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galene/group.go

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// Copyright (c) 2020 by Juliusz Chroboczek.
// This is not open source software. Copy it, and I'll break into your
// house and tell your three year-old that Santa doesn't exist.
package main
import (
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"encoding/json"
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"log"
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"os"
"path/filepath"
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"sort"
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"strings"
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"sync"
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"sync/atomic"
"time"
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"github.com/pion/webrtc/v3"
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"sfu/rtptime"
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)
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type chatHistoryEntry struct {
id string
user string
value string
me bool
}
const (
minBitrate = 200000
)
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type group struct {
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name string
dead bool
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description *groupDescription
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locked uint32
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mu sync.Mutex
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clients map[string]client
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history []chatHistoryEntry
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}
type pushConnAction struct {
id string
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conn upConnection
tracks []upTrack
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}
type addLabelAction struct {
id string
label string
}
type pushConnsAction struct {
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c client
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}
type connectionFailedAction struct {
id string
}
type permissionsChangedAction struct{}
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type kickAction struct{}
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var groups struct {
mu sync.Mutex
groups map[string]*group
api *webrtc.API
}
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func addGroup(name string, desc *groupDescription) (*group, error) {
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groups.mu.Lock()
defer groups.mu.Unlock()
if groups.groups == nil {
groups.groups = make(map[string]*group)
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s := webrtc.SettingEngine{}
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m := webrtc.MediaEngine{}
m.RegisterCodec(webrtc.NewRTPVP8CodecExt(
webrtc.DefaultPayloadTypeVP8, 90000,
[]webrtc.RTCPFeedback{
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{"goog-remb", ""},
{"nack", ""},
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{"nack", "pli"},
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{"ccm", "fir"},
},
"",
))
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m.RegisterCodec(webrtc.NewRTPOpusCodec(
webrtc.DefaultPayloadTypeOpus, 48000,
))
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groups.api = webrtc.NewAPI(
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webrtc.WithSettingEngine(s),
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webrtc.WithMediaEngine(m),
)
}
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var err error
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g := groups.groups[name]
if g == nil {
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if desc == nil {
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desc, err = getDescription(name)
if err != nil {
return nil, err
}
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}
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g = &group{
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name: name,
description: desc,
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clients: make(map[string]client),
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}
groups.groups[name] = g
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} else if desc != nil {
g.description = desc
} else if g.dead || time.Since(g.description.loadTime) > 5*time.Second {
changed, err := descriptionChanged(name, g.description)
if err != nil {
if !os.IsNotExist(err) {
log.Printf("Reading group %v: %v", name, err)
}
g.dead = true
delGroupUnlocked(name)
return nil, err
}
if changed {
desc, err := getDescription(name)
if err != nil {
if !os.IsNotExist(err) {
log.Printf("Reading group %v: %v",
name, err)
}
g.dead = true
delGroupUnlocked(name)
return nil, err
}
g.dead = false
g.description = desc
} else {
g.description.loadTime = time.Now()
}
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}
return g, nil
}
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func getGroupNames() []string {
groups.mu.Lock()
defer groups.mu.Unlock()
names := make([]string, 0, len(groups.groups))
for name := range groups.groups {
names = append(names, name)
}
return names
}
func getGroup(name string) *group {
groups.mu.Lock()
defer groups.mu.Unlock()
return groups.groups[name]
}
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func delGroupUnlocked(name string) bool {
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g := groups.groups[name]
if g == nil {
return true
}
if len(g.clients) != 0 {
return false
}
delete(groups.groups, name)
return true
}
func addClient(name string, c client, pass string) (*group, error) {
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g, err := addGroup(name, nil)
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if err != nil {
return nil, err
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}
perms, err := getPermission(g.description, c.Username(), pass)
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if err != nil {
return nil, err
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}
w, ok := c.(*webClient)
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if ok {
w.permissions = perms
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}
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if !perms.Op && atomic.LoadUint32(&g.locked) != 0 {
return nil, userError("group is locked")
