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cchat-mock/channel.go

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package mock
import (
"context"
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"math/rand"
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"strconv"
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"strings"
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"sync"
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"sync/atomic"
"time"
"github.com/Pallinder/go-randomdata"
"github.com/diamondburned/cchat"
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"github.com/diamondburned/cchat-mock/segments"
"github.com/diamondburned/cchat/text"
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"github.com/pkg/errors"
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)
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// FetchBacklog is the number of messages to fake-fetch.
const FetchBacklog = 35
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const maxBacklog = FetchBacklog * 2
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// max number to add to before the next author, with rand.Intn(limit) + incr.
const sameAuthorLimit = 12
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type Channel struct {
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id uint32
name string
username text.Rich
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send chan cchat.SendableMessage // ideally this should be another type
edit chan Message // id
messageMutex sync.Mutex
messages map[uint32]Message
messageids []uint32 // indices
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// used for unique ID generation of messages
incrID uint32
// used for generating the same author multiple times before shuffling, goes
// up to about 12 or so. check sameAuthorLimit.
incrAuthor uint8
// single-use write-once context, written on every JoinServer
ctx context.Context
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}
var (
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_ cchat.Server = (*Channel)(nil)
_ cchat.ServerMessage = (*Channel)(nil)
_ cchat.ServerMessageSender = (*Channel)(nil)
_ cchat.ServerMessageSendCompleter = (*Channel)(nil)
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_ cchat.ServerNickname = (*Channel)(nil)
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_ cchat.ServerMessageEditor = (*Channel)(nil)
_ cchat.ServerMessageActioner = (*Channel)(nil)
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)
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func (ch *Channel) ID() string {
return strconv.Itoa(int(ch.id))
}
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func (ch *Channel) Name() text.Rich {
return text.Rich{Content: ch.name}
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}
// Nickname sets the labeler to the nickname. It simulates heavy IO. This
// function stops as cancel is called in JoinServer, as Nickname is specially
// for that.
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func (ch *Channel) Nickname(labeler cchat.LabelContainer) error {
// Borrow the parent's context and stop fetching if the context expires.
ctx, cancel := context.WithCancel(ch.ctx)
defer cancel()
// Simulate IO with cancellation. Ignore the error if it's a simulated time
// out, else return.
if err := simulateAustralianInternetCtx(ctx); err != nil && err != ErrTimedOut {
return err
}
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labeler.SetLabel(ch.username)
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return nil
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}
func (ch *Channel) JoinServer(container cchat.MessagesContainer) (stop func(), err error) {
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// Is this a fresh channel? If yes, generate messages with some IO latency.
if len(ch.messageids) == 0 || ch.messages == nil {
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// Simulate IO and error.
if err := simulateAustralianInternet(); err != nil {
return nil, err
}
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// Initialize.
ch.messages = make(map[uint32]Message, FetchBacklog)
ch.messageids = make([]uint32, 0, FetchBacklog)
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// Allocate 2 channels that we won't clean up, because we're lazy.
ch.send = make(chan cchat.SendableMessage)
ch.edit = make(chan Message)
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// Generate the backlog.
for i := 0; i < FetchBacklog; i++ {
ch.addMessage(ch.randomMsg(), container)
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}
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} else {
// Else, flush the old backlog over.
for i := range ch.messages {
container.CreateMessage(ch.messages[i])
}
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}
// Initialize context for cancellation.
