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ctrl/process.go

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package ctrl
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import (
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"context"
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"crypto/ed25519"
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"errors"
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"fmt"
"log"
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"time"
"github.com/nats-io/nats.go"
"github.com/prometheus/client_golang/prometheus"
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// "google.golang.org/protobuf/internal/errors"
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)
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// process holds all the logic to handle a message type and it's
// method, subscription/publishin messages for a subject, and more.
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type process struct {
// isSubProcess is used to indentify subprocesses spawned by other processes.
isSubProcess bool
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// server
server *server
// messageID
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messageID int
// the subject used for the specific process. One process
// can contain only one sender on a message bus, hence
// also one subject
subject Subject
// Put a node here to be able know the node a process is at.
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node Node
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// The processID for the current process
processID int
// methodsAvailable
methodsAvailable MethodsAvailable
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// procFunc is a function that will be started when a worker process
// is started. If a procFunc is registered when creating a new process
// the procFunc will be started as a go routine when the process is started,
// and stopped when the process is stopped.
//
// A procFunc can be started both for publishing and subscriber processes.
//
// When used with a subscriber process the usecase is most likely to handle
// some kind of state needed for a request type. The handlers themselves
// can not hold state since they are only called once per message received,
// and exits when the message is handled leaving no state behind. With a procfunc
// we can have a process function running at all times tied to the process, and
// this function can be able to hold the state needed in a certain scenario.
//
// With a subscriber handler you generally take the message in the handler and
// pass it on to the procFunc by putting it on the procFuncCh<-, and the
// message can then be read from the procFuncCh inside the procFunc, and we
// can do some further work on it, for example update registry for metrics that
// is needed for that specific request type.
//
// With a publisher process you can attach a static function that will do some
// work to a request type, and publish the result.
//
// procFunc's can also be used to wrap in other types which we want to
// work with. An example can be handling of metrics which the message
// have no notion of, but a procFunc can have that wrapped in from when it was constructed.
procFunc func(ctx context.Context, proc process, procFuncCh chan Message) error
// The channel to send a messages to the procFunc go routine.
// This is typically used within the methodHandler for so we
// can pass messages between the procFunc and the handler.
procFuncCh chan Message
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// copy of the configuration from server
configuration *Configuration
// The new messages channel copied from *Server
newMessagesCh chan<- Message
// The structure who holds all processes information
processes *processes
// nats connection
natsConn *nats.Conn
// natsSubscription returned when calling natsConn.Subscribe
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natsSubscription *nats.Subscription
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// context
ctx context.Context
// context cancelFunc
ctxCancel context.CancelFunc
// Process name
processName processName
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// handler is used to directly attach a handler to a process upon
// creation of the process, like when a process is spawning a sub
// process like copySrc do. If we're not spawning a sub process
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// and it is a regular process the handler to use is found with the
// getHandler method
handler func(proc process, message Message, node string) ([]byte, error)
// startup holds the startup functions for starting up publisher
// or subscriber processes
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startup *startup
// Signatures
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nodeAuth *nodeAuth
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// centralAuth
centralAuth *centralAuth
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// errorKernel
errorKernel *errorKernel
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// metrics
metrics *metrics
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}
// prepareNewProcess will set the the provided values and the default
// values for a process.
func newProcess(ctx context.Context, server *server, subject Subject) process {
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// create the initial configuration for a sessions communicating with 1 host process.
server.processes.mu.Lock()
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server.processes.lastProcessID++
pid := server.processes.lastProcessID
server.processes.mu.Unlock()
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ctx, cancel := context.WithCancel(ctx)
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var method Method
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proc := process{
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server: server,
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messageID: 0,
subject: subject,
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node: Node(server.configuration.NodeName),
processID: pid,
methodsAvailable: method.GetMethodsAvailable(),
newMessagesCh: server.newMessagesCh,
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configuration: server.configuration,
processes: server.processes,
natsConn: server.natsConn,
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ctx: ctx,
ctxCancel: cancel,
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startup: newStartup(server),
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nodeAuth: server.nodeAuth,
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centralAuth: server.centralAuth,
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errorKernel: server.errorKernel,
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metrics: server.metrics,
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}
// We use the full name of the subject to identify a unique
// process. We can do that since a process can only handle
// one request type.
proc.processName = processNameGet(proc.subject.name())
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return proc
}
// The purpose of this function is to check if we should start a
// publisher or subscriber process, where a process is a go routine
// that will handle either sending or receiving messages on one
// subject.
