Handler *mqtt.Client
root string
}
// NewMQTT creates MQTT server
func NewMQTT(root string) *MQTT {
return &MQTT{
Handler: mqtt.Instance,
root: root,
}
}
func (m *MQTT) encode(v interface{}) string {
// nil should erase the value
if v == nil {
return ""
}
switch val := v.(type) {
case string:
return val
case float64:
return fmt.Sprintf("%.5g", val)
case time.Time:
return strconv.FormatInt(val.Unix(), 10)
case time.Duration:
// must be before stringer to convert to seconds instead of string
return fmt.Sprintf("%d", int64(val.Seconds()))
case fmt.Stringer:
return val.String()
default:
return fmt.Sprintf("%v", val)
}
}
func (m *MQTT) publishSingleValue(topic string, retained bool, payload interface{}) {
token := m.Handler.Client.Publish(topic, m.Handler.Qos, retained, m.encode(payload))
go m.Handler.WaitForToken(token)
}
func (m *MQTT) publish(topic string, retained bool, payload interface{}) {
// publish phase values
if slice, ok := payload.([]float64); ok && len(slice) == 3 {
var total float64
for i, v := range slice {
total += v
m.publishSingleValue(fmt.Sprintf("%s/l%d", topic, i+1), retained, v)
}
// publish sum value
payload = total
}
// publish slices of structs as sub topics
if payload != nil {
if typ := reflect.TypeOf(payload); typ.Kind() == reflect.Slice && typ.Elem().Kind() == reflect.Struct {
val := reflect.ValueOf(payload)
// loop slice
for i := 0; i < val.Len(); i++ {
val := val.Index(i)
typ := val.Type()
// loop struct
for j := 0; j < typ.NumField(); j++ {
n := typ.Field(j).Name
v := val.Field(j).Interface()
m.publishSingleValue(fmt.Sprintf("%s/%d/%s", topic, i+1, strings.ToLower(n[:1])+n[1:]), retained, v)
}
}
// publish count
payload = val.Len()
}
}
// publish vehicles
if slice, ok := payload.([]string); ok && strings.HasSuffix(topic, "vehicles") {
// publish count
payload = len(slice)
for i, v := range slice {
m.publishSingleValue(fmt.Sprintf("%s/%d", topic, i+1), retained, v)
}
}
m.publishSingleValue(topic, retained, payload)
}
func (m *MQTT) listenSetters(topic string, site site.API, lp loadpoint.API) {
m.Handler.ListenSetter(topic+"/mode/set", func(payload string) {
lp.SetMode(api.ChargeMode(payload))
})
m.Handler.ListenSetter(topic+"/minSoc/set", func(payload string) {
if soc, err := strconv.Atoi(payload); err == nil {
lp.SetMinSoc(soc)
}
})
m.Handler.ListenSetter(topic+"/targetEnergy/set", func(payload string) {
if val, err := strconv.ParseFloat(payload, 64); err == nil {
lp.SetTargetEnergy(val)
}
})
m.Handler.ListenSetter(topic+"/targetSoc/set", func(payload string) {
if soc, err := strconv.Atoi(payload); err == nil {
lp.SetTargetSoc(soc)
}
})
m.Handler.ListenSetter(topic+"/targetTime/set", func(payload string) {
if val, err := time.Parse(time.RFC3339, payload); err == nil {
_ = lp.SetTargetTime(val)
}
})
m.Handler.ListenSetter(topic+"/minCurrent/set", func(payload string) {
if current, err := strconv.ParseFloat(payload, 64); err == nil {
lp.SetMinCurrent(current)
}
})
m.Handler.ListenSetter(topic+"/maxCurrent/set", func(payload string) {
if current, err := strconv.ParseFloat(payload, 64); err == nil {
lp.SetMaxCurrent(current)
}
})
m.Handler.ListenSetter(topic+"/phases/set", func(payload string) {
if phases, err := strconv.Atoi(payload); err == nil {
_ = lp.SetPhases(phases)
}
})
m.Handler.ListenSetter(topic+"/vehicle/set", func(payload string) {
if vehicle, err := strconv.Atoi(payload); err == nil {
if vehicle > 0 {
if vehicles := site.GetVehicles(); vehicle <= len(vehicles) {
lp.SetVehicle(vehicles[vehicle-1])
}
} else {
lp.SetVehicle(nil)
}
}
})
m.Handler.ListenSetter(topic+"/enableThreshold/set", func(payload string) {
if threshold, err := strconv.ParseFloat(payload, 64); err == nil {
lp.SetEnableThreshold(threshold)
}
})
m.Handler.ListenSetter(topic+"/disableThreshold/set", func(payload string) {
if threshold, err := strconv.ParseFloat(payload, 64); err == nil {
lp.SetDisableThreshold(threshold)
}
})
}
// Run starts the MQTT publisher for the MQTT API
func (m *MQTT) Run(site site.API, in <-chan util.Param) {
// alive
topic := fmt.Sprintf("%s/status", m.root)
m.publish(topic, true, "online")
// site setters
m.Handler.ListenSetter(fmt.Sprintf("%s/site/prioritySoc/set", m.root), func(payload string) {
if soc, err := strconv.Atoi(payload); err == nil {
_ = site.SetPrioritySoc(float64(soc))
}
})
m.Handler.ListenSetter(fmt.Sprintf("%s/site/bufferSoc/set", m.root), func(payload string) {
if soc, err := strconv.Atoi(payload); err == nil {
_ = site.SetBufferSoc(float64(soc))
}
})
m.Handler.ListenSetter(fmt.Sprintf("%s/site/residualPower/set", m.root), func(payload string) {
if soc, err := strconv.Atoi(payload); err == nil {
_ = site.SetResidualPower(float64(soc))
}
})
// number of loadpoints
topic = fmt.Sprintf("%s/loadpoints", m.root)
m.publish(topic, true, len(site.Loadpoints()))
// loadpoint setters
for id, lp := range site.Loadpoints() {
topic := fmt.Sprintf("%s/loadpoints/%d", m.root, id+1)
m.listenSetters(topic, site, lp)
}
// TODO remove deprecated topics
for _, dep := range deprecatedTopics {
m.publish(fmt.Sprintf("%s/site/%s", m.root, dep), true, nil)
}
for id := range site.Loadpoints() {
topic := fmt.Sprintf("%s/loadpoints/%d", m.root, id+1)
for _, dep := range deprecatedTopics {
m.publish(fmt.Sprintf("%s/%s", topic, dep), true, nil)
}
}
for i := 0; i < 10; i++ {
m.publish(fmt.Sprintf("%s/site/pv/%d", m.root, i), true, nil)
m.publish(fmt.Sprintf("%s/site/battery/%d", m.root, i), true, nil)
m.publish(fmt.Sprintf("%s/site/vehicles/%d", m.root, i), true, nil)
}
// alive indicator
var updated time.Time
// publish
for p := range in {
topic := fmt.Sprintf("%s/site", m.root)
if p.Loadpoint != nil {
id := *p.Loadpoint + 1
topic = fmt.Sprintf("%s/loadpoints/%d", m.root, id)
}
// alive indicator
if time.Since(updated) > time.Second {
updated = time.Now()
m.publish(fmt.Sprintf("%s/updated", m.root), true, updated.Unix())
}
// value
topic += "/" + p.Key
m.publish(topic, true, p.Val)
}
}