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gosora/websockets.go
Azareal 5a43432b80 Replaced most of the uses of fmt with log. 
Replaced the io.Writers with http.ResponseWriters.
Refactored the compiled template calls.
Redirect port 443 to port 80.
Catch more errors from templates.
Fixed a few mutexes which are never unlocked.
Eliminated an unnecessary parameter in InternalError()
Temporarily commented out users_penalties so that the installer will succeed.
A couple more template types can be remapped now.
Tweaked the theme.
2017-08-13 12:22:34 +01:00

432 lines
11 KiB
Go
Raw Blame History

// +build !no_ws
package main
import(
"fmt"
"sync"
"time"
"bytes"
"strconv"
"errors"
"runtime"
"net/http"
"github.com/gorilla/websocket"
"github.com/Azareal/gopsutil/cpu"
"github.com/Azareal/gopsutil/mem"
)
type WS_User struct
{
conn *websocket.Conn
User *User
}
type WS_Hub struct
{
online_users map[int]*WS_User
online_guests map[*WS_User]bool
guests sync.RWMutex
users sync.RWMutex
}
var ws_hub WS_Hub
var ws_upgrader = websocket.Upgrader{ReadBufferSize:1024,WriteBufferSize:1024}
var ws_nouser error = errors.New("This user isn't connected via WebSockets")
func init() {
enable_websockets = true
admin_stats_watchers = make(map[*WS_User]bool)
ws_hub = WS_Hub{
online_users: make(map[int]*WS_User),
online_guests: make(map[*WS_User]bool),
}
}
func (hub *WS_Hub) guest_count() int {
defer hub.guests.RUnlock()
hub.guests.RLock()
return len(hub.online_guests)
}
func (hub *WS_Hub) user_count() int {
defer hub.users.RUnlock()
hub.users.RLock()
return len(hub.online_users)
}
func (hub *WS_Hub) broadcast_message(msg string) error {
hub.users.RLock()
for _, ws_user := range hub.online_users {
w, err := ws_user.conn.NextWriter(websocket.TextMessage)
if err != nil {
return err
}
w.Write([]byte(msg))
}
hub.users.RUnlock()
return nil
}
func (hub *WS_Hub) push_message(targetUser int, msg string) error {
hub.users.RLock()
ws_user, ok := hub.online_users[targetUser]
hub.users.RUnlock()
if !ok {
return ws_nouser
}
w, err := ws_user.conn.NextWriter(websocket.TextMessage)
if err != nil {
return err
}
w.Write([]byte(msg))
w.Close()
return nil
}
func(hub *WS_Hub) push_alert(targetUser int, event string, elementType string, actor_id int, targetUser_id int, elementID int) error {
//log.Print("In push_alert")
hub.users.RLock()
ws_user, ok := hub.online_users[targetUser]
hub.users.RUnlock()
if !ok {
return ws_nouser
}
//log.Print("Building alert")
alert, err := build_alert(event, elementType, actor_id, targetUser_id, elementID, *ws_user.User)
if err != nil {
return err
}
//log.Print("Getting WS Writer")
w, err := ws_user.conn.NextWriter(websocket.TextMessage)
if err != nil {
return err
}
w.Write([]byte(alert))
w.Close()
return nil
}
func(hub *WS_Hub) push_alerts(users []int, event string, elementType string, actor_id int, targetUser_id int, elementID int) error {
//log.Print("In push_alerts")
var ws_users []*WS_User
hub.users.RLock()
// We don't want to keep a lock on this for too long, so we'll accept some nil pointers
for _, uid := range users {
ws_users = append(ws_users, hub.online_users[uid])
}
hub.users.RUnlock()
if len(ws_users) == 0 {
return ws_nouser
}
var errs []error
for _, ws_user := range ws_users {
if ws_user == nil {
continue
}
//log.Print("Building alert")
alert, err := build_alert(event, elementType, actor_id, targetUser_id, elementID, *ws_user.User)
if err != nil {
errs = append(errs,err)
}
//log.Print("Getting WS Writer")
w, err := ws_user.conn.NextWriter(websocket.TextMessage)
if err != nil {
errs = append(errs,err)
}
w.Write([]byte(alert))
w.Close()
}
// Return the first error
if len(errs) != 0 {
for _, err := range errs {