//
// It will give the process the next available ID, and also add the
// process to the processes map in the server structure.
func (p process) start() {
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// Add prometheus metrics for the process.
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if !p.isSubProcess {
p.metrics.promProcessesAllRunning.With(prometheus.Labels{"processName": string(p.processName)})
}
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// Start a subscriber worker, which will start a go routine (process)
// to handle executing the request method defined in the message.
p.startSubscriber()
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// Add information about the new process to the started processes map.
p.processes.active.mu.Lock()
p.processes.active.procNames[p.processName] = p
p.processes.active.mu.Unlock()
er := fmt.Errorf("successfully started process: %v", p.processName)
p.errorKernel.logDebug(er)
}
func (p process) startSubscriber() {
// If there is a procFunc for the process, start it.
if p.procFunc != nil {
// Initialize the channel for communication between the proc and
// the procFunc.
p.procFuncCh = make(chan Message)
// Start the procFunc in it's own anonymous func so we are able
// to get the return error.
go func() {
err := p.procFunc(p.ctx, p, p.procFuncCh)
if err != nil {
er := fmt.Errorf("error: spawnWorker: start procFunc failed: %v", err)
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p.errorKernel.errSend(p, Message{}, er, logError)
}
}()
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}
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p.natsSubscription = p.startNatsSubscriber()
// We also need to be able to remove all the information about this process
// when the process context is canceled.
go func() {
<-p.ctx.Done()
err := p.natsSubscription.Unsubscribe()
if err != nil {
er := fmt.Errorf("error: spawnWorker: got <-ctx.Done, but unable to unsubscribe natsSubscription failed: %v", err)
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p.errorKernel.errSend(p, Message{}, er, logError)
p.errorKernel.logDebug(er)
}
p.processes.active.mu.Lock()
delete(p.processes.active.procNames, p.processName)
p.processes.active.mu.Unlock()
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er := fmt.Errorf("successfully stopped process: %v", p.processName)
p.errorKernel.logDebug(er)
}()
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}
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var (
ErrACKSubscribeRetry = errors.New("ctrl: retrying to subscribe for ack message")
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)
// publishNats will create the Nats message with headers and payload.
// The payload of the nats message, which is the ctrl message will be
// serialized and compress before put in the data field of the nats
// message.
// It will also take care of resending if not delievered, and timeouts.
func (p process) publishNats(natsMsgPayload []byte, natsMsgHeader nats.Header, natsConn *nats.Conn, message Message) {
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retryAttempts := 0
if message.RetryWait <= 0 {
message.RetryWait = 0
}
subject := newSubject(message.Method, string(message.ToNode))
// The for loop will run until the message is delivered successfully,
// or that retries are reached.
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for {
msg := &nats.Msg{
Subject: string(subject.name()),
// Subject: fmt.Sprintf("%s.%s.%s", proc.node, "command", "CLICommandRequest"),
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// Structure of the reply message are:
// <nodename>.<message type>.<method>.reply
Reply: fmt.Sprintf("%s.reply", subject.name()),
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Data: natsMsgPayload,
Header: natsMsgHeader,
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}
er := fmt.Errorf("info: preparing to send nats message with subject %v, id: %v", msg.Subject, message.ID)
p.errorKernel.logDebug(er)
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var err error
switch {
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// If it is a NACK message we just deliver the message and return
// here so we don't create a ACK message and then stop waiting for it.
case message.ACKTimeout < 1:
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err = func() error {
err := natsConn.PublishMsg(msg)
if err != nil {
er := fmt.Errorf("error: nats publish for message with subject failed: %v", err)
p.errorKernel.logDebug(er)
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return ErrACKSubscribeRetry
}
p.metrics.promNatsDeliveredTotal.Inc()
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// The remaining logic is for handling ACK messages, so we return here
// since it was a NACK message, and all or now done.
return nil
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}()
case message.ACKTimeout >= 1:
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// The function below will return nil if the message should not be retried.