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}
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g.mu.Lock()
defer g.mu.Unlock()
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if !perms.Op && g.description.MaxClients > 0 {
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if len(g.clients) >= g.description.MaxClients {
return nil, userError("too many users")
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}
}
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if g.clients[c.Id()] != nil {
return nil, protocolError("duplicate client id")
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}
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g.clients[c.Id()] = c
go func(clients []client) {
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c.pushClient(c.Id(), c.Username(), true)
for _, cc := range clients {
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err := c.pushClient(cc.Id(), cc.Username(), true)
if err == ErrClientDead {
return
}
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cc.pushClient(c.Id(), c.Username(), true)
}
}(g.getClientsUnlocked(c))
return g, nil
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}
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func delClient(c client) {
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g := c.Group()
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g.mu.Lock()
defer g.mu.Unlock()
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if g.clients[c.Id()] != c {
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log.Printf("Deleting unknown client")
return
}
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delete(g.clients, c.Id())
go func(clients []client) {
for _, cc := range clients {
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cc.pushClient(c.Id(), c.Username(), false)
}
}(g.getClientsUnlocked(nil))
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}
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func (g *group) getClients(except client) []client {
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g.mu.Lock()
defer g.mu.Unlock()
return g.getClientsUnlocked(except)
}
func (g *group) getClientsUnlocked(except client) []client {
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clients := make([]client, 0, len(g.clients))
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for _, c := range g.clients {
if c != except {
clients = append(clients, c)
}
}
return clients
}
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func (g *group) getClientUnlocked(id string) client {
for idd, c := range g.clients {
if idd == id {
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return c
}
}
return nil
}
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func (g *group) Range(f func(c client) bool) {
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g.mu.Lock()
defer g.mu.Unlock()
for _, c := range g.clients {
ok := f(c)
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if !ok {
break
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}
}
}
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const maxChatHistory = 20
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func (g *group) clearChatHistory() {
g.mu.Lock()
defer g.mu.Unlock()
g.history = nil
}
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func (g *group) addToChatHistory(id, user, value string, me bool) {
g.mu.Lock()
defer g.mu.Unlock()
if len(g.history) >= maxChatHistory {
copy(g.history, g.history[1:])
g.history = g.history[:len(g.history)-1]
}
g.history = append(g.history,
chatHistoryEntry{id: id, user: user, value: value, me: me},
)
}
func (g *group) getChatHistory() []chatHistoryEntry {
g.mu.Lock()
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defer g.mu.Unlock()
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h := make([]chatHistoryEntry, len(g.history))
copy(h, g.history)
return h
}
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type groupUser struct {
Username string `json:"username,omitempty"`
Password string `json:"password,omitempty"`
}
func matchUser(user, pass string, users []groupUser) (bool, bool) {
for _, u := range users {
if u.Username == "" {
if u.Password == "" || u.Password == pass {
return true, true
}
} else if u.Username == user {
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return true, (u.Password == "" || u.Password == pass)
}
}
return false, false
}
type groupDescription struct {
loadTime time.Time `json:"-"`
modTime time.Time `json:"-"`
fileSize int64 `json:"-"`
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Public bool `json:"public,omitempty"`
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MaxClients int `json:"max-clients,omitempty"`
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AllowAnonymous bool `json:"allow-anonymous,omitempty"`
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AllowRecording bool `json:"allow-recording,omitempty"`
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Op []groupUser `json:"op,omitempty"`
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Presenter []groupUser `json:"presenter,omitempty"`
Other []groupUser `json:"other,omitempty"`
}
func descriptionChanged(name string, old *groupDescription) (bool, error) {
fi, err := os.Stat(filepath.Join(groupsDir, name+".json"))
if err != nil {
if os.IsNotExist(err) {
err = userError("group does not exist")
}
return false, err
}
if fi.Size() != old.fileSize || fi.ModTime() != old.modTime {
return true, err
}
return false, err
}
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func getDescription(name string) (*groupDescription, error) {
r, err := os.Open(filepath.Join(groupsDir, name+".json"))
if err != nil {
if os.IsNotExist(err) {
err = userError("group does not exist")
}
return nil, err
}
defer r.Close()
var desc groupDescription
fi, err := r.Stat()
if err != nil {
return nil, err
}
desc.fileSize = fi.Size()
desc.modTime = fi.ModTime()
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d := json.NewDecoder(r)
err = d.Decode(&desc)
if err != nil {
return nil, err
}
desc.loadTime = time.Now()
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return &desc, nil
}
type userPermission struct {
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Op bool `json:"op,omitempty"`
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Present bool `json:"present,omitempty"`
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Record bool `json:"record,omitempty"`
