rclone/lib/batcher/batcher.go

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// Package batcher implements a generic batcher.
//
// It uses two types:
//
// Item - the thing to be batched
// Result - the result from the batching
//
// And one function of type CommitBatchFn which is called to do the actual batching.
package batcher
import (
"context"
"errors"
"fmt"
"sync"
"time"
"github.com/rclone/rclone/fs"
"github.com/rclone/rclone/fs/fserrors"
"github.com/rclone/rclone/lib/atexit"
)
// Options for configuring the batcher
type Options struct {
Mode string // mode of the batcher "sync", "async" or "off"
Size int // size of batch
Timeout time.Duration // timeout before committing the batch
MaxBatchSize int // max size the batch can be
DefaultTimeoutSync time.Duration // default time to kick off the batch if nothing added for this long (sync)
DefaultTimeoutAsync time.Duration // default time to kick off the batch if nothing added for this long (async)
DefaultBatchSizeAsync int // default batch size if async
}
// CommitBatchFn is called to commit a batch of Item and return Result to the callers.
//
// It should commit the batch of items then for each result i (of
// which there should be len(items)) it should set either results[i]
// or errors[i]
type CommitBatchFn[Item, Result any] func(ctx context.Context, items []Item, results []Result, errors []error) (err error)
// Batcher holds info about the current items waiting to be acted on.
type Batcher[Item, Result any] struct {
opt Options // options for configuring the batcher
f any // logging identity for fs.Debugf(f, ...)
commit CommitBatchFn[Item, Result] // User defined function to commit the batch
async bool // whether we are using async batching
in chan request[Item, Result] // incoming items to batch
closed chan struct{} // close to indicate batcher shut down
atexit atexit.FnHandle // atexit handle
shutOnce sync.Once // make sure we shutdown once only
wg sync.WaitGroup // wait for shutdown
}
// request holds an incoming request with a place for a reply
type request[Item, Result any] struct {
item Item
name string
result chan<- response[Result]
quit bool // if set then quit
}
// response holds a response to be delivered to clients waiting
// for a batch to complete.
type response[Result any] struct {
err error
entry Result
}
// New creates a Batcher for Item and Result calling commit to do the actual committing.
func New[Item, Result any](ctx context.Context, f any, commit CommitBatchFn[Item, Result], opt Options) (*Batcher[Item, Result], error) {
// fs.Debugf(f, "Creating batcher with mode %q, size %d, timeout %v", mode, size, timeout)
if opt.Size > opt.MaxBatchSize || opt.Size < 0 {
return nil, fmt.Errorf("batcher: batch size must be < %d and >= 0 - it is currently %d", opt.MaxBatchSize, opt.Size)
}
async := false
switch opt.Mode {
case "sync":
if opt.Size <= 0 {
ci := fs.GetConfig(ctx)
opt.Size = ci.Transfers
}
if opt.Timeout <= 0 {
opt.Timeout = opt.DefaultTimeoutSync
}
case "async":
if opt.Size <= 0 {
opt.Size = opt.DefaultBatchSizeAsync
}
if opt.Timeout <= 0 {
opt.Timeout = opt.DefaultTimeoutAsync
}
async = true
case "off":
opt.Size = 0
default:
return nil, fmt.Errorf("batcher: batch mode must be sync|async|off not %q", opt.Mode)
}
b := &Batcher[Item, Result]{
opt: opt,
f: f,
commit: commit,
async: async,
in: make(chan request[Item, Result], opt.Size),
closed: make(chan struct{}),
}
if b.Batching() {
b.atexit = atexit.Register(b.Shutdown)
b.wg.Add(1)
go b.commitLoop(context.Background())
}
return b, nil
}
// Batching returns true if batching is active
func (b *Batcher[Item, Result]) Batching() bool {
return b.opt.Size > 0
}
// commit a batch calling the user defined commit function then distributing the results.