ch.ctx, stop = context.WithCancel(context.Background())
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go func() {
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ticker := time.NewTicker(4 * time.Second)
defer ticker.Stop()
editTick := time.NewTicker(10 * time.Second)
defer editTick.Stop()
// deleteTick := time.NewTicker(15 * time.Second)
// defer deleteTick.Stop()
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for {
select {
case msg := <-ch.send:
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ch.addMessage(echoMessage(msg, ch.nextID(), ch.username), container)
case msg := <-ch.edit:
container.UpdateMessage(msg)
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case <-ticker.C:
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ch.addMessage(ch.randomMsg(), container)
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case <-editTick.C:
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var old = ch.randomOldMsg()
ch.updateMessage(newRandomMessage(old.id, old.author), container)
// case <-deleteTick.C:
// var old = ch.randomOldMsg()
// ch.deleteMessage(MessageHeader{old.id, time.Now()}, container)
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case <-ch.ctx.Done():
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return
}
}
}()
return
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}
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func (ch *Channel) RawMessageContent(id string) (string, error) {
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i, err := parseID(id)
if err != nil {
return "", err
}
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ch.messageMutex.Lock()
defer ch.messageMutex.Unlock()
m, ok := ch.messages[i]
if ok {
return m.content, nil
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}
return "", errors.New("Message not found")
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}
func (ch *Channel) EditMessage(id, content string) error {
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i, err := parseID(id)
if err != nil {
return err
}
simulateAustralianInternet()
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ch.messageMutex.Lock()
defer ch.messageMutex.Unlock()
m, ok := ch.messages[i]
if ok {
m.content = content
ch.messages[i] = m
ch.edit <- m
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return nil
}
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return errors.New("Message not found.")
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}
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func (ch *Channel) addMessage(msg Message, container cchat.MessagesContainer) {
ch.messageMutex.Lock()
// Clean up the backlog.
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if clean := len(ch.messages) - maxBacklog; clean > 0 {
// Remove them from the map.
for _, id := range ch.messageids[:clean] {
delete(ch.messages, id)
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}
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// Cut the message IDs away by shifting the slice.
ch.messageids = append(ch.messageids[:0], ch.messageids[clean:]...)
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}
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ch.messages[msg.id] = msg
ch.messageids = append(ch.messageids, msg.id)
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ch.messageMutex.Unlock()
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container.CreateMessage(msg)
}
func (ch *Channel) updateMessage(msg Message, container cchat.MessagesContainer) {
ch.messageMutex.Lock()
_, ok := ch.messages[msg.id]
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if ok {
ch.messages[msg.id] = msg
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}
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ch.messageMutex.Unlock()
if ok {
container.UpdateMessage(msg)
}
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}
func (ch *Channel) deleteMessage(msg MessageHeader, container cchat.MessagesContainer) {
ch.messageMutex.Lock()
// Delete from the map.
delete(ch.messages, msg.id)
// Delete from the ordered slice.
var ok bool
for i, id := range ch.messageids {
if id == msg.id {
ch.messageids = append(ch.messageids[:i], ch.messageids[i+1:]...)
ok = true
break
}
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}
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ch.messageMutex.Unlock()
if ok {
container.DeleteMessage(msg)
}
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}
// randomMsgID returns a random recent message ID.
func (ch *Channel) randomOldMsg() Message {
ch.messageMutex.Lock()
defer ch.messageMutex.Unlock()
// Pick a random index from last, clamped to 10 and len channel.
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n := len(ch.messageids) - 1 - rand.Intn(len(ch.messageids))%10
return ch.messages[ch.messageids[n]]
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}
// randomMsg uses top of the state algorithms to return fair and balanced
// messages suitable for rigorous testing.
func (ch *Channel) randomMsg() (msg Message) {
ch.messageMutex.Lock()
defer ch.messageMutex.Unlock()
// If we don't have any messages, then skip.
if len(ch.messages) == 0 {
return randomMessage(ch.nextID())
}
// Add a random number into incrAuthor and determine if that should be
// enough to generate a new author.
ch.incrAuthor += uint8(rand.Intn(5)) // 2~4 appearances
var lastID = ch.messageids[len(ch.messageids)-1]
var last = ch.messages[lastID]
// If the last author is not the current user, then we can use it.
// Should we generate a new author for the new message? No if we're not over
// the limits.
if last.author.Content != ch.username.Content && ch.incrAuthor < sameAuthorLimit {
msg = randomMessageWithAuthor(ch.nextID(), last.author)
} else {
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msg = randomMessage(ch.nextID())
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ch.incrAuthor = 0 // reset
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}
return
}
func (ch *Channel) nextID() (id uint32) {
return atomic.AddUint32(&ch.incrID, 1)
}
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func (ch *Channel) SendMessage(msg cchat.SendableMessage) error {
if err := simulateAustralianInternet(); err != nil {
return errors.Wrap(err, "Failed to send message")
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}
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go func() {
// Make no guarantee that a message may arrive immediately when the
// function exits.
