status-go/vendor/github.com/pion/turn/v2/internal/client/transaction.go

package client

import (
	"net"
	"sync"
	"time"

	"github.com/pion/stun"
)

const (
	maxRtxInterval time.Duration = 1600 * time.Millisecond
)

// TransactionResult is a bag of result values of a transaction
type TransactionResult struct {
	Msg     *stun.Message
	From    net.Addr
	Retries int
	Err     error
}

// TransactionConfig is a set of config params used by NewTransaction
type TransactionConfig struct {
	Key          string
	Raw          []byte
	To           net.Addr
	Interval     time.Duration
	IgnoreResult bool // true to throw away the result of this transaction (it will not be readable using WaitForResult)
}

// Transaction represents a transaction
type Transaction struct {
	Key      string                 // read-only
	Raw      []byte                 // read-only
	To       net.Addr               // read-only
	nRtx     int                    // modified only by the timer thread
	interval time.Duration          // modified only by the timer thread
	timer    *time.Timer            // thread-safe, set only by the creator, and stopper
	resultCh chan TransactionResult // thread-safe
	mutex    sync.RWMutex
}

// NewTransaction creates a new instance of Transaction
func NewTransaction(config *TransactionConfig) *Transaction {
	var resultCh chan TransactionResult
	if !config.IgnoreResult {
		resultCh = make(chan TransactionResult)
	}

	return &Transaction{
		Key:      config.Key,      // read-only
		Raw:      config.Raw,      // read-only
		To:       config.To,       // read-only
		interval: config.Interval, // modified only by the timer thread
		resultCh: resultCh,        // thread-safe
	}
}

// StartRtxTimer starts the transaction timer
func (t *Transaction) StartRtxTimer(onTimeout func(trKey string, nRtx int)) {
	t.mutex.Lock()
	defer t.mutex.Unlock()

	t.timer = time.AfterFunc(t.interval, func() {
		t.mutex.Lock()
		t.nRtx++
		nRtx := t.nRtx
		t.interval *= 2
		if t.interval > maxRtxInterval {
			t.interval = maxRtxInterval
		}
		t.mutex.Unlock()
		onTimeout(t.Key, nRtx)
	})
}

// StopRtxTimer stop the transaction timer
func (t *Transaction) StopRtxTimer() {
	t.mutex.Lock()
	defer t.mutex.Unlock()

	if t.timer != nil {
		t.timer.Stop()
	}
}

// WriteResult writes the result to the result channel
func (t *Transaction) WriteResult(res TransactionResult) bool {
	if t.resultCh == nil {
		return false
	}

	t.resultCh <- res

	return true
}

// WaitForResult waits for the transaction result
func (t *Transaction) WaitForResult() TransactionResult {
	if t.resultCh == nil {
		return TransactionResult{
			Err: errWaitForResultOnNonResultTransaction,
		}
	}

	result, ok := <-t.resultCh
	if !ok {
		result.Err = errTransactionClosed
	}
	return result
}

// Close closes the transaction
func (t *Transaction) Close() {
	if t.resultCh != nil {
		close(t.resultCh)
	}
}

// Retries returns the number of retransmission it has made
func (t *Transaction) Retries() int {
	t.mutex.RLock()
	defer t.mutex.RUnlock()

	return t.nRtx
}

// TransactionMap is a thread-safe transaction map
type TransactionMap struct {
	trMap map[string]*Transaction
	mutex sync.RWMutex
}

// NewTransactionMap create a new instance of the transaction map
func NewTransactionMap() *TransactionMap {
	return &TransactionMap{
		trMap: map[string]*Transaction{},
	}
}

// Insert inserts a trasaction to the map
func (m *TransactionMap) Insert(key string, tr *Transaction) bool {
	m.mutex.Lock()
	defer m.mutex.Unlock()

	m.trMap[key] = tr
	return true
}

// Find looks up a transaction by its key
func (m *TransactionMap) Find(key string) (*Transaction, bool) {
	m.mutex.RLock()
	defer m.mutex.RUnlock()

	tr, ok := m.trMap[key]
	return tr, ok
}

// Delete deletes a transaction by its key
func (m *TransactionMap) Delete(key string) {
	m.mutex.Lock()
	defer m.mutex.Unlock()

	delete(m.trMap, key)
}

// CloseAndDeleteAll closes and deletes all transactions
func (m *TransactionMap) CloseAndDeleteAll() {
	m.mutex.Lock()
	defer m.mutex.Unlock()

	for trKey, tr := range m.trMap {
		tr.Close()
		delete(m.trMap, trKey)
	}
}

// Size returns the length of the transaction map
func (m *TransactionMap) Size() int {
	m.mutex.RLock()
	defer m.mutex.RUnlock()

	return len(m.trMap)
}
Add torrent library dependency 2022-03-10 09:44:48 +00:00			`package client`

			`import (`
			`"net"`
			`"sync"`
			`"time"`

			`"github.com/pion/stun"`
			`)`

			`const (`
			`maxRtxInterval time.Duration = 1600 * time.Millisecond`
			`)`

			`// TransactionResult is a bag of result values of a transaction`
			`type TransactionResult struct {`
			`Msg *stun.Message`
			`From net.Addr`
			`Retries int`
			`Err error`
			`}`

