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ctrl/server.go

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// Notes:
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package steward
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import (
"context"
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"fmt"
"log"
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"net"
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"net/http"
"os"
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"path/filepath"
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"time"
"github.com/nats-io/nats.go"
"github.com/prometheus/client_golang/prometheus"
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)
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type processName string
// Will return a process name made up of subjectName+processKind
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func processNameGet(sn subjectName, pk processKind) processName {
pn := fmt.Sprintf("%s_%s", sn, pk)
return processName(pn)
}
// server is the structure that will hold the state about spawned
// processes on a local instance.
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type server struct {
// The main background context
ctx context.Context
// The CancelFunc for the main context
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cancel context.CancelFunc
// Configuration options used for running the server
configuration *Configuration
// The nats connection to the broker
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natsConn *nats.Conn
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// net listener for communicating via the steward socket
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StewardSocket net.Listener
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// net listener for the communication with Stew
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StewSocket net.Listener
// processes holds all the information about running processes
processes *processes
// The name of the node
nodeName string
// newMessagesCh are the channel where new messages to be handled
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// by the system are put. So if any process want's to send a message
// like an error message you just put the message on the newMessagesCh.
//
// In general the ringbuffer will read this
// channel for messages to put on the buffer.
//
// Example:
// A message is read from the socket, then put on the newMessagesCh
// and then put on the ringbuffer.
newMessagesCh chan []subjectAndMessage
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// errorKernel is doing all the error handling like what to do if
// an error occurs.
errorKernel *errorKernel
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// Ring buffer
ringBuffer *ringBuffer
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// metric exporter
metrics *metrics
// Version of package
version string
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}
// newServer will prepare and return a server type
func NewServer(c *Configuration, version string) (*server, error) {
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// Set up the main background context.
ctx, cancel := context.WithCancel(context.Background())
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var opt nats.Option
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if c.RootCAPath != "" {
opt = nats.RootCAs(c.RootCAPath)
}
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if c.NkeySeedFile != "" {
var err error
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opt, err = nats.NkeyOptionFromSeed(c.NkeySeedFile)
if err != nil {
cancel()
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return nil, fmt.Errorf("error: failed to read nkey seed file: %v", err)
}
}
var conn *nats.Conn
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// Connect to the nats server, and retry until succesful.
for {
var err error
// Setting MaxReconnects to -1 which equals unlimited.
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conn, err = nats.Connect(c.BrokerAddress,
opt,
nats.MaxReconnects(-1),
nats.ReconnectJitter(time.Duration(c.NatsReconnectJitter)*time.Millisecond, time.Duration(c.NatsReconnectJitterTLS)*time.Second),
nats.Timeout(time.Second*time.Duration(c.NatsConnOptTimeout)),
)
// If no servers where available, we loop and retry until succesful.
if err != nil {
log.Printf("error: could not connect, waiting %v seconds, and retrying: %v\n", c.NatsConnectRetryInterval, err)
time.Sleep(time.Duration(time.Second * time.Duration(c.NatsConnectRetryInterval)))
continue
}
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break
}
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log.Printf(" * conn.Opts.ReconnectJitterTLS: %v\n", conn.Opts.ReconnectJitterTLS)
log.Printf(" * conn.Opts.ReconnectJitter: %v\n", conn.Opts.ReconnectJitter)
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// Prepare the connection to the Steward socket file
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// Check if socket folder exists, if not create it
if _, err := os.Stat(c.SocketFolder); os.IsNotExist(err) {
err := os.MkdirAll(c.SocketFolder, 0700)
if err != nil {
cancel()
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return nil, fmt.Errorf("error: failed to create socket folder directory %v: %v", c.SocketFolder, err)
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}
}
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// Just as an extra check we eventually delete any existing Steward socket files if found.
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socketFilepath := filepath.Join(c.SocketFolder, "steward.sock")
if _, err := os.Stat(socketFilepath); !os.IsNotExist(err) {
err = os.Remove(socketFilepath)
if err != nil {
er := fmt.Errorf("error: could not delete sock file: %v", err)
cancel()
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return nil, er
}
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}
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// Open the socket.
