circolog/hub.go
2018-12-25 01:43:40 +01:00

168 lines
4 KiB
Go

package circolog
import (
"container/ring"
"fmt"
"os"
"time"
"gopkg.in/mcuadros/go-syslog.v2/format"
)
// Client represent a client connected via websocket. Its most important field is the messages channel, where
// new messages are sent.
type Client struct {
Messages chan format.LogParts // only hub should write/close this
Options ClientOptions
}
type ClientOptions struct {
BacklogLength int // how many past messages the client wants to receive upon connection
Nofollow bool // if Nofollow is true, the hub will not keep this client permanently. Rather, it will send every message to "Messages" and close the channel. Use this if you want to get the messages one-shot
}
// The Hub is the central "registry"; it keeps both the data storage and clients notifications
//
// The channel "register" and "unregister" can be seen as "command"
// keep in mind that "registering" is what you do also to get messages in a one-time fashion. In fact, Client
// has "options", such as Nofollow, to explain the Hub what should be given
// An HubCommand is an "enum" of different commands
type HubCommand int
const (
CommandClear = iota
CommandPauseToggle = iota
CommandStatus = iota
)
// An HubFullCommand is a Command, complete with arguments
type HubFullCommand struct {
Command HubCommand
Parameters map[string]interface{}
Response chan CommandResponse
}
type CommandResponse struct {
Value interface{}
}
type Hub struct {
Register chan Client
Unregister chan Client
LogMessages chan format.LogParts
Commands chan HubFullCommand
clients map[Client]bool
circbuf *ring.Ring
}
// NewHub creates an empty hub
func NewHub(ringBufSize int) Hub {
return Hub{clients: make(map[Client]bool),
Register: make(chan Client),
Unregister: make(chan Client),
LogMessages: make(chan format.LogParts),
Commands: make(chan HubFullCommand),
circbuf: ring.New(ringBufSize),
}
}
func (h *Hub) register(cl Client) {
if _, ok := h.clients[cl]; !ok {
if !cl.Options.Nofollow { // we won't need it in future
h.clients[cl] = true
}
howmany := cl.Options.BacklogLength
if howmany > h.circbuf.Len() || howmany == -1 {
howmany = h.circbuf.Len()
}
buf := h.circbuf.Move(-howmany)
for i := 0; i < howmany; i++ {
item := buf.Value
if item != nil {
select { // send with short timeout
case cl.Messages <- item.(format.LogParts):
break
case <-time.After(500 * time.Millisecond):
close(cl.Messages)
return
}
}
buf = buf.Next()
}
if cl.Options.Nofollow {
close(cl.Messages)
}
}
}
// Run is hub main loop; keeps everything going
func (h *Hub) Run() {
active := true
for {
select {
case cl := <-h.Register:
h.register(cl)
case cl := <-h.Unregister:
_, ok := h.clients[cl]
if ok {
close(cl.Messages)
delete(h.clients, cl)
}
case msg := <-h.LogMessages:
if active == true {
h.circbuf.Value = msg
h.circbuf = h.circbuf.Next()
for client := range h.clients {
select { // send without blocking
case client.Messages <- msg:
break
default:
break
}
}
}
case cmd := <-h.Commands:
switch cmd.Command {
case CommandClear:
h.clear()
cmd.Response <- CommandResponse{Value: true}
case CommandPauseToggle:
togglePause(cmd.Parameters["waitTime"].(time.Duration), &active)
if active {
fmt.Print("un")
}
fmt.Println("paused")
cmd.Response <- CommandResponse{Value: active}
case CommandStatus:
cmd.Response <- CommandResponse{Value: map[string]interface{}{
"size": h.circbuf.Len(),
"paused": !active,
}}
}
}
}
}
func togglePause(waitTime time.Duration, status *bool) {
if waitTime != 0 {
go func() {
time.Sleep(waitTime)
fmt.Fprintln(os.Stderr, "toggling again")
togglePause(0, status)
}()
}
*status = !*status
}
// Clear removes all elements from the buffer
func (h *Hub) clear() {
buf := h.circbuf
for i := 0; i < buf.Len(); i++ {
buf.Value = nil
buf = buf.Next()
}
}