			`// TransactionConfig is a set of config params used by NewTransaction`
			`type TransactionConfig struct {`
			`Key string`
			`Raw []byte`
			`To net.Addr`
			`Interval time.Duration`
			`IgnoreResult bool // true to throw away the result of this transaction (it will not be readable using WaitForResult)`
			`}`

			`// Transaction represents a transaction`
			`type Transaction struct {`
			`Key string // read-only`
			`Raw []byte // read-only`
			`To net.Addr // read-only`
			`nRtx int // modified only by the timer thread`
			`interval time.Duration // modified only by the timer thread`
			`timer *time.Timer // thread-safe, set only by the creator, and stopper`
			`resultCh chan TransactionResult // thread-safe`
			`mutex sync.RWMutex`
			`}`

			`// NewTransaction creates a new instance of Transaction`
			`func NewTransaction(config TransactionConfig) Transaction {`
			`var resultCh chan TransactionResult`
			`if !config.IgnoreResult {`
			`resultCh = make(chan TransactionResult)`
			`}`

			`return &Transaction{`
			`Key: config.Key, // read-only`
			`Raw: config.Raw, // read-only`
			`To: config.To, // read-only`
			`interval: config.Interval, // modified only by the timer thread`
			`resultCh: resultCh, // thread-safe`
			`}`
			`}`

			`// StartRtxTimer starts the transaction timer`
			`func (t *Transaction) StartRtxTimer(onTimeout func(trKey string, nRtx int)) {`
			`t.mutex.Lock()`
			`defer t.mutex.Unlock()`

			`t.timer = time.AfterFunc(t.interval, func() {`
			`t.mutex.Lock()`
			`t.nRtx++`
			`nRtx := t.nRtx`
			`t.interval *= 2`
			`if t.interval > maxRtxInterval {`
			`t.interval = maxRtxInterval`
			`}`
			`t.mutex.Unlock()`
			`onTimeout(t.Key, nRtx)`
			`})`
			`}`

			`// StopRtxTimer stop the transaction timer`
			`func (t *Transaction) StopRtxTimer() {`
			`t.mutex.Lock()`
			`defer t.mutex.Unlock()`

			`if t.timer != nil {`
			`t.timer.Stop()`
			`}`
			`}`

			`// WriteResult writes the result to the result channel`
			`func (t *Transaction) WriteResult(res TransactionResult) bool {`
			`if t.resultCh == nil {`
			`return false`
			`}`

			`t.resultCh <- res`

			`return true`
			`}`

			`// WaitForResult waits for the transaction result`
			`func (t *Transaction) WaitForResult() TransactionResult {`
			`if t.resultCh == nil {`
			`return TransactionResult{`
			`Err: errWaitForResultOnNonResultTransaction,`
			`}`
			`}`

			`result, ok := <-t.resultCh`
			`if !ok {`
			`result.Err = errTransactionClosed`
			`}`
			`return result`
			`}`

			`// Close closes the transaction`
			`func (t *Transaction) Close() {`
			`if t.resultCh != nil {`
			`close(t.resultCh)`
			`}`
			`}`

			`// Retries returns the number of retransmission it has made`
			`func (t *Transaction) Retries() int {`
			`t.mutex.RLock()`
			`defer t.mutex.RUnlock()`

			`return t.nRtx`
			`}`

			`// TransactionMap is a thread-safe transaction map`
			`type TransactionMap struct {`
			`trMap map[string]*Transaction`
			`mutex sync.RWMutex`
			`}`

			`// NewTransactionMap create a new instance of the transaction map`
			`func NewTransactionMap() *TransactionMap {`
			`return &TransactionMap{`
			`trMap: map[string]*Transaction{},`
			`}`
			`}`

			`// Insert inserts a trasaction to the map`
			`func (m TransactionMap) Insert(key string, tr Transaction) bool {`
			`m.mutex.Lock()`
			`defer m.mutex.Unlock()`

			`m.trMap[key] = tr`
			`return true`
			`}`

			`// Find looks up a transaction by its key`
			`func (m TransactionMap) Find(key string) (Transaction, bool) {`
			`m.mutex.RLock()`
			`defer m.mutex.RUnlock()`

			`tr, ok := m.trMap[key]`
			`return tr, ok`
			`}`

			`// Delete deletes a transaction by its key`
			`func (m *TransactionMap) Delete(key string) {`
			`m.mutex.Lock()`
			`defer m.mutex.Unlock()`

			`delete(m.trMap, key)`
			`}`

			`// CloseAndDeleteAll closes and deletes all transactions`
			`func (m *TransactionMap) CloseAndDeleteAll() {`
			`m.mutex.Lock()`
			`defer m.mutex.Unlock()`

			`for trKey, tr := range m.trMap {`
			`tr.Close()`
			`delete(m.trMap, trKey)`
			`}`
			`}`

			`// Size returns the length of the transaction map`
			`func (m *TransactionMap) Size() int {`
			`m.mutex.RLock()`
			`defer m.mutex.RUnlock()`

			`return len(m.trMap)`
			`}`