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//
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// All other errors happening will return ErrACKSubscribeRetry which will lead
// to a 'continue' for the for loop when checking the error directly after this
// function is called
err = func() error {
defer func() { retryAttempts++ }()
if retryAttempts > message.Retries {
// max retries reached
er := fmt.Errorf("info: toNode: %v, fromNode: %v, subject: %v, methodArgs: %v: max retries reached, check if node is up and running and if it got a subscriber started for the given REQ type", message.ToNode, message.FromNode, msg.Subject, message.MethodArgs)
// We do not want to send errorLogs for REQErrorLog type since
// it will just cause an endless loop.
if message.Method != ErrorLog {
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p.errorKernel.infoSend(p, message, er)
}
p.metrics.promNatsMessagesFailedACKsTotal.Inc()
return nil
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}
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er := fmt.Errorf("send attempt:%v, max retries: %v, ack timeout: %v, message.ID: %v, method: %v, toNode: %v", retryAttempts, message.Retries, message.ACKTimeout, message.ID, message.Method, message.ToNode)
p.errorKernel.logDebug(er)
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// The SubscribeSync used in the subscriber, will get messages that
// are sent after it started subscribing.
//
// Create a subscriber for the ACK reply message.
subReply, err := natsConn.SubscribeSync(msg.Reply)
defer func() {
err := subReply.Unsubscribe()
if err != nil {
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er := fmt.Errorf("error: nats SubscribeSync: failed when unsubscribing for ACK: %v", err)
p.errorKernel.logDebug(er)
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}
}()
if err != nil {
er := fmt.Errorf("error: nats SubscribeSync failed: failed to create reply message for subject: %v, error: %v", msg.Reply, err)
// sendErrorLogMessage(p.toRingbufferCh, node(p.node), er)
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er = fmt.Errorf("%v, waiting equal to RetryWait %ds before retrying", er, message.RetryWait)
p.errorKernel.logDebug(er)
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time.Sleep(time.Second * time.Duration(message.RetryWait))
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return ErrACKSubscribeRetry
}
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// Publish message
err = natsConn.PublishMsg(msg)
if err != nil {
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er := fmt.Errorf("error: nats publish failed: %v, waiting equal to RetryWait of %ds before retrying", err, message.RetryWait)
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// sendErrorLogMessage(p.toRingbufferCh, node(p.node), er)
p.errorKernel.logDebug(er)
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time.Sleep(time.Second * time.Duration(message.RetryWait))
return ErrACKSubscribeRetry
}
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// Wait up until ACKTimeout specified for a reply,
// continue and resend if no reply received,
// or exit if max retries for the message reached.
//
// The nats.Msg returned is discarded with '_' since
// we don't use it.
_, err = subReply.NextMsg(time.Second * time.Duration(message.ACKTimeout))
if err != nil {
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switch {
case err == nats.ErrNoResponders || err == nats.ErrTimeout:
er := fmt.Errorf("error: ack receive failed: waiting for %v seconds before retrying: subject=%v: %v", message.RetryWait, subject.name(), err)
p.errorKernel.logDebug(er)
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time.Sleep(time.Second * time.Duration(message.RetryWait))
p.metrics.promNatsMessagesMissedACKsTotal.Inc()
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return ErrACKSubscribeRetry
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case err == nats.ErrBadSubscription || err == nats.ErrConnectionClosed:
er := fmt.Errorf("error: ack receive failed: conneciton closed or bad subscription, will not retry message: subject=%v: %v", subject.name(), err)
p.errorKernel.logDebug(er)
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return er
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default:
er := fmt.Errorf("error: ack receive failed: the error was not defined, check if nats client have been updated with new error values, and update ctrl to handle the new error type: subject=%v: %v", subject.name(), err)
p.errorKernel.logDebug(er)
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return er
}
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}
return nil
}()
}
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if err == ErrACKSubscribeRetry {
continue
}
if err != nil {
// All error printing are handled within the function that returns
// the error, so we do nothing and return.
// No more trying to deliver the message
return
}
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// Message were delivered successfully.
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p.metrics.promNatsDeliveredTotal.Inc()
er = fmt.Errorf("info: sent nats message with subject %v, id: %v", msg.Subject, message.ID)
p.errorKernel.logDebug(er)
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return
}
}
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// messageSubscriberHandler will deserialize the message when a new message is
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// received, check the MessageType field in the message to decide what
// kind of message it is and then it will check how to handle that message type,
// and then call the correct method handler for it.