return err
}
}
return nil
}
func route_websockets(w http.ResponseWriter, r *http.Request, user User) {
conn, err := ws_upgrader.Upgrade(w,r,nil)
if err != nil {
return
}
userptr, err := users.CascadeGet(user.ID)
if err != nil && err != ErrStoreCapacityOverflow {
return
}
ws_user := &WS_User{conn,userptr}
if user.ID == 0 {
ws_hub.guests.Lock()
ws_hub.online_guests[ws_user] = true
ws_hub.guests.Unlock()
} else {
ws_hub.users.Lock()
ws_hub.online_users[user.ID] = ws_user
ws_hub.users.Unlock()
}
//conn.SetReadLimit(/* put the max request size from earlier here? */)
//conn.SetReadDeadline(time.Now().Add(60 * time.Second))
var current_page []byte
for {
_, message, err := conn.ReadMessage()
if err != nil {
if user.ID == 0 {
ws_hub.guests.Lock()
delete(ws_hub.online_guests,ws_user)
ws_hub.guests.Unlock()
} else {
ws_hub.users.Lock()
delete(ws_hub.online_users,user.ID)
ws_hub.users.Unlock()
}
break
}
//log.Print("Message",message)
//log.Print("string(Message)",string(message))
messages := bytes.Split(message,[]byte("\r"))
for _, msg := range messages {
//log.Print("Submessage",msg)
//log.Print("Submessage",string(msg))
if bytes.HasPrefix(msg,[]byte("page ")) {
msgblocks := bytes.SplitN(msg,[]byte(" "),2)
if len(msgblocks) < 2 {
continue
}
if !bytes.Equal(msgblocks[1],current_page) {
ws_leave_page(ws_user, current_page)
current_page = msgblocks[1]
//log.Print("Current Page:",current_page)
//log.Print("Current Page:",string(current_page))
ws_page_responses(ws_user, current_page)
}
}
/*if bytes.Equal(message,[]byte(`start-view`)) {
} else if bytes.Equal(message,[]byte(`end-view`)) {
}*/
}
}
conn.Close()
}
func ws_page_responses(ws_user *WS_User, page []byte) {
switch(string(page)) {
case "/panel/":
//log.Print("/panel/ WS Route")
/*w, err := ws_user.conn.NextWriter(websocket.TextMessage)
if err != nil {
//log.Print(err.Error())
return
}
log.Print(ws_hub.online_users)
uonline := ws_hub.user_count()
gonline := ws_hub.guest_count()
totonline := uonline + gonline
w.Write([]byte("set #dash-totonline " + strconv.Itoa(totonline) + " online\r"))
w.Write([]byte("set #dash-gonline " + strconv.Itoa(gonline) + " guests online\r"))
w.Write([]byte("set #dash-uonline " + strconv.Itoa(uonline) + " users online\r"))
w.Close()*/
// Listen for changes and inform the admins...
admin_stats_mutex.Lock()
watchers := len(admin_stats_watchers)
admin_stats_watchers[ws_user] = true
if watchers == 0 {
go admin_stats_ticker()
}
admin_stats_mutex.Unlock()
}
}
func ws_leave_page(ws_user *WS_User, page []byte) {
switch(string(page)) {
case "/panel/":
admin_stats_mutex.Lock()
delete(admin_stats_watchers,ws_user)
admin_stats_mutex.Unlock()
}
}
var admin_stats_watchers map[*WS_User]bool
var admin_stats_mutex sync.RWMutex
func admin_stats_ticker() {
time.Sleep(time.Second)
var last_uonline int = -1
var last_gonline int = -1
var last_totonline int = -1
var last_cpu_perc int = -1
var last_available_ram int64 = -1
var no_stat_updates bool = false
var no_ram_updates bool = false
var onlineColour, onlineGuestsColour, onlineUsersColour, cpustr, cpuColour, ramstr, ramColour string
var cpuerr, ramerr error
var memres *mem.VirtualMemoryStat
var cpu_perc []float64
var totunit, uunit, gunit string
AdminStatLoop:
for {
admin_stats_mutex.RLock()
watch_count := len(admin_stats_watchers)
admin_stats_mutex.RUnlock()
if watch_count == 0 {
break AdminStatLoop
}
cpu_perc, cpuerr = cpu.Percent(time.Duration(time.Second),true)
memres, ramerr = mem.VirtualMemory()
uonline := ws_hub.user_count()
gonline := ws_hub.guest_count()
totonline := uonline + gonline
// It's far more likely that the CPU Usage will change than the other stats, so we'll optimise them seperately...
