rclone/fs/accounting/accounting.go
Nick Craig-Wood 421585dd72 accounting: add context to Account and propagate changes #3257
This is preparation for getting the Accounting to check the context,
buf first we need to get it in place. Since this is one of those
changes that makes lots of noise, this is in a seperate commit.
2020-07-28 16:41:17 +01:00

592 lines
15 KiB
Go

// Package accounting providers an accounting and limiting reader
package accounting
import (
"context"
"fmt"
"io"
"sync"
"time"
"unicode/utf8"
"github.com/rclone/rclone/fs/rc"
"golang.org/x/time/rate"
"github.com/pkg/errors"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/asyncreader"
"github.com/rclone/rclone/fs/fserrors"
)
// ErrorMaxTransferLimitReached defines error when transfer limit is reached.
// Used for checking on exit and matching to correct exit code.
var ErrorMaxTransferLimitReached = errors.New("Max transfer limit reached as set by --max-transfer")
// ErrorMaxTransferLimitReachedFatal is returned from Read when the max
// transfer limit is reached.
var ErrorMaxTransferLimitReachedFatal = fserrors.FatalError(ErrorMaxTransferLimitReached)
// Account limits and accounts for one transfer
type Account struct {
stats *StatsInfo
// The mutex is to make sure Read() and Close() aren't called
// concurrently. Unfortunately the persistent connection loop
// in http transport calls Read() after Do() returns on
// CancelRequest so this race can happen when it apparently
// shouldn't.
mu sync.Mutex // mutex protects these values
in io.Reader
ctx context.Context // current context for transfer - may change
origIn io.ReadCloser
close io.Closer
size int64
name string
closed bool // set if the file is closed
exit chan struct{} // channel that will be closed when transfer is finished
withBuf bool // is using a buffered in
tokenBucket *rate.Limiter // per file bandwidth limiter (may be nil)
values accountValues
}
// accountValues holds statistics for this Account
type accountValues struct {
mu sync.Mutex // Mutex for stat values.
bytes int64 // Total number of bytes read
max int64 // if >=0 the max number of bytes to transfer
start time.Time // Start time of first read
lpTime time.Time // Time of last average measurement
lpBytes int // Number of bytes read since last measurement
avg float64 // Moving average of last few measurements in bytes/s
}
const averagePeriod = 16 // period to do exponentially weighted averages over
// newAccountSizeName makes an Account reader for an io.ReadCloser of
// the given size and name
func newAccountSizeName(ctx context.Context, stats *StatsInfo, in io.ReadCloser, size int64, name string) *Account {
acc := &Account{
stats: stats,
in: in,
ctx: ctx,
close: in,
origIn: in,
size: size,
name: name,
exit: make(chan struct{}),
values: accountValues{
avg: 0,
lpTime: time.Now(),
max: -1,
},
}
if fs.Config.CutoffMode == fs.CutoffModeHard {
acc.values.max = int64((fs.Config.MaxTransfer))
}
currLimit := fs.Config.BwLimitFile.LimitAt(time.Now())
if currLimit.Bandwidth > 0 {
fs.Debugf(acc.name, "Limiting file transfer to %v", currLimit.Bandwidth)
acc.tokenBucket = newTokenBucket(currLimit.Bandwidth)
}
go acc.averageLoop()
stats.inProgress.set(acc.name, acc)
return acc
}
// WithBuffer - If the file is above a certain size it adds an Async reader
func (acc *Account) WithBuffer() *Account {
// if already have a buffer then just return
if acc.withBuf {
return acc
}
acc.withBuf = true
var buffers int
if acc.size >= int64(fs.Config.BufferSize) || acc.size == -1 {