//
// This function should be started in it's own go routine,so
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// one individual handler is started per message received so we can keep
// the state of the message being processed, and then reply back to the
// correct sending process's reply, meaning so we ACK back to the correct
// publisher.
func (p process) messageSubscriberHandler(natsConn *nats.Conn, thisNode string, msg *nats.Msg, subject string) {
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// Variable to hold a copy of the message data, so we don't mess with
// the original data since the original is a pointer value.
msgData := make([]byte, len(msg.Data))
copy(msgData, msg.Data)
// fmt.Printf(" * DEBUG: header value on subscriberHandler: %v\n", msg.Header)
// If debugging is enabled, print the source node name of the nats messages received.
if val, ok := msg.Header["fromNode"]; ok {
er := fmt.Errorf("info: nats message received from %v, with subject %v ", val, subject)
p.errorKernel.logDebug(er)
}
message, err := p.server.messageDeserializeAndUncompress(msgData)
if err != nil {
er := fmt.Errorf("error: messageSubscriberHandler: deserialize and uncompress failed: %v", err)
// p.errorKernel.logDebug(er)
log.Fatalf("%v\n", er)
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}
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// Check if it is an ACK or NACK message, and do the appropriate action accordingly.
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//
// With ACK messages ctrl will keep the state of the message delivery, and try to
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// resend the message if an ACK is not received within the timeout/retries specified
// in the message.
// When a process sends an ACK message, it will stop and wait for the nats-reply message
// for the time specified in the replyTimeout value. If no reply message is received
// within the given timeout the publishing process will try to resend the message for
// number of times specified in the retries field of the ctrl message.
// When receiving a ctrl-message with ACK enabled we send a message back the the
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// node where the message originated using the msg.Reply subject field of the nats-message.
//
// With NACK messages we do not send a nats reply message, so the message will only be
// sent from the publisher once, and if it is not delivered it will not be retried.
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switch {
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// Check for ACK type Event.
case message.ACKTimeout >= 1:
er := fmt.Errorf("subscriberHandler: received ACK message: %v, from: %v, id:%v", message.Method, message.FromNode, message.ID)
p.errorKernel.logDebug(er)
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// When spawning sub processes we can directly assign handlers to the process upon
// creation. We here check if a handler is already assigned, and if it is nil, we
// lookup and find the correct handler to use if available.
if p.handler == nil {
// Look up the method handler for the specified method.
mh, ok := p.methodsAvailable.CheckIfExists(message.Method)
p.handler = mh
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if !ok {
er := fmt.Errorf("error: subscriberHandler: no such method type: %v", p.subject.Method)
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p.errorKernel.errSend(p, message, er, logWarning)
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}
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}
//var err error
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_ = p.callHandler(message, thisNode)
// Send a confirmation message back to the publisher to ACK that the
// message was received by the subscriber. The reply should be sent
// no matter if the handler was executed successfully or not
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natsConn.Publish(msg.Reply, []byte{})
case message.ACKTimeout < 1:
er := fmt.Errorf("subscriberHandler: received NACK message: %v, from: %v, id:%v", message.Method, message.FromNode, message.ID)
p.errorKernel.logDebug(er)
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// When spawning sub processes we can directly assign handlers to the process upon
// creation. We here check if a handler is already assigned, and if it is nil, we
// lookup and find the correct handler to use if available.
if p.handler == nil {
// Look up the method handler for the specified method.
mh, ok := p.methodsAvailable.CheckIfExists(message.Method)
p.handler = mh
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if !ok {
er := fmt.Errorf("error: subscriberHandler: no such method type: %v", p.subject.Method)
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p.errorKernel.errSend(p, message, er, logWarning)
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}
}
// We do not send reply messages for EventNACL, so we can discard the output.
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_ = p.callHandler(message, thisNode)
default:
er := fmt.Errorf("info: did not find that specific type of event: %#v", p.subject.Method)
p.errorKernel.infoSend(p, message, er)
}
}
// callHandler will call the handler for the Request type defined in the message.
// If checking signatures and/or acl's are enabled the signatures they will be
// verified, and if OK the handler is called.