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nl, err := net.Listen("unix", socketFilepath)
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if err != nil {
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er := fmt.Errorf("error: failed to open socket: %v", err)
cancel()
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return nil, er
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}
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// ---
// Prepare the connection to the Stew socket file
// Check if socket folder exists, if not create it
if _, err := os.Stat(c.SocketFolder); os.IsNotExist(err) {
err := os.MkdirAll(c.SocketFolder, 0700)
if err != nil {
cancel()
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return nil, fmt.Errorf("error: failed to create socket folder directory %v: %v", c.SocketFolder, err)
}
}
stewSocketFilepath := filepath.Join(c.SocketFolder, "stew.sock")
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// Just as an extra check we eventually delete any existing Stew socket files if found.
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if _, err := os.Stat(stewSocketFilepath); !os.IsNotExist(err) {
err = os.Remove(stewSocketFilepath)
if err != nil {
er := fmt.Errorf("error: could not delete stew.sock file: %v", err)
cancel()
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return nil, er
}
}
stewNL, err := net.Listen("unix", stewSocketFilepath)
if err != nil {
er := fmt.Errorf("error: failed to open stew socket: %v", err)
cancel()
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return nil, er
}
// ---
metrics := newMetrics(c.PromHostAndPort)
s := &server{
ctx: ctx,
cancel: cancel,
configuration: c,
nodeName: c.NodeName,
natsConn: conn,
StewardSocket: nl,
StewSocket: stewNL,
processes: newProcesses(ctx, metrics),
newMessagesCh: make(chan []subjectAndMessage),
metrics: metrics,
version: version,
}
// Create the default data folder for where subscribers should
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// write it's data, check if data folder exist, and create it if needed.
if _, err := os.Stat(c.SubscribersDataFolder); os.IsNotExist(err) {
if c.SubscribersDataFolder == "" {
return nil, fmt.Errorf("error: subscribersDataFolder value is empty, you need to provide the config or the flag value at startup %v: %v", c.SubscribersDataFolder, err)
}
err := os.Mkdir(c.SubscribersDataFolder, 0700)
if err != nil {
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return nil, fmt.Errorf("error: failed to create data folder directory %v: %v", c.SubscribersDataFolder, err)
}
log.Printf("info: Creating subscribers data folder at %v\n", c.SubscribersDataFolder)
}
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return s, nil
}
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// Start will spawn up all the predefined subscriber processes.
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// Spawning of publisher processes is done on the fly by checking
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// if there is publisher process for a given message subject, and
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// if it does not exist it will spawn one.
func (s *server) Start() {
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log.Printf("Starting steward, version=%+v\n", s.version)
s.metrics.promVersion.With(prometheus.Labels{"version": string(s.version)})
// Start the error kernel that will do all the error handling
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// that is not done within a process.
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s.errorKernel = newErrorKernel(s.ctx)
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go func() {
err := s.errorKernel.start(s.newMessagesCh)
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if err != nil {
log.Printf("%v\n", err)
}
}()
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// Start collecting the metrics
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go func() {
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err := s.metrics.start()
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if err != nil {
log.Printf("%v\n", err)
os.Exit(1)
}
}()
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// Start the checking the input socket for new messages from operator.
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go s.readSocket()
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// Check if we should start the tcp listener for new messages from operator.
if s.configuration.TCPListener != "" {
go s.readTCPListener()
}
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// Check if we should start the http listener for new messages from operator.
if s.configuration.HTTPListener != "" {
go s.readHttpListener()
}
// Start up the predefined subscribers.
//
// Since all the logic to handle processes are tied to the process
// struct, we need to create an initial process to start the rest.
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//
// NB: The context of the initial process are set in processes.Start.
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sub := newSubject(REQInitial, s.nodeName)
p := newProcess(context.TODO(), s.metrics, s.natsConn, s.processes, s.newMessagesCh, s.configuration, sub, s.errorKernel.errorCh, "", nil)
// Start all wanted subscriber processes.
s.processes.Start(p)
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time.Sleep(time.Second * 1)
s.processes.printProcessesMap()
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// Start exposing the the data folder via HTTP if flag is set.
if s.configuration.ExposeDataFolder != "" {
log.Printf("info: Starting expose of data folder via HTTP\n")
go s.exposeDataFolder(s.ctx)
}
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// Start the processing of new messages from an input channel.
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// NB: We might need to create a sub context for the ringbuffer here
// so we can cancel this context last, and not use the server.
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s.routeMessagesToProcess("./incomingBuffer.db")
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}
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// Will stop all processes started during startup.
func (s *server) Stop() {
// Stop the started pub/sub message processes.