buffers = int(int64(fs.Config.BufferSize) / asyncreader.BufferSize)
} else {
buffers = int(acc.size / asyncreader.BufferSize)
}
// On big files add a buffer
if buffers > 0 {
rc, err := asyncreader.New(acc.origIn, buffers)
if err != nil {
fs.Errorf(acc.name, "Failed to make buffer: %v", err)
} else {
acc.in = rc
acc.close = rc
}
}
return acc
}
// HasBuffer - returns true if this Account has an AsyncReader with a buffer
func (acc *Account) HasBuffer() bool {
acc.mu.Lock()
defer acc.mu.Unlock()
_, ok := acc.in.(*asyncreader.AsyncReader)
return ok
}
// GetReader returns the underlying io.ReadCloser under any Buffer
func (acc *Account) GetReader() io.ReadCloser {
acc.mu.Lock()
defer acc.mu.Unlock()
return acc.origIn
}
// GetAsyncReader returns the current AsyncReader or nil if Account is unbuffered
func (acc *Account) GetAsyncReader() *asyncreader.AsyncReader {
acc.mu.Lock()
defer acc.mu.Unlock()
if asyncIn, ok := acc.in.(*asyncreader.AsyncReader); ok {
return asyncIn
}
return nil
}
// StopBuffering stops the async buffer doing any more buffering
func (acc *Account) StopBuffering() {
if asyncIn, ok := acc.in.(*asyncreader.AsyncReader); ok {
asyncIn.StopBuffering()
}
}
// Abandon stops the async buffer doing any more buffering
func (acc *Account) Abandon() {
if asyncIn, ok := acc.in.(*asyncreader.AsyncReader); ok {
asyncIn.Abandon()
}
}
// UpdateReader updates the underlying io.ReadCloser stopping the
// async buffer (if any) and re-adding it
func (acc *Account) UpdateReader(ctx context.Context, in io.ReadCloser) {
acc.mu.Lock()
withBuf := acc.withBuf
if withBuf {
acc.Abandon()
acc.withBuf = false
}
acc.in = in
acc.ctx = ctx
acc.close = in
acc.origIn = in
acc.closed = false
if withBuf {
acc.WithBuffer()
}
acc.mu.Unlock()
// Reset counter to stop percentage going over 100%
acc.values.mu.Lock()
acc.values.lpBytes = 0
acc.values.bytes = 0
acc.values.mu.Unlock()
}
// averageLoop calculates averages for the stats in the background
func (acc *Account) averageLoop() {
tick := time.NewTicker(time.Second)
var period float64
defer tick.Stop()
for {
select {
case now := <-tick.C:
acc.values.mu.Lock()
// Add average of last second.
elapsed := now.Sub(acc.values.lpTime).Seconds()
avg := float64(acc.values.lpBytes) / elapsed
// Soft start the moving average
if period < averagePeriod {
period++
}
acc.values.avg = (avg + (period-1)*acc.values.avg) / period
acc.values.lpBytes = 0
acc.values.lpTime = now
// Unlock stats
acc.values.mu.Unlock()
case <-acc.exit:
return
}
}
}
// Check the read before it has happened is valid returning the number
// of bytes remaining to read.
func (acc *Account) checkReadBefore() (bytesUntilLimit int64, err error) {
acc.values.mu.Lock()
if acc.values.max >= 0 {
bytesUntilLimit = acc.values.max - acc.stats.GetBytes()
if bytesUntilLimit < 0 {
acc.values.mu.Unlock()
return bytesUntilLimit, ErrorMaxTransferLimitReachedFatal
}
} else {
bytesUntilLimit = 1 << 62
}
// Set start time.
if acc.values.start.IsZero() {
acc.values.start = time.Now()
}
acc.values.mu.Unlock()
return bytesUntilLimit, nil
}
// Check the read call after the read has happened
func checkReadAfter(bytesUntilLimit int64, n int, err error) (outN int, outErr error) {
bytesUntilLimit -= int64(n)
if bytesUntilLimit < 0 {
// chop the overage off
n += int(bytesUntilLimit)
if n < 0 {
n = 0
}
err = ErrorMaxTransferLimitReachedFatal
}
return n, err
}
// ServerSideCopyStart should be called at the start of a server side copy
//
// This pretends a transfer has started
func (acc *Account) ServerSideCopyStart() {
acc.values.mu.Lock()
// Set start time.