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func (p process) callHandler(message Message, thisNode string) []byte {
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//out := []byte{}
// Call the handler if ACL/signature checking returns true.
// If the handler is to be called in a scheduled manner, we we take care of that too.
go func() {
switch p.verifySigOrAclFlag(message) {
case true:
executeHandler(p, message, thisNode)
case false:
// ACL/Signature checking failed.
er := fmt.Errorf("error: subscriberHandler: ACL were verified not-OK, doing nothing")
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p.errorKernel.errSend(p, message, er, logWarning)
p.errorKernel.logDebug(er)
}
}()
return []byte{}
}
// executeHandler will call the handler for the Request type defined in the message.
func executeHandler(p process, message Message, thisNode string) {
var err error
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// Check if it is a message to run scheduled.
var interval int
var totalTime int
var runAsScheduled bool
switch {
case len(message.Schedule) < 2:
// Not at scheduled message,
case len(message.Schedule) == 2:
interval = message.Schedule[0]
totalTime = message.Schedule[1]
fallthrough
case interval > 0 && totalTime > 0:
runAsScheduled = true
}
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if p.configuration.EnableAclCheck {
// Either ACL were verified OK, or ACL/Signature check was not enabled, so we call the handler.
er := fmt.Errorf("info: subscriberHandler: Either ACL were verified OK, or ACL/Signature check was not enabled, so we call the handler: %v", true)
p.errorKernel.logDebug(er)
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}
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switch {
case !runAsScheduled:
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go func() {
_, err = p.handler(p, message, thisNode)
if err != nil {
er := fmt.Errorf("error: subscriberHandler: handler method failed: %v", err)
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p.errorKernel.errSend(p, message, er, logError)
p.errorKernel.logDebug(er)
}
}()
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case runAsScheduled:
// Create two tickers to use for the scheduling.
intervalTicker := time.NewTicker(time.Second * time.Duration(interval))
totalTimeTicker := time.NewTicker(time.Second * time.Duration(totalTime))
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defer intervalTicker.Stop()
defer totalTimeTicker.Stop()
// Run the handler once, so we don't have to wait for the first ticker.
go func() {
_, err := p.handler(p, message, thisNode)
if err != nil {
er := fmt.Errorf("error: subscriberHandler: handler method failed: %v", err)
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p.errorKernel.errSend(p, message, er, logError)
p.errorKernel.logDebug(er)
}
}()
for {
select {
case <-p.ctx.Done():
er := fmt.Errorf("info: subscriberHandler: proc ctx done: toNode=%v, fromNode=%v, method=%v, methodArgs=%v", message.ToNode, message.FromNode, message.Method, message.MethodArgs)
p.errorKernel.logDebug(er)
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//cancel()
return
case <-totalTimeTicker.C:
// Total time reached. End the process.
//cancel()
er := fmt.Errorf("info: subscriberHandler: schedule totalTime done: toNode=%v, fromNode=%v, method=%v, methodArgs=%v", message.ToNode, message.FromNode, message.Method, message.MethodArgs)
p.errorKernel.logDebug(er)
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return
case <-intervalTicker.C:
go func() {
_, err := p.handler(p, message, thisNode)
if err != nil {
er := fmt.Errorf("error: subscriberHandler: handler method failed: %v", err)
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p.errorKernel.errSend(p, message, er, logError)
p.errorKernel.logDebug(er)
}
}()
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}
}
}
}
// verifySigOrAclFlag will do signature and/or acl checking based on which of
// those features are enabled, and then call the handler.
// The handler will also be called if neither signature or acl checking is enabled
// since it is up to the subscriber to decide if it want to use the auth features
// or not.
func (p process) verifySigOrAclFlag(message Message) bool {
doHandler := false
switch {
// If no checking enabled we should just allow the message.
case !p.nodeAuth.configuration.EnableSignatureCheck && !p.nodeAuth.configuration.EnableAclCheck:
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//log.Printf(" * DEBUG: verify acl/sig: no acl or signature checking at all is enabled, ALLOW the message, method=%v\n", message.Method)
doHandler = true
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// If only sig check enabled, and sig OK, we should allow the message.
