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rct.go
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rct.go
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package meter
import (
"errors"
"fmt"
"strings"
"sync"
"time"
"github.com/cenkalti/backoff/v4"
"github.com/evcc-io/evcc/api"
"github.com/evcc-io/evcc/util"
"github.com/mlnoga/rct"
)
/*
This meter supports devices implementing the RCT communication protocol, e.g. the RCT PS 6.0 with / without battery.
** Usages **
The following usages are supported:
- grid ... for reading the power imported or exported to the grid
- pv ... for reading the power produced by the pv
- battery ... for reading the power imported or exported to the battery
** Example configuration **
meters:
- name: GridMeter
type: rct
uri: 192.168.1.23
cache: 2s
usage: grid
- name: PvMeter
type: rct
uri: 192.168.1.23
cache: 2s
usage: pv
- name: BatteryMeter
type: rct
uri: 192.168.1.23
cache: 2s
usage: battery
*/
// RCT implements the api.Meter interface
type RCT struct {
bo *backoff.ExponentialBackOff
conn *rct.Connection // connection with the RCT device
usage string // grid, pv, battery
}
func init() {
registry.Add("rct", NewRCTFromConfig)
}
//go:generate go run ../cmd/tools/decorate.go -f decorateRCT -b *RCT -r api.Meter -t "api.MeterEnergy,TotalEnergy,func() (float64, error)" -t "api.Battery,Soc,func() (float64, error)" -t "api.BatteryCapacity,Capacity,func() float64"
// NewRCTFromConfig creates an RCT from generic config
func NewRCTFromConfig(other map[string]interface{}) (api.Meter, error) {
cc := struct {
capacity `mapstructure:",squash"`
Uri, Usage string
Cache time.Duration
}{
Cache: time.Second,
}
if err := util.DecodeOther(other, &cc); err != nil {
return nil, err
}
if cc.Usage == "" {
return nil, errors.New("missing usage")
}
return NewRCT(cc.Uri, cc.Usage, cc.Cache, cc.capacity.Decorator())
}
var rctMu sync.Mutex
// NewRCT creates an RCT meter
func NewRCT(uri, usage string, cache time.Duration, capacity func() float64) (api.Meter, error) {
rctMu.Lock()
defer rctMu.Unlock()
conn, err := rct.NewConnection(uri, cache)
if err != nil {
return nil, err
}
bo := backoff.NewExponentialBackOff()
bo.InitialInterval = 10 * time.Millisecond
bo.MaxElapsedTime = time.Second
m := &RCT{
usage: strings.ToLower(usage),
conn: conn,
bo: bo,
}
// decorate api.MeterEnergy
var totalEnergy func() (float64, error)
if usage == "grid" {
totalEnergy = m.totalEnergy
}
// decorate api.BatterySoc
var batterySoc func() (float64, error)
if usage == "battery" {
batterySoc = m.batterySoc
}
return decorateRCT(m, totalEnergy, batterySoc, capacity), nil
}
// CurrentPower implements the api.Meter interface
func (m *RCT) CurrentPower() (float64, error) {
switch m.usage {
case "grid":
return m.queryFloat(rct.TotalGridPowerW)
case "pv":
a, err := m.queryFloat(rct.SolarGenAPowerW)
if err != nil {
return 0, err
}
b, err := m.queryFloat(rct.SolarGenBPowerW)
if err != nil {
return 0, err
}
c, err := m.queryFloat(rct.S0ExternalPowerW)
return a + b + c, err
case "battery":
return m.queryFloat(rct.BatteryPowerW)
default:
return 0, fmt.Errorf("invalid usage: %s", m.usage)
}
}
// totalEnergy implements the api.MeterEnergy interface
func (m *RCT) totalEnergy() (float64, error) {
switch m.usage {
case "grid":
res, err := m.queryFloat(rct.TotalEnergyGridWh)
return res / 1000, err
case "pv":
a, err := m.queryFloat(rct.TotalEnergySolarGenAWh)
if err != nil {
return 0, err
}
b, err := m.queryFloat(rct.TotalEnergySolarGenBWh)
return (a + b) / 1000, err
case "battery":
in, err := m.queryFloat(rct.TotalEnergyBattInWh)
if err != nil {
return 0, err
}
out, err := m.queryFloat(rct.TotalEnergyBattOutWh)
return (in - out) / 1000, err
default:
return 0, fmt.Errorf("invalid usage: %s", m.usage)
}
}
// batterySoc implements the api.Battery interface
func (m *RCT) batterySoc() (float64, error) {
res, err := m.queryFloat(rct.BatterySoC)
return res * 100, err
}
// queryFloat adds retry logic of recoverable errors to QueryFloat32
func (m *RCT) queryFloat(id rct.Identifier) (float64, error) {
m.bo.Reset()
res, err := backoff.RetryWithData(func() (float32, error) {
res, err := m.conn.QueryFloat32(id)
if err != nil && !errors.As(err, new(rct.RecoverableError)) {
err = backoff.Permanent(err)
}
return res, err
}, m.bo)
return float64(res), err
}