if acc.values.start.IsZero() {
acc.values.start = time.Now()
}
acc.values.mu.Unlock()
}
// ServerSideCopyEnd accounts for a read of n bytes in a sever side copy
func (acc *Account) ServerSideCopyEnd(n int64) {
// Update Stats
acc.values.mu.Lock()
acc.values.bytes += n
acc.values.mu.Unlock()
acc.stats.Bytes(n)
}
// Account for n bytes from the current file bandwidth limit (if any)
func (acc *Account) limitPerFileBandwidth(n int) {
acc.values.mu.Lock()
tokenBucket := acc.tokenBucket
acc.values.mu.Unlock()
if tokenBucket != nil {
err := tokenBucket.WaitN(context.Background(), n)
if err != nil {
fs.Errorf(nil, "Token bucket error: %v", err)
}
}
}
// Account the read and limit bandwidth
func (acc *Account) accountRead(n int) {
// Update Stats
acc.values.mu.Lock()
acc.values.lpBytes += n
acc.values.bytes += int64(n)
acc.values.mu.Unlock()
acc.stats.Bytes(int64(n))
limitBandwidth(n)
acc.limitPerFileBandwidth(n)
}
// read bytes from the io.Reader passed in and account them
func (acc *Account) read(in io.Reader, p []byte) (n int, err error) {
bytesUntilLimit, err := acc.checkReadBefore()
if err == nil {
n, err = in.Read(p)
acc.accountRead(n)
n, err = checkReadAfter(bytesUntilLimit, n, err)
}
return n, err
}
// Read bytes from the object - see io.Reader
func (acc *Account) Read(p []byte) (n int, err error) {
acc.mu.Lock()
defer acc.mu.Unlock()
return acc.read(acc.in, p)
}
// Thin wrapper for w
type accountWriteTo struct {
w io.Writer
acc *Account
}
// Write writes len(p) bytes from p to the underlying data stream. It
// returns the number of bytes written from p (0 <= n <= len(p)) and
// any error encountered that caused the write to stop early. Write
// must return a non-nil error if it returns n < len(p). Write must
// not modify the slice data, even temporarily.
//
// Implementations must not retain p.
func (awt *accountWriteTo) Write(p []byte) (n int, err error) {
bytesUntilLimit, err := awt.acc.checkReadBefore()
if err == nil {
n, err = awt.w.Write(p)
n, err = checkReadAfter(bytesUntilLimit, n, err)
awt.acc.accountRead(n)
}
return n, err
}
// WriteTo writes data to w until there's no more data to write or
// when an error occurs. The return value n is the number of bytes
// written. Any error encountered during the write is also returned.
func (acc *Account) WriteTo(w io.Writer) (n int64, err error) {
acc.mu.Lock()
in := acc.in
acc.mu.Unlock()
wrappedWriter := accountWriteTo{w: w, acc: acc}
if do, ok := in.(io.WriterTo); ok {
n, err = do.WriteTo(&wrappedWriter)
} else {
n, err = io.Copy(&wrappedWriter, in)
}
return
}
// AccountRead account having read n bytes
func (acc *Account) AccountRead(n int) (err error) {
acc.mu.Lock()
defer acc.mu.Unlock()
bytesUntilLimit, err := acc.checkReadBefore()
if err == nil {
n, err = checkReadAfter(bytesUntilLimit, n, err)
acc.accountRead(n)
}
return err
}
// Close the object
func (acc *Account) Close() error {
acc.mu.Lock()
defer acc.mu.Unlock()
if acc.closed {
return nil
}
acc.closed = true
if acc.close == nil {
return nil
}
return acc.close.Close()
}
// Done with accounting - must be called to free accounting goroutine
func (acc *Account) Done() {
acc.mu.Lock()
defer acc.mu.Unlock()
close(acc.exit)
acc.stats.inProgress.clear(acc.name)
}
// progress returns bytes read as well as the size.
// Size can be <= 0 if the size is unknown.
func (acc *Account) progress() (bytes, size int64) {
if acc == nil {
return 0, 0
}
acc.values.mu.Lock()
bytes, size = acc.values.bytes, acc.size
acc.values.mu.Unlock()
return bytes, size
}
// speed returns the speed of the current file transfer
// in bytes per second, as well an exponentially weighted moving average
// If no read has completed yet, 0 is returned for both values.
func (acc *Account) speed() (bps, current float64) {
if acc == nil {
return 0, 0
}
acc.values.mu.Lock()
defer acc.values.mu.Unlock()
if acc.values.bytes == 0 {
return 0, 0
}
// Calculate speed from first read.
total := float64(time.Now().Sub(acc.values.start)) / float64(time.Second)
bps = float64(acc.values.bytes) / total
current = acc.values.avg
return
}
// eta returns the ETA of the current operation,
// rounded to full seconds.