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}
func getPermission(desc *groupDescription, user, pass string) (userPermission, error) {
var p userPermission
if !desc.AllowAnonymous && user == "" {
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return p, userError("anonymous users not allowed in this group, please choose a username")
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}
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if found, good := matchUser(user, pass, desc.Op); found {
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if good {
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p.Op = true
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p.Present = true
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if desc.AllowRecording {
p.Record = true
}
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return p, nil
}
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return p, userError("not authorised")
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}
if found, good := matchUser(user, pass, desc.Presenter); found {
if good {
p.Present = true
return p, nil
}
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return p, userError("not authorised")
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}
if found, good := matchUser(user, pass, desc.Other); found {
if good {
return p, nil
}
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return p, userError("not authorised")
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}
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return p, userError("not authorised")
}
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type publicGroup struct {
Name string `json:"name"`
ClientCount int `json:"clientCount"`
}
func getPublicGroups() []publicGroup {
gs := make([]publicGroup, 0)
groups.mu.Lock()
defer groups.mu.Unlock()
for _, g := range groups.groups {
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if g.description.Public {
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gs = append(gs, publicGroup{
Name: g.name,
ClientCount: len(g.clients),
})
}
}
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sort.Slice(gs, func(i, j int) bool {
return gs[i].Name < gs[j].Name
})
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return gs
}
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func readPublicGroups() {
dir, err := os.Open(groupsDir)
if err != nil {
return
}
defer dir.Close()
fis, err := dir.Readdir(-1)
if err != nil {
log.Printf("readPublicGroups: %v", err)
return
}
for _, fi := range fis {
if !strings.HasSuffix(fi.Name(), ".json") {
continue
}
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name := fi.Name()[:len(fi.Name())-5]
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desc, err := getDescription(name)
if err != nil {
if !os.IsNotExist(err) {
log.Printf("Reading group %v: %v", name, err)
}
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continue
}
if desc.Public {
addGroup(name, desc)
}
}
}
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type groupStats struct {
name string
clients []clientStats
}
type clientStats struct {
id string
up, down []connStats
}
type connStats struct {
id string
maxBitrate uint64
tracks []trackStats
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}
type trackStats struct {
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bitrate uint64
maxBitrate uint64
loss uint8
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rtt time.Duration
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jitter time.Duration
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}
func getGroupStats() []groupStats {
names := getGroupNames()
gs := make([]groupStats, 0, len(names))
for _, name := range names {
g := getGroup(name)
if g == nil {
continue
}
clients := g.getClients(nil)
stats := groupStats{
name: name,
clients: make([]clientStats, 0, len(clients)),
}
for _, c := range clients {
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c, ok := c.(*webClient)
if ok {
cs := getClientStats(c)
stats.clients = append(stats.clients, cs)
}
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}
sort.Slice(stats.clients, func(i, j int) bool {
return stats.clients[i].id < stats.clients[j].id
})
gs = append(gs, stats)
}
sort.Slice(gs, func(i, j int) bool {
return gs[i].name < gs[j].name
})
return gs
}
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func getClientStats(c *webClient) clientStats {
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c.mu.Lock()
defer c.mu.Unlock()
cs := clientStats{
id: c.id,
}
for _, up := range c.up {
conns := connStats{
id: up.id,
}
tracks := up.getTracks()
for _, t := range tracks {
expected, lost, _, _ := t.cache.GetStats(false)
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if expected == 0 {
expected = 1
}
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loss := uint8(lost * 100 / expected)
jitter := time.Duration(t.jitter.Jitter()) *
(time.Second / time.Duration(t.jitter.HZ()))
rate, _ := t.rate.Estimate()
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conns.tracks = append(conns.tracks, trackStats{
bitrate: uint64(rate) * 8,
loss: loss,
jitter: jitter,
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})
}
cs.up = append(cs.up, conns)
}
sort.Slice(cs.up, func(i, j int) bool {
return cs.up[i].id < cs.up[j].id
})
jiffies := rtptime.Jiffies()
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for _, down := range c.down {
conns := connStats{
id: down.id,
maxBitrate: down.GetMaxBitrate(jiffies),
}
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for _, t := range down.tracks {
rate, _ := t.rate.Estimate()
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rtt := rtptime.ToDuration(atomic.LoadUint64(&t.rtt),
rtptime.JiffiesPerSec)
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loss, jitter := t.stats.Get(jiffies)
j := time.Duration(jitter) * time.Second /
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time.Duration(t.track.Codec().ClockRate)
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conns.tracks = append(conns.tracks, trackStats{
bitrate: uint64(rate) * 8,
maxBitrate: t.maxBitrate.Get(jiffies),
loss: uint8(uint32(loss) * 100 / 256),
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rtt: rtt,
jitter: j,
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})
}
cs.down = append(cs.down, conns)
}
sort.Slice(cs.down, func(i, j int) bool {
return cs.down[i].id < cs.down[j].id
})
return cs
}