<-time.After(time.Second)
ch.send <- msg
}()
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return nil
}
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const (
DeleteAction = "Delete"
NoopAction = "No-op"
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BestTrapAction = "What's the best trap?"
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)
func (ch *Channel) MessageActions() []string {
return []string{
DeleteAction,
NoopAction,
BestTrapAction,
}
}
// DoMessageAction will be blocked by IO. As goes for every other method that
// takes a container: the frontend should call this in a goroutine.
func (ch *Channel) DoMessageAction(c cchat.MessagesContainer, action, messageID string) error {
switch action {
case DeleteAction:
i, err := strconv.Atoi(messageID)
if err != nil {
return errors.Wrap(err, "Invalid ID")
}
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// Simulate IO.
simulateAustralianInternet()
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ch.deleteMessage(MessageHeader{uint32(i), time.Now()}, c)
case NoopAction:
// do nothing.
case BestTrapAction:
return ch.EditMessage(messageID, "Astolfo.")
default:
return errors.New("Unknown action.")
}
return nil
}
func (ch *Channel) CompleteMessage(words []string, i int) (entries []cchat.CompletionEntry) {
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switch {
case strings.HasPrefix("complete", words[i]):
entries = makeCompletion(
"complete",
"complete me",
"complete you",
"complete everyone",
)
case lookbackCheck(words, i, "complete", "me"):
entries = makeCompletion("me")
case lookbackCheck(words, i, "complete", "you"):
entries = makeCompletion("you")
case lookbackCheck(words, i, "complete", "everyone"):
entries = makeCompletion("everyone")
case lookbackCheck(words, i, "best", "trap:"):
entries = makeCompletion(
"trap: Astolfo",
"trap: Hackadoll No. 3",
"trap: Totsuka",
"trap: Felix Argyle",
)
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default:
ch.messageMutex.Lock()
defer ch.messageMutex.Unlock()
// Look for members.
for _, id := range ch.messageids {
if msg := ch.messages[id]; strings.HasPrefix(msg.author.Content, words[i]) {
entries = append(entries, cchat.CompletionEntry{
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Raw: msg.author.Content,
Text: msg.author,
IconURL: avatarURL,
})
}
}
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}
return
}
func makeCompletion(word ...string) []cchat.CompletionEntry {
var entries = make([]cchat.CompletionEntry, len(word))
for i, w := range word {
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entries[i].Raw = w
entries[i].Text.Content = w
entries[i].IconURL = avatarURL
}
return entries
}
// completion will only override `this'.
func lookbackCheck(words []string, i int, prev, this string) bool {
return strings.HasPrefix(this, words[i]) && i > 0 && words[i-1] == prev
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}
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func generateChannels(s *Session, amount int) []cchat.Server {
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var channels = make([]cchat.Server, amount)
for i := range channels {
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channels[i] = &Channel{
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id: atomic.AddUint32(&s.lastid, 1),
name: "#" + randomdata.Noun(),
username: text.Rich{
Content: s.username,
// hot pink-ish colored
Segments: []text.Segment{segments.NewColored(s.username, 0xE88AF8)},
},
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}
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}
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return channels
}
func randClamp(min, max int) int {
return rand.Intn(max-min) + min
}
// ErrTimedOut is returned when the simulated IO decides to fail.
var ErrTimedOut = errors.New("Australian Internet unsupported.")
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// simulate network latency
func simulateAustralianInternet() error {
return simulateAustralianInternetCtx(context.Background())
}
func simulateAustralianInternetCtx(ctx context.Context) (err error) {
var ms = randClamp(internetMinLatency, internetMaxLatency)
select {
case <-time.After(time.Duration(ms) * time.Millisecond):
// noop
case <-ctx.Done():
return ctx.Err()
}
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// because australia, drop packet 20% of the time if internetCanFail is
// true.
if internetCanFail && rand.Intn(100) < 20 {
return ErrTimedOut
}
return nil
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}