// If the ETA cannot be determined 'ok' returns false.
func (acc *Account) eta() (etaDuration time.Duration, ok bool) {
if acc == nil {
return 0, false
}
acc.values.mu.Lock()
defer acc.values.mu.Unlock()
return eta(acc.values.bytes, acc.size, acc.values.avg)
}
// shortenName shortens in to size runes long
// If size <= 0 then in is left untouched
func shortenName(in string, size int) string {
if size <= 0 {
return in
}
if utf8.RuneCountInString(in) <= size {
return in
}
name := []rune(in)
size-- // don't count elipsis rune
suffixLength := size / 2
prefixLength := size - suffixLength
suffixStart := len(name) - suffixLength
name = append(append(name[:prefixLength], '…'), name[suffixStart:]...)
return string(name)
}
// String produces stats for this file
func (acc *Account) String() string {
a, b := acc.progress()
_, cur := acc.speed()
eta, etaok := acc.eta()
etas := "-"
if etaok {
if eta > 0 {
etas = fmt.Sprintf("%v", eta)
} else {
etas = "0s"
}
}
if fs.Config.DataRateUnit == "bits" {
cur = cur * 8
}
percentageDone := 0
if b > 0 {
percentageDone = int(100 * float64(a) / float64(b))
}
return fmt.Sprintf("%*s:%3d%% /%s, %s/s, %s",
fs.Config.StatsFileNameLength,
shortenName(acc.name, fs.Config.StatsFileNameLength),
percentageDone,
fs.SizeSuffix(b),
fs.SizeSuffix(cur),
etas,
)
}
// RemoteStats produces stats for this file
func (acc *Account) RemoteStats() (out rc.Params) {
out = make(rc.Params)
a, b := acc.progress()
out["bytes"] = a
out["size"] = b
spd, cur := acc.speed()
out["speed"] = spd
out["speedAvg"] = cur
eta, etaok := acc.eta()
out["eta"] = nil
if etaok {
if eta > 0 {
out["eta"] = eta.Seconds()
} else {
out["eta"] = 0
}
}
out["name"] = acc.name
percentageDone := 0
if b > 0 {
percentageDone = int(100 * float64(a) / float64(b))
}
out["percentage"] = percentageDone
out["group"] = acc.stats.group
return out
}
// OldStream returns the top io.Reader
func (acc *Account) OldStream() io.Reader {
acc.mu.Lock()
defer acc.mu.Unlock()
return acc.in
}
// SetStream updates the top io.Reader
func (acc *Account) SetStream(in io.Reader) {
acc.mu.Lock()
acc.in = in
acc.mu.Unlock()
}
// WrapStream wraps an io Reader so it will be accounted in the same
// way as account
func (acc *Account) WrapStream(in io.Reader) io.Reader {
return &accountStream{
acc: acc,
in: in,
}
}
// accountStream accounts a single io.Reader into a parent *Account
type accountStream struct {
acc *Account
in io.Reader
}
// OldStream return the underlying stream
func (a *accountStream) OldStream() io.Reader {
return a.in
}
// SetStream set the underlying stream
func (a *accountStream) SetStream(in io.Reader) {
a.in = in
}
// WrapStream wrap in in an accounter
func (a *accountStream) WrapStream(in io.Reader) io.Reader {
return a.acc.WrapStream(in)
}
// Read bytes from the object - see io.Reader
func (a *accountStream) Read(p []byte) (n int, err error) {
return a.acc.read(a.in, p)
}
// Accounter accounts a stream allowing the accounting to be removed and re-added
type Accounter interface {
io.Reader
OldStream() io.Reader
SetStream(io.Reader)
WrapStream(io.Reader) io.Reader
}
// WrapFn wraps an io.Reader (for accounting purposes usually)
type WrapFn func(io.Reader) io.Reader
// UnWrap unwraps a reader returning unwrapped and wrap, a function to
// wrap it back up again. If `in` is an Accounter then this function
// will take the accounting unwrapped and wrap will put it back on
// again the new Reader passed in.
//
// This allows functions which wrap io.Readers to move the accounting
// to the end of the wrapped chain of readers. This is very important
// if buffering is being introduced and if the Reader might be wrapped
// again.
func UnWrap(in io.Reader) (unwrapped io.Reader, wrap WrapFn) {
acc, ok := in.(Accounter)
if !ok {
return in, func(r io.Reader) io.Reader { return r }
}
return acc.OldStream(), acc.WrapStream
}