mirror of
https://github.com/rclone/rclone
synced 2024-11-28 06:41:41 +01:00
b26db8e640
The SIGUSR2 signal handler for bandwidth limits currently only starts if rclone is started at a time when a bandwidth limit applies. This means that if rclone starts _outside_ such a time, i.e. with no bandwidth limits, then enters a time where bandwidth limits do apply, it will not be possible to use SIGUSR2 to toggle it. This fixes that by always starting the signal handler, but only toggling the limiter if there is a bandwidth limit configured.
287 lines
7.6 KiB
Go
287 lines
7.6 KiB
Go
package accounting
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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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"time"
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"github.com/rclone/rclone/fs"
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"github.com/rclone/rclone/fs/rc"
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"golang.org/x/time/rate"
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)
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// TokenBucket holds the global token bucket limiter
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var TokenBucket tokenBucket
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// TokenBucketSlot is the type to select which token bucket to use
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type TokenBucketSlot int
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// Slots for the token bucket
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const (
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TokenBucketSlotAccounting TokenBucketSlot = iota
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TokenBucketSlotTransportRx
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TokenBucketSlotTransportTx
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TokenBucketSlots
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)
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type buckets [TokenBucketSlots]*rate.Limiter
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// tokenBucket holds info about the rate limiters in use
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type tokenBucket struct {
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mu sync.RWMutex // protects the token bucket variables
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curr buckets
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prev buckets
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toggledOff bool
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currLimit fs.BwTimeSlot
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}
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// Return true if limit is disabled
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//
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// Call with lock held
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func (bs *buckets) _isOff() bool {
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return bs[0] == nil
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}
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// Disable the limits
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//
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// Call with lock held
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func (bs *buckets) _setOff() {
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for i := range bs {
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bs[i] = nil
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}
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}
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const defaultMaxBurstSize = 4 * 1024 * 1024 // must be bigger than the biggest request
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// make a new empty token bucket with the bandwidth given
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func newEmptyTokenBucket(bandwidth fs.SizeSuffix) *rate.Limiter {
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// Relate maxBurstSize to bandwidth limit
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// 4M gives 2.5 Gb/s on Windows
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// Use defaultMaxBurstSize up to 2GBit/s (256MiB/s) then scale
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maxBurstSize := (bandwidth * defaultMaxBurstSize) / (256 * 1024 * 1024)
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if maxBurstSize < defaultMaxBurstSize {
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maxBurstSize = defaultMaxBurstSize
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}
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// fs.Debugf(nil, "bandwidth=%v maxBurstSize=%v", bandwidth, maxBurstSize)
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tb := rate.NewLimiter(rate.Limit(bandwidth), int(maxBurstSize))
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if tb != nil {
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// empty the bucket
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err := tb.WaitN(context.Background(), int(maxBurstSize))
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if err != nil {
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fs.Errorf(nil, "Failed to empty token bucket: %v", err)
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}
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}
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return tb
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}
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// make a new empty token bucket with the bandwidth(s) given
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func newTokenBucket(bandwidth fs.BwPair) (tbs buckets) {
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bandwidthAccounting := fs.SizeSuffix(-1)
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if bandwidth.Tx > 0 {
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tbs[TokenBucketSlotTransportTx] = newEmptyTokenBucket(bandwidth.Tx)
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bandwidthAccounting = bandwidth.Tx
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}
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if bandwidth.Rx > 0 {
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tbs[TokenBucketSlotTransportRx] = newEmptyTokenBucket(bandwidth.Rx)
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if bandwidth.Rx > bandwidthAccounting {
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bandwidthAccounting = bandwidth.Rx
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}
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}
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// Limit core bandwidth to max of Rx and Tx if both are limited
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if bandwidth.Tx > 0 && bandwidth.Rx > 0 {
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tbs[TokenBucketSlotAccounting] = newEmptyTokenBucket(bandwidthAccounting)
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}
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return tbs
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}
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// StartTokenBucket starts the token bucket if necessary
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func (tb *tokenBucket) StartTokenBucket(ctx context.Context) {
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tb.mu.Lock()
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defer tb.mu.Unlock()
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ci := fs.GetConfig(ctx)
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tb.currLimit = ci.BwLimit.LimitAt(time.Now())
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if tb.currLimit.Bandwidth.IsSet() {
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tb.curr = newTokenBucket(tb.currLimit.Bandwidth)
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fs.Infof(nil, "Starting bandwidth limiter at %v Byte/s", &tb.currLimit.Bandwidth)
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}
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// Start the SIGUSR2 signal handler to toggle bandwidth.
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// This function does nothing in windows systems.
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tb.startSignalHandler()
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}
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// StartTokenTicker creates a ticker to update the bandwidth limiter every minute.
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func (tb *tokenBucket) StartTokenTicker(ctx context.Context) {
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ci := fs.GetConfig(ctx)
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// If the timetable has a single entry or was not specified, we don't need
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// a ticker to update the bandwidth.
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if len(ci.BwLimit) <= 1 {
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return
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}
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ticker := time.NewTicker(time.Minute)
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go func() {
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for range ticker.C {
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limitNow := ci.BwLimit.LimitAt(time.Now())
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tb.mu.Lock()
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if tb.currLimit.Bandwidth != limitNow.Bandwidth {
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// If bwlimit is toggled off, the change should only
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// become active on the next toggle, which causes
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// an exchange of tb.curr <-> tb.prev
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var targetBucket *buckets
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if tb.toggledOff {
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targetBucket = &tb.prev
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} else {
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targetBucket = &tb.curr
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}
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// Set new bandwidth. If unlimited, set tokenbucket to nil.