no_stat_updates = (uonline == last_uonline && gonline == last_gonline && totonline == last_totonline)
no_ram_updates = (last_available_ram == int64(memres.Available))
if int(cpu_perc[0]) == last_cpu_perc && no_stat_updates && no_ram_updates {
time.Sleep(time.Second)
continue
}
if !no_stat_updates {
if totonline > 10 {
onlineColour = "stat_green"
} else if totonline > 3 {
onlineColour = "stat_orange"
} else {
onlineColour = "stat_red"
}
if gonline > 10 {
onlineGuestsColour = "stat_green"
} else if gonline > 1 {
onlineGuestsColour = "stat_orange"
} else {
onlineGuestsColour = "stat_red"
}
if uonline > 5 {
onlineUsersColour = "stat_green"
} else if uonline > 1 {
onlineUsersColour = "stat_orange"
} else {
onlineUsersColour = "stat_red"
}
totonline, totunit = convert_friendly_unit(totonline)
uonline, uunit = convert_friendly_unit(uonline)
gonline, gunit = convert_friendly_unit(gonline)
}
if cpuerr != nil {
cpustr = "Unknown"
} else {
calcperc := int(cpu_perc[0]) / runtime.NumCPU()
cpustr = strconv.Itoa(calcperc)
if calcperc < 30 {
cpuColour = "stat_green"
} else if calcperc < 75 {
cpuColour = "stat_orange"
} else {
cpuColour = "stat_red"
}
}
if !no_ram_updates {
if ramerr != nil {
ramstr = "Unknown"
} else {
total_count, total_unit := convert_byte_unit(float64(memres.Total))
used_count := convert_byte_in_unit(float64(memres.Total - memres.Available),total_unit)
// Round totals with .9s up, it's how most people see it anyway. Floats are notoriously imprecise, so do it off 0.85
var totstr string
if (total_count - float64(int(total_count))) > 0.85 {
used_count += 1.0 - (total_count - float64(int(total_count)))
totstr = strconv.Itoa(int(total_count) + 1)
} else {
totstr = fmt.Sprintf("%.1f",total_count)
}
if used_count > total_count {
used_count = total_count
}
ramstr = fmt.Sprintf("%.1f",used_count) + " / " + totstr + total_unit
ramperc := ((memres.Total - memres.Available) * 100) / memres.Total
if ramperc < 50 {
ramColour = "stat_green"
} else if ramperc < 75 {
ramColour = "stat_orange"
} else {
ramColour = "stat_red"
}
}
}
admin_stats_mutex.RLock()
watchers := admin_stats_watchers
admin_stats_mutex.RUnlock()
for watcher, _ := range watchers {
w, err := watcher.conn.NextWriter(websocket.TextMessage)
if err != nil {
//log.Print(err.Error())
admin_stats_mutex.Lock()
delete(admin_stats_watchers,watcher)
admin_stats_mutex.Unlock()
continue
}
if !no_stat_updates {
w.Write([]byte("set #dash-totonline " + strconv.Itoa(totonline) + totunit + " online\r"))
w.Write([]byte("set #dash-gonline " + strconv.Itoa(gonline) + gunit + " guests online\r"))
w.Write([]byte("set #dash-uonline " + strconv.Itoa(uonline) + uunit + " users online\r"))
w.Write([]byte("set-class #dash-totonline grid_item grid_stat " + onlineColour + "\r"))
w.Write([]byte("set-class #dash-gonline grid_item grid_stat " + onlineGuestsColour + "\r"))
w.Write([]byte("set-class #dash-uonline grid_item grid_stat " + onlineUsersColour + "\r"))
}
w.Write([]byte("set #dash-cpu CPU: " + cpustr + "%\r"))
w.Write([]byte("set-class #dash-cpu grid_item grid_istat " + cpuColour + "\r"))
if !no_ram_updates {
w.Write([]byte("set #dash-ram RAM: " + ramstr + "\r"))
w.Write([]byte("set-class #dash-ram grid_item grid_istat " + ramColour + "\r"))
}
w.Close()
}
last_uonline = uonline
last_gonline = gonline
last_totonline = totonline
last_cpu_perc = int(cpu_perc[0])
last_available_ram = int64(memres.Available)
//time.Sleep(time.Second)
}
}
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