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s.processes.Stop()
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log.Printf("info: stopped all subscribers\n")
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// Stop the errorKernel.
s.errorKernel.stop()
log.Printf("info: stopped the errorKernel\n")
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// Stop the main context.
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s.cancel()
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log.Printf("info: stopped the main context\n")
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// Delete the socket file when the program exits.
socketFilepath := filepath.Join(s.configuration.SocketFolder, "steward.sock")
if _, err := os.Stat(socketFilepath); !os.IsNotExist(err) {
err = os.Remove(socketFilepath)
if err != nil {
er := fmt.Errorf("error: could not delete sock file: %v", err)
log.Printf("%v\n", er)
}
}
}
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// sendErrorMessage will put the error message directly on the channel that is
// read by the nats publishing functions.
func sendErrorLogMessage(conf *Configuration, metrics *metrics, newMessagesCh chan<- []subjectAndMessage, FromNode Node, theError error) {
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// NB: Adding log statement here for more visuality during development.
log.Printf("%v\n", theError)
sam := createErrorMsgContent(conf, FromNode, theError)
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newMessagesCh <- []subjectAndMessage{sam}
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metrics.promErrorMessagesSentTotal.Inc()
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}
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// sendInfoMessage will put the error message directly on the channel that is
// read by the nats publishing functions.
func sendInfoLogMessage(conf *Configuration, metrics *metrics, newMessagesCh chan<- []subjectAndMessage, FromNode Node, theError error) {
// NB: Adding log statement here for more visuality during development.
log.Printf("%v\n", theError)
sam := createErrorMsgContent(conf, FromNode, theError)
newMessagesCh <- []subjectAndMessage{sam}
metrics.promInfoMessagesSentTotal.Inc()
}
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// createErrorMsgContent will prepare a subject and message with the content
// of the error
func createErrorMsgContent(conf *Configuration, FromNode Node, theError error) subjectAndMessage {
// Add time stamp
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er := fmt.Sprintf("%v, node: %v, %v\n", time.Now().Format("Mon Jan _2 15:04:05 2006"), FromNode, theError.Error())
sam := subjectAndMessage{
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Subject: newSubject(REQErrorLog, "errorCentral"),
Message: Message{
Directory: "errorLog",
ToNode: "errorCentral",
FromNode: FromNode,
FileName: "error.log",
Data: []string{er},
Method: REQErrorLog,
ACKTimeout: conf.ErrorMessageTimeout,
Retries: conf.ErrorMessageRetries,
},
}
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return sam
}
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// Contains the sam value as it is used in the state DB, and also a
// delivered function to be called when this message is picked up, so
// we can control if messages gets stale at some point.
type samDBValueAndDelivered struct {
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samDBValue samDBValue
delivered func()
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}
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// routeMessagesToProcess takes a database name it's input argument.
// The database will be used as the persistent k/v store for the work
// queue which is implemented as a ring buffer.
// The newMessagesCh are where we get new messages to publish.
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// Incomming messages will be routed to the correct subject process, where
// the handling of each nats subject is handled within it's own separate
// worker process.
// It will also handle the process of spawning more worker processes
// for publisher subjects if it does not exist.
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func (s *server) routeMessagesToProcess(dbFileName string) {
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// Prepare and start a new ring buffer
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var bufferSize int = s.configuration.RingBufferSize
const samValueBucket string = "samValueBucket"
const indexValueBucket string = "indexValueBucket"
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s.ringBuffer = newringBuffer(s.ctx, s.metrics, s.configuration, bufferSize, dbFileName, Node(s.nodeName), s.newMessagesCh, samValueBucket, indexValueBucket)
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ringBufferInCh := make(chan subjectAndMessage)
ringBufferOutCh := make(chan samDBValueAndDelivered)
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// start the ringbuffer.
s.ringBuffer.start(s.ctx, ringBufferInCh, ringBufferOutCh)
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// Start reading new fresh messages received on the incomming message
// pipe/file requested, and fill them into the buffer.
go func() {
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for sams := range s.newMessagesCh {
for _, sam := range sams {
ringBufferInCh <- sam
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}
}
close(ringBufferInCh)
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}()
// Process the messages that are in the ring buffer. Check and
// send if there are a specific subject for it, and if no subject
// exist throw an error.
var coe CommandOrEvent
coeAvailable := coe.GetCommandOrEventAvailable()
var method Method
methodsAvailable := method.GetMethodsAvailable()
go func() {
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for samDBVal := range ringBufferOutCh {
// Signal back to the ringbuffer that message have been picked up.
