mirror of
https://github.com/diamondburned/arikawa.git
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8f548d2607
Signed-off-by: Cléo Rebert <cleo.rebert@gmail.com>
231 lines
5.2 KiB
Go
231 lines
5.2 KiB
Go
package ws
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import (
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"context"
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"errors"
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"fmt"
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"sync"
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"github.com/diamondburned/arikawa/v3/utils/json"
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)
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// OpCode is the type for websocket Op codes. Op codes less than 0 are
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// internal Op codes and should usually be ignored.
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type OpCode int
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// CloseEvent is an event that is given from wsutil when the websocket is
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// closed.
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type CloseEvent struct {
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// Err is the underlying error.
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Err error
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// Code is the websocket close code, if any. It is -1 otherwise.
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Code int
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}
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// Unwrap returns err.Err.
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func (e *CloseEvent) Unwrap() error { return e.Err }
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// Error formats the CloseEvent. A CloseEvent is also an error.
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func (e *CloseEvent) Error() string {
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return fmt.Sprintf("websocket closed, reason: %s", e.Err)
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}
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// Op implements Event. It returns -1.
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func (e *CloseEvent) Op() OpCode { return -1 }
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// EventType implements Event. It returns an emty string.
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func (e *CloseEvent) EventType() EventType { return "__ws.CloseEvent" }
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// EnableRawEvents, if true, will cause ws to generate a RawEvent for each
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// regular Event. It should only be used for debugging.
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var EnableRawEvents = false
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// RawEvent is used if EnableRawEvents is true.
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type RawEvent struct {
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json.Raw
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OriginalCode OpCode `json:"-"`
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OriginalType EventType `json:"-"`
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}
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// Op implements Event. It returns -1.
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func (e *RawEvent) Op() OpCode { return -1 }
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// EventType implements Event. It returns an emty string.
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func (e *RawEvent) EventType() EventType { return "__ws.RawEvent" }
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// EventType is a type for event types, which is the "t" field in the payload.
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type EventType string
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// Event describes an Event data that comes from a gateway Operation.
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type Event interface {
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Op() OpCode
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EventType() EventType
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}
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// OpFunc is a constructor function for an Operation.
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type OpFunc func() Event
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// OpUnmarshalers contains a map of event constructor function.
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type OpUnmarshalers struct {
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r map[opFuncID]OpFunc
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}
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type opFuncID struct {
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Op OpCode `json:"op"`
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T EventType `json:"t"`
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}
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// NewOpUnmarshalers creates a nwe OpUnmarshalers instance from the given
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// constructor functions.
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func NewOpUnmarshalers(funcs ...OpFunc) OpUnmarshalers {
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m := OpUnmarshalers{r: make(map[opFuncID]OpFunc)}
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m.Add(funcs...)
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return m
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}
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// Each iterates over the marshaler map.
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func (m OpUnmarshalers) Each(f func(OpCode, EventType, OpFunc) (done bool)) {
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for id, fn := range m.r {
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if f(id.Op, id.T, fn) {
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return
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}
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}
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}
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// Add adds the given functions into the unmarshaler registry.
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func (m OpUnmarshalers) Add(funcs ...OpFunc) {
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for _, fn := range funcs {
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ev := fn()
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id := opFuncID{
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Op: ev.Op(),
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T: ev.EventType(),
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}
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m.r[id] = fn
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}
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}
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// Lookup searches the OpMarshalers map for the given constructor function.
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func (m OpUnmarshalers) Lookup(op OpCode, t EventType) OpFunc {
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return m.r[opFuncID{op, t}]
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}
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// Op is a gateway Operation.
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type Op struct {
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Code OpCode `json:"op"`
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Data Event `json:"d,omitempty"`
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// Type is only for gateway dispatch events.
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Type EventType `json:"t,omitempty"`
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// Sequence is only for gateway dispatch events (Op 0).
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Sequence int64 `json:"s,omitempty"`
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}
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// UnknownEventError is required by HandleOp if an event is encountered that is
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// not known. Internally, unknown events are logged and ignored. It is not a
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// fatal error.
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type UnknownEventError struct {
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Op OpCode
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Type EventType
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}
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// Error formats the unknown event error to with the event name and payload
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func (err UnknownEventError) Error() string {
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return fmt.Sprintf("unknown op %d, event %s", err.Op, err.Type)
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}
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// IsBrokenConnection returns true if the error is a broken connection error.
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func IsUnknownEvent(err error) bool {
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var uevent *UnknownEventError
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return errors.As(err, &uevent)
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}
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// ReadOps reads maximum n Ops and accumulate them into a slice.
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func ReadOps(ctx context.Context, ch <-chan Op, n int) ([]Op, error) {
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ops := make([]Op, 0, n)
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for {
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select {
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case <-ctx.Done():
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return ops, ctx.Err()
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case op := <-ch:
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ops = append(ops, op)
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if len(ops) == n {
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return ops, nil
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}
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}
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}
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}
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// ReadOp reads a single Op.
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func ReadOp(ctx context.Context, ch <-chan Op) (Op, error) {
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select {
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case <-ctx.Done():
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return Op{}, ctx.Err()
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case op := <-ch:
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return op, nil
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}
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}
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// Broadcaster is primarily used for debugging.
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type Broadcaster struct {
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src <-chan Op
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dst map[chan<- Op]struct{}
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mut sync.Mutex
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void bool
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}
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// NewBroadcaster creates a new broadcaster.
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func NewBroadcaster(src <-chan Op) *Broadcaster {
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return &Broadcaster{
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src: src,
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dst: make(map[chan<- Op]struct{}),
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}
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}
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// Start starts the broadcasting loop.
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func (b *Broadcaster) Start() {
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b.mut.Lock()
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if b.void {
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panic("Start called on voided Broadcaster")
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}
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b.mut.Unlock()
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go func() {
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for op := range b.src {
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b.mut.Lock()
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for ch := range b.dst {
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ch <- op
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}
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b.mut.Unlock()
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}
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b.mut.Lock()
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b.void = true
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for ch := range b.dst {
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close(ch)
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}
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b.mut.Unlock()
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}()
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}
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// Subscribe subscribes the given channel
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func (b *Broadcaster) Subscribe(ch chan<- Op) {
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b.mut.Lock()
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if b.void {
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panic("Subscribe called on voided Broadcaster")
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}
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b.dst[ch] = struct{}{}
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b.mut.Unlock()
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}
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// NewSubscribed creates a newly subscribed Op channel.
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func (b *Broadcaster) NewSubscribed() <-chan Op {
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ch := make(chan Op, 1)
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b.Subscribe(ch)
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return ch
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}
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