case p.nodeAuth.configuration.EnableSignatureCheck && !p.nodeAuth.configuration.EnableAclCheck:
sigOK := p.nodeAuth.verifySignature(message)
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er := fmt.Errorf("verifySigOrAclFlag: verify acl/sig: Only signature checking enabled, ALLOW the message if sigOK, sigOK=%v, method %v", sigOK, message.Method)
p.errorKernel.logDebug(er)
if sigOK {
doHandler = true
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}
// If both sig and acl check enabled, and sig and acl OK, we should allow the message.
case p.nodeAuth.configuration.EnableSignatureCheck && p.nodeAuth.configuration.EnableAclCheck:
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sigOK := p.nodeAuth.verifySignature(message)
aclOK := p.nodeAuth.verifyAcl(message)
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er := fmt.Errorf("verifySigOrAclFlag: verify acl/sig:both signature and acl checking enabled, allow the message if sigOK and aclOK, or method is not REQCliCommand, sigOK=%v, aclOK=%v, method=%v", sigOK, aclOK, message.Method)
p.errorKernel.logDebug(er)
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if sigOK && aclOK {
doHandler = true
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}
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// none of the verification options matched, we should keep the default value
// of doHandler=false, so the handler is not done.
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default:
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er := fmt.Errorf("verifySigOrAclFlag: verify acl/sig: None of the verify flags matched, not doing handler for message, method=%v", message.Method)
p.errorKernel.logDebug(er)
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}
return doHandler
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}
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// SubscribeMessage will register the Nats callback function for the specified
// nats subject. This allows us to receive Nats messages for a given subject
// on a node.
func (p process) startNatsSubscriber() *nats.Subscription {
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subject := string(p.subject.name())
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// natsSubscription, err := p.natsConn.Subscribe(subject, func(msg *nats.Msg) {
natsSubscription, err := p.natsConn.QueueSubscribe(subject, subject, func(msg *nats.Msg) {
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//_, err := p.natsConn.Subscribe(subject, func(msg *nats.Msg) {
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// Start up the subscriber handler.
go p.messageSubscriberHandler(p.natsConn, p.configuration.NodeName, msg, subject)
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})
if err != nil {
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er := fmt.Errorf("error: Subscribe failed: %v", err)
p.errorKernel.logDebug(er)
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return nil
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}
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return natsSubscription
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}
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func (p process) addMethodArgSignature(m Message) []byte {
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argsString := argsToString(m.MethodArgs)
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sign := ed25519.Sign(p.nodeAuth.SignPrivateKey, []byte(argsString))
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return sign
}
func (p process) publishAMessage(m Message, natsConn *nats.Conn) {
// Create the initial header, and set values below depending on the
// various configuration options chosen.
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natsMsgHeader := make(nats.Header)
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natsMsgHeader["fromNode"] = []string{string(p.node)}
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b, err := p.server.messageSerializeAndCompress(m)
if err != nil {
er := fmt.Errorf("error: publishAMessage: serialize and compress failed: %v", err)
p.errorKernel.logDebug(er)
return
}
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// Create the Nats message with headers and payload, and do the
// sending of the message.
p.publishNats(b, natsMsgHeader, natsConn, m)
// Get the process name so we can look up the process in the
// processes map, and increment the message counter.
pn := processNameGet(p.subject.name())
// Increment the counter for the next message to be sent.
p.messageID++
{
p.processes.active.mu.Lock()
p.processes.active.procNames[pn] = p
p.processes.active.mu.Unlock()
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}
// // Handle the error.
// //
// // NOTE: None of the processes above generate an error, so the the
// // if clause will never be triggered. But keeping it here as an example
// // for now for how to handle errors.
// if err != nil {
// // Create an error type which also creates a channel which the
// // errorKernel will send back the action about what to do.
// ep := errorEvent{
// //errorType: logOnly,
// process: p,
// message: m,
// errorActionCh: make(chan errorAction),
// }
// p.errorCh <- ep
//
// // Wait for the response action back from the error kernel, and
// // decide what to do. Should we continue, quit, or .... ?
// switch <-ep.errorActionCh {
// case errActionContinue:
// // Just log and continue
// log.Printf("The errAction was continue...so we're continuing\n")
// case errActionKill:
// log.Printf("The errAction was kill...so we're killing\n")
// // ....
// default:
// log.Printf("Info: publishMessages: The errAction was not defined, so we're doing nothing\n")
// }
// }
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}