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samDBVal.delivered()
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sam := samDBVal.samDBValue.Data
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// Check if the format of the message is correct.
if _, ok := methodsAvailable.CheckIfExists(sam.Message.Method); !ok {
er := fmt.Errorf("error: routeMessagesToProcess: the method do not exist, message dropped: %v", sam.Message.Method)
sendErrorLogMessage(s.configuration, s.metrics, s.newMessagesCh, Node(s.nodeName), er)
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continue
}
if !coeAvailable.CheckIfExists(sam.Subject.CommandOrEvent, sam.Subject) {
er := fmt.Errorf("error: routeMessagesToProcess: the command or event do not exist, message dropped: %v", sam.Message.Method)
sendErrorLogMessage(s.configuration, s.metrics, s.newMessagesCh, Node(s.nodeName), er)
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continue
}
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for {
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// Looping here so we are able to redo the sending
// of the last message if a process for the specified subject
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// is not present. The process will then be created, and
// the code will loop back here.
m := sam.Message
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// Check if it is a relay message
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if m.RelayViaNode != "" && m.RelayViaNode != Node(s.nodeName) {
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// Keep the original values.
m.RelayFromNode = m.FromNode
m.RelayToNode = m.ToNode
m.RelayOriginalViaNode = m.RelayViaNode
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m.RelayOriginalMethod = m.Method
// Convert it to a relay initial message.
m.Method = REQRelayInitial
// Set the toNode of the message to this host, so we send
// it to ourselves again and pick it up with the subscriber
// for the REQReplyInitial handler method.
m.ToNode = Node(s.nodeName)
// We are now done with the initial checking for if the new
// message is a relay message, so we empty the viaNode field
// so we don't end in an endless loop here.
// The value is stored in RelayOriginalViaNode for later use.
m.RelayViaNode = ""
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sam.Subject = newSubject(REQRelayInitial, string(s.nodeName))
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}
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subjName := sam.Subject.name()
pn := processNameGet(subjName, processKindPublisher)
// Check if there is a map of type map[int]process registered
// for the processName, and if it exists then return it.
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s.processes.active.mu.Lock()
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proc, ok := s.processes.active.procNames[pn]
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s.processes.active.mu.Unlock()
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// If found a map above, range it, and are there already a process
// for that subject, put the message on that processes incomming
// message channel.
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if ok {
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// We have found the process to route the message to, deliver it.
proc.subject.messageCh <- m
break
} else {
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// If a publisher process do not exist for the given subject, create it.
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log.Printf("info: processNewMessages: did not find that specific subject, starting new process for subject: %v\n", subjName)
sub := newSubject(sam.Subject.Method, sam.Subject.ToNode)
proc := newProcess(s.ctx, s.metrics, s.natsConn, s.processes, s.newMessagesCh, s.configuration, sub, s.errorKernel.errorCh, processKindPublisher, nil)
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proc.spawnWorker(s.processes, s.natsConn)
log.Printf("info: processNewMessages: new process started, subject: %v, processID: %v\n", subjName, proc.processID)
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// Now when the process is spawned we continue,
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// and send the message to that new process.
continue
}
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}
}
}()
}
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func (s *server) exposeDataFolder(ctx context.Context) {
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fileHandler := func(w http.ResponseWriter, r *http.Request) {
// w.Header().Set("Content-Type", "text/html")
http.FileServer(http.Dir(s.configuration.SubscribersDataFolder)).ServeHTTP(w, r)
}
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//create a file server, and serve the files found in ./
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//fd := http.FileServer(http.Dir(s.configuration.SubscribersDataFolder))
http.HandleFunc("/", fileHandler)
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// we create a net.Listen type to use later with the http.Serve function.
nl, err := net.Listen("tcp", s.configuration.ExposeDataFolder)
if err != nil {
log.Println("error: starting net.Listen: ", err)
}
// start the web server with http.Serve instead of the usual http.ListenAndServe
err = http.Serve(nl, nil)
if err != nil {
log.Printf("Error: failed to start web server: %v\n", err)
}
os.Exit(1)
}