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if limitNow.Bandwidth.IsSet() {
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*targetBucket = newTokenBucket(limitNow.Bandwidth)
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if tb.toggledOff {
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fs.Logf(nil, "Scheduled bandwidth change. "+
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"Limit will be set to %v Byte/s when toggled on again.", &limitNow.Bandwidth)
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} else {
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fs.Logf(nil, "Scheduled bandwidth change. Limit set to %v Byte/s", &limitNow.Bandwidth)
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}
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} else {
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targetBucket._setOff()
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fs.Logf(nil, "Scheduled bandwidth change. Bandwidth limits disabled")
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}
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tb.currLimit = limitNow
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}
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tb.mu.Unlock()
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}
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}()
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}
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// LimitBandwidth sleeps for the correct amount of time for the passage
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// of n bytes according to the current bandwidth limit
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func (tb *tokenBucket) LimitBandwidth(i TokenBucketSlot, n int) {
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tb.mu.RLock()
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// Limit the transfer speed if required
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if tb.curr[i] != nil {
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err := tb.curr[i].WaitN(context.Background(), n)
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if err != nil {
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fs.Errorf(nil, "Token bucket error: %v", err)
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}
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}
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tb.mu.RUnlock()
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}
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// SetBwLimit sets the current bandwidth limit
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func (tb *tokenBucket) SetBwLimit(bandwidth fs.BwPair) {
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tb.mu.Lock()
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defer tb.mu.Unlock()
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if bandwidth.IsSet() {
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tb.curr = newTokenBucket(bandwidth)
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fs.Logf(nil, "Bandwidth limit set to %v", bandwidth)
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} else {
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tb.curr._setOff()
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fs.Logf(nil, "Bandwidth limit reset to unlimited")
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}
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}
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// read and set the bandwidth limits
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func (tb *tokenBucket) rcBwlimit(ctx context.Context, in rc.Params) (out rc.Params, err error) {
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if in["rate"] != nil {
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bwlimit, err := in.GetString("rate")
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if err != nil {
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return out, err
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}
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var bws fs.BwTimetable
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err = bws.Set(bwlimit)
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if err != nil {
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return out, fmt.Errorf("bad bwlimit: %w", err)
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}
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if len(bws) != 1 {
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return out, errors.New("need exactly 1 bandwidth setting")
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}
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bw := bws[0]
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tb.SetBwLimit(bw.Bandwidth)
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}
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tb.mu.RLock()
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bytesPerSecond := int64(-1)
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if tb.curr[TokenBucketSlotAccounting] != nil {
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bytesPerSecond = int64(tb.curr[TokenBucketSlotAccounting].Limit())
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}
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var bp = fs.BwPair{Tx: -1, Rx: -1}
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if tb.curr[TokenBucketSlotTransportTx] != nil {
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bp.Tx = fs.SizeSuffix(tb.curr[TokenBucketSlotTransportTx].Limit())
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}
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if tb.curr[TokenBucketSlotTransportRx] != nil {
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bp.Rx = fs.SizeSuffix(tb.curr[TokenBucketSlotTransportRx].Limit())
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}
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tb.mu.RUnlock()
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out = rc.Params{
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"rate": bp.String(),
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"bytesPerSecond": bytesPerSecond,
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"bytesPerSecondTx": int64(bp.Tx),
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"bytesPerSecondRx": int64(bp.Rx),
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}
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return out, nil
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}
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// Remote control for the token bucket
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func init() {
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rc.Add(rc.Call{
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Path: "core/bwlimit",
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Fn: func(ctx context.Context, in rc.Params) (out rc.Params, err error) {
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return TokenBucket.rcBwlimit(ctx, in)
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},
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Title: "Set the bandwidth limit.",
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Help: `
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This sets the bandwidth limit to the string passed in. This should be
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a single bandwidth limit entry or a pair of upload:download bandwidth.
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Eg
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rclone rc core/bwlimit rate=off
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{
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"bytesPerSecond": -1,
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"bytesPerSecondTx": -1,
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"bytesPerSecondRx": -1,
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"rate": "off"
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}
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rclone rc core/bwlimit rate=1M
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{
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"bytesPerSecond": 1048576,
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"bytesPerSecondTx": 1048576,
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"bytesPerSecondRx": 1048576,
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"rate": "1M"
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}
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rclone rc core/bwlimit rate=1M:100k
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{
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"bytesPerSecond": 1048576,
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"bytesPerSecondTx": 1048576,
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"bytesPerSecondRx": 131072,
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"rate": "1M"
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}
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If the rate parameter is not supplied then the bandwidth is queried
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rclone rc core/bwlimit
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{
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"bytesPerSecond": 1048576,
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"bytesPerSecondTx": 1048576,
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"bytesPerSecondRx": 1048576,
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"rate": "1M"
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}
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The format of the parameter is exactly the same as passed to --bwlimit
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except only one bandwidth may be specified.
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In either case "rate" is returned as a human-readable string, and
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"bytesPerSecond" is returned as a number.
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`,
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})
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}
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