func (b *Batcher[Item, Result]) commitBatch(ctx context.Context, requests []request[Item, Result]) (err error) {
// If commit fails then signal clients if sync
var signalled = b.async
defer func() {
if err != nil && !signalled {
// Signal to clients that there was an error
for _, req := range requests {
req.result <- response[Result]{err: err}
}
}
}()
desc := fmt.Sprintf("%s batch length %d starting with: %s", b.opt.Mode, len(requests), requests[0].name)
fs.Debugf(b.f, "Committing %s", desc)
var (
items = make([]Item, len(requests))
results = make([]Result, len(requests))
errors = make([]error, len(requests))
)
for i := range requests {
items[i] = requests[i].item
}
// Commit the batch
err = b.commit(ctx, items, results, errors)
if err != nil {
return err
}
// Report results to clients
var (
lastError error
errorCount = 0
)
for i, req := range requests {
result := results[i]
err := errors[i]
resp := response[Result]{}
if err == nil {
resp.entry = result
} else {
errorCount++
lastError = err
resp.err = fmt.Errorf("batch upload failed: %w", err)
}
if !b.async {
req.result <- resp
}
}
// show signalled so no need to report error to clients from now on
signalled = true
// Report an error if any failed in the batch
if lastError != nil {
return fmt.Errorf("batch had %d errors: last error: %w", errorCount, lastError)
}
fs.Debugf(b.f, "Committed %s", desc)
return nil
}
// commitLoop runs the commit engine in the background
func (b *Batcher[Item, Result]) commitLoop(ctx context.Context) {
var (
requests []request[Item, Result] // current batch of uncommitted Items
idleTimer = time.NewTimer(b.opt.Timeout)
commit = func() {
err := b.commitBatch(ctx, requests)
if err != nil {
fs.Errorf(b.f, "%s batch commit: failed to commit batch length %d: %v", b.opt.Mode, len(requests), err)
}
requests = nil
}
)
defer b.wg.Done()
defer idleTimer.Stop()
idleTimer.Stop()
outer:
for {
select {
case req := <-b.in:
if req.quit {
break outer
}
requests = append(requests, req)
idleTimer.Stop()
if len(requests) >= b.opt.Size {
commit()
} else {
idleTimer.Reset(b.opt.Timeout)
}
case <-idleTimer.C:
if len(requests) > 0 {
fs.Debugf(b.f, "Batch idle for %v so committing", b.opt.Timeout)
commit()
}
}
}
// commit any remaining items
if len(requests) > 0 {
commit()
}
}
// Shutdown finishes any pending batches then shuts everything down.
//
// This is registered as an atexit handler by New.
func (b *Batcher[Item, Result]) Shutdown() {
if !b.Batching() {
return
}
b.shutOnce.Do(func() {
atexit.Unregister(b.atexit)
fs.Infof(b.f, "Committing uploads - please wait...")
// show that batcher is shutting down
close(b.closed)
// quit the commitLoop by sending a quitRequest message
//
// Note that we don't close b.in because that will
// cause write to closed channel in Commit when we are
// exiting due to a signal.
b.in <- request[Item, Result]{quit: true}
b.wg.Wait()
})
}
// Commit commits the Item getting a Result or error using a batch
// call, first adding it to the batch and then waiting for the batch
// to complete in a synchronous way if async is not set.
//
// If async is set then this will return no error and a nil/empty
// Result.
//
// This should not be called if batching is off - check first with
// IsBatching.
func (b *Batcher[Item, Result]) Commit(ctx context.Context, name string, item Item) (entry Result, err error) {
select {
case <-b.closed:
return entry, fserrors.FatalError(errors.New("batcher is shutting down"))
default:
}
fs.Debugf(b.f, "Adding %q to batch", name)
resp := make(chan response[Result], 1)
b.in <- request[Item, Result]{
item: item,
name: name,
result: resp,
}
// If running async then don't wait for the result
if b.async {
return entry, nil
}
result := <-resp
return result.entry, result.err
}