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activation.go
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activation.go
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// Copyright © 2017 The Things Network
// Use of this source code is governed by the MIT license that can be found in the LICENSE file.
package router
import (
"context"
"fmt"
"sync"
"time"
pb_broker "github.com/TheThingsNetwork/api/broker"
"github.com/TheThingsNetwork/api/logfields"
pb_protocol "github.com/TheThingsNetwork/api/protocol"
pb_lorawan "github.com/TheThingsNetwork/api/protocol/lorawan"
pb "github.com/TheThingsNetwork/api/router"
"github.com/TheThingsNetwork/api/trace"
"github.com/TheThingsNetwork/ttn/core/band"
"github.com/TheThingsNetwork/ttn/core/router/gateway"
"github.com/TheThingsNetwork/ttn/utils/errors"
)
func (r *router) HandleActivation(gatewayID string, activation *pb.DeviceActivationRequest) (res *pb.DeviceActivationResponse, err error) {
ctx := r.Ctx.WithField("GatewayID", gatewayID).WithFields(logfields.ForMessage(activation))
start := time.Now()
var gateway *gateway.Gateway
var forwarded bool
r.RegisterReceived(activation)
defer func() {
if err != nil {
activation.Trace = activation.Trace.WithEvent(trace.DropEvent, "reason", err)
if forwarded {
ctx.WithError(err).Debug("Did not handle activation")
} else if gateway != nil && gateway.MonitorStream != nil {
ctx.WithError(err).Warn("Could not handle activation")
gateway.MonitorStream.Send(activation)
}
} else {
r.RegisterHandled(activation)
ctx.WithField("Duration", time.Now().Sub(start)).Info("Handled activation")
}
}()
r.status.activations.Mark(1)
activation.Trace = activation.Trace.WithEvent(trace.ReceiveEvent, "gateway", gatewayID)
gateway = r.getGateway(gatewayID)
gateway.LastSeen = time.Now()
uplink := &pb.UplinkMessage{
Payload: activation.Payload,
ProtocolMetadata: activation.ProtocolMetadata,
GatewayMetadata: activation.GatewayMetadata,
Trace: activation.Trace,
}
if err = gateway.HandleUplink(uplink); err != nil {
return nil, err
}
if !gateway.Schedule.IsActive() {
return nil, errors.NewErrInternal(fmt.Sprintf("Gateway %s not available for downlink", gatewayID))
}
downlinkOptions := r.buildDownlinkOptions(uplink, true, gateway)
activation.Trace = uplink.Trace.WithEvent(trace.BuildDownlinkEvent,
"options", len(downlinkOptions),
)
// Find Broker
brokers, err := r.Discovery.GetAll("broker")
if err != nil {
return nil, err
}
// Prepare request
request := &pb_broker.DeviceActivationRequest{
Payload: activation.Payload,
DevEUI: activation.DevEUI,
AppEUI: activation.AppEUI,
ProtocolMetadata: activation.ProtocolMetadata,
GatewayMetadata: activation.GatewayMetadata,
ActivationMetadata: &pb_protocol.ActivationMetadata{
Protocol: &pb_protocol.ActivationMetadata_LoRaWAN{
LoRaWAN: &pb_lorawan.ActivationMetadata{
AppEUI: activation.AppEUI,
DevEUI: activation.DevEUI,
},
},
},
DownlinkOptions: downlinkOptions,
Trace: activation.Trace,
}
// Prepare LoRaWAN activation
status, err := gateway.Status.Get()
if err != nil {
return nil, err
}
region := status.FrequencyPlan
if region == "" {
region = band.Guess(uplink.GatewayMetadata.Frequency)
}
band, err := band.Get(region)
if err != nil {
return nil, err
}
lorawan := request.ActivationMetadata.GetLoRaWAN()
lorawan.FrequencyPlan = pb_lorawan.FrequencyPlan(pb_lorawan.FrequencyPlan_value[region])
lorawan.Rx1DROffset = 0
lorawan.Rx2DR = uint32(band.RX2DataRate)
lorawan.RxDelay = uint32(band.ReceiveDelay1.Seconds())
if band.CFList != nil {
lorawan.CFList = new(pb_lorawan.CFList)
for _, freq := range band.CFList {
lorawan.CFList.Freq = append(lorawan.CFList.Freq, freq)
}
}
ctx = ctx.WithField("NumBrokers", len(brokers))
request.Trace = request.Trace.WithEvent(trace.ForwardEvent,
"brokers", len(brokers),
)
if gateway != nil && gateway.MonitorStream != nil {
forwarded = true
gateway.MonitorStream.Send(activation)
}
// Forward to all brokers and collect responses
var wg sync.WaitGroup
responses := make(chan *pb_broker.DeviceActivationResponse, len(brokers))
for _, broker := range brokers {
broker, err := r.getBroker(broker)
if err != nil {
continue
}
// Do async request
wg.Add(1)
go func() {
ctx, cancel := context.WithTimeout(r.Component.GetContext(""), 5*time.Second)
defer cancel()
res, err := broker.client.Activate(ctx, request)
if err == nil && res != nil {
responses <- res
}
wg.Done()
}()
}
// Make sure to close channel when all requests are done
go func() {
wg.Wait()
close(responses)
}()
var gotFirst bool
for res := range responses {
if gotFirst {
ctx.Warn("Duplicate Activation Response")
} else {
gotFirst = true
downlink := &pb_broker.DownlinkMessage{
Payload: res.Payload,
Message: res.Message,
DownlinkOption: res.DownlinkOption,
Trace: res.Trace,
}
err := r.HandleDownlink(downlink)
if err != nil {
ctx.Warn("Could not send downlink for Activation")
gotFirst = false // try again
}
}
}
// Activation not accepted by any broker
if !gotFirst {
ctx.Debug("Activation not accepted at this gateway")
return nil, errors.New("Activation not accepted at this Gateway")
}
// Activation accepted by (at least one) broker
ctx.Debug("Activation accepted")
return &pb.DeviceActivationResponse{}, nil
}