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dataloader.go
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dataloader.go
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// Package dataloader is an implementation of facebook's dataloader in go.
// See https://github.com/facebook/dataloader for more information
package dataloader
import (
"context"
"errors"
"fmt"
"log"
"runtime"
"sync"
"time"
)
// Interface is a `DataLoader` Interface which defines a public API for loading data from a particular
// data back-end with unique keys such as the `id` column of a SQL table or
// document name in a MongoDB database, given a batch loading function.
//
// Each `DataLoader` instance should contain a unique memoized cache. Use caution when
// used in long-lived applications or those which serve many users with
// different access permissions and consider creating a new instance per
// web request.
type Interface[K comparable, V any] interface {
Load(context.Context, K) Thunk[V]
LoadMany(context.Context, []K) ThunkMany[V]
Clear(context.Context, K) Interface[K, V]
ClearAll() Interface[K, V]
Prime(ctx context.Context, key K, value V) Interface[K, V]
}
// BatchFunc is a function, which when given a slice of keys (string), returns a slice of `results`.
// It's important that the length of the input keys matches the length of the output results.
//
// The keys passed to this function are guaranteed to be unique
type BatchFunc[K comparable, V any] func(context.Context, []K) []*Result[V]
// Result is the data structure that a BatchFunc returns.
// It contains the resolved data, and any errors that may have occurred while fetching the data.
type Result[V any] struct {
Data V
Error error
}
// ResultMany is used by the LoadMany method.
// It contains a list of resolved data and a list of errors.
// The lengths of the data list and error list will match, and elements at each index correspond to each other.
type ResultMany[V any] struct {
Data []V
Error []error
}
// PanicErrorWrapper wraps the error interface.
// This is used to check if the error is a panic error.
// We should not cache panic errors.
type PanicErrorWrapper struct {
panicError error
}
func (p *PanicErrorWrapper) Error() string {
return p.panicError.Error()
}
// Loader implements the dataloader.Interface.
type Loader[K comparable, V any] struct {
// the batch function to be used by this loader
batchFn BatchFunc[K, V]
// the maximum batch size. Set to 0 if you want it to be unbounded.
batchCap int
// the internal cache. This packages contains a basic cache implementation but any custom cache
// implementation could be used as long as it implements the `Cache` interface.
cacheLock sync.Mutex
cache Cache[K, V]
// should we clear the cache on each batch?
// this would allow batching but no long term caching
clearCacheOnBatch bool
// count of queued up items
count int
// the maximum input queue size. Set to 0 if you want it to be unbounded.
inputCap int
// the amount of time to wait before triggering a batch
wait time.Duration
// lock to protect the batching operations
batchLock sync.Mutex
// current batcher
curBatcher *batcher[K, V]
// used to close the sleeper of the current batcher
endSleeper chan bool
// used by tests to prevent logs
silent bool
// can be set to trace calls to dataloader
tracer Tracer[K, V]
}
// Thunk is a function that will block until the value (*Result) it contains is resolved.
// After the value it contains is resolved, this function will return the result.
// This function can be called many times, much like a Promise is other languages.
// The value will only need to be resolved once so subsequent calls will return immediately.
type Thunk[V any] func() (V, error)
// ThunkMany is much like the Thunk func type but it contains a list of results.
type ThunkMany[V any] func() ([]V, []error)
// type used to on input channel
type batchRequest[K comparable, V any] struct {
key K
channel chan *Result[V]
}
// Option allows for configuration of Loader fields.
type Option[K comparable, V any] func(*Loader[K, V])
// WithCache sets the BatchedLoader cache. Defaults to InMemoryCache if a Cache is not set.
func WithCache[K comparable, V any](c Cache[K, V]) Option[K, V] {
return func(l *Loader[K, V]) {
l.cache = c
}
}
// WithBatchCapacity sets the batch capacity. Default is 0 (unbounded).
func WithBatchCapacity[K comparable, V any](c int) Option[K, V] {
return func(l *Loader[K, V]) {
l.batchCap = c
}
}
// WithInputCapacity sets the input capacity. Default is 1000.
func WithInputCapacity[K comparable, V any](c int) Option[K, V] {
return func(l *Loader[K, V]) {
l.inputCap = c
}
}
// WithWait sets the amount of time to wait before triggering a batch.
// Default duration is 16 milliseconds.
func WithWait[K comparable, V any](d time.Duration) Option[K, V] {
return func(l *Loader[K, V]) {
l.wait = d
}
}
// WithClearCacheOnBatch allows batching of items but no long term caching.
// It accomplishes this by clearing the cache after each batch operation.
func WithClearCacheOnBatch[K comparable, V any]() Option[K, V] {
return func(l *Loader[K, V]) {
l.cacheLock.Lock()
l.clearCacheOnBatch = true
l.cacheLock.Unlock()
}
}
// withSilentLogger turns of log messages. It's used by the tests
func withSilentLogger[K comparable, V any]() Option[K, V] {
return func(l *Loader[K, V]) {
l.silent = true
}
}
// WithTracer allows tracing of calls to Load and LoadMany
func WithTracer[K comparable, V any](tracer Tracer[K, V]) Option[K, V] {
return func(l *Loader[K, V]) {
l.tracer = tracer
}
}
// NewBatchedLoader constructs a new Loader with given options.
func NewBatchedLoader[K comparable, V any](batchFn BatchFunc[K, V], opts ...Option[K, V]) *Loader[K, V] {
loader := &Loader[K, V]{
batchFn: batchFn,
inputCap: 1000,
wait: 16 * time.Millisecond,
}
// Apply options
for _, apply := range opts {
apply(loader)
}
// Set defaults
if loader.cache == nil {
loader.cache = NewCache[K, V]()
}
if loader.tracer == nil {
loader.tracer = NoopTracer[K, V]{}
}
return loader
}
// Load load/resolves the given key, returning a channel that will contain the value and error.
// The first context passed to this function within a given batch window will be provided to
// the registered BatchFunc.
func (l *Loader[K, V]) Load(originalContext context.Context, key K) Thunk[V] {
ctx, finish := l.tracer.TraceLoad(originalContext, key)
c := make(chan *Result[V], 1)
var result struct {
mu sync.RWMutex
value *Result[V]
}
// lock to prevent duplicate keys coming in before item has been added to cache.
l.cacheLock.Lock()
if v, ok := l.cache.Get(ctx, key); ok {
defer finish(v)
defer l.cacheLock.Unlock()
return v
}
thunk := func() (V, error) {
result.mu.RLock()
resultNotSet := result.value == nil
result.mu.RUnlock()
if resultNotSet {
result.mu.Lock()
if v, ok := <-c; ok {
result.value = v
}
result.mu.Unlock()
}
result.mu.RLock()
defer result.mu.RUnlock()
var ev *PanicErrorWrapper
if result.value.Error != nil && errors.As(result.value.Error, &ev) {
l.Clear(ctx, key)
}
return result.value.Data, result.value.Error
}
defer finish(thunk)
l.cache.Set(ctx, key, thunk)
l.cacheLock.Unlock()
// this is sent to batch fn. It contains the key and the channel to return
// the result on
req := &batchRequest[K, V]{key, c}
l.batchLock.Lock()
// start the batch window if it hasn't already started.
if l.curBatcher == nil {
l.curBatcher = l.newBatcher(l.silent, l.tracer)
// start the current batcher batch function
go l.curBatcher.batch(originalContext)
// start a sleeper for the current batcher
l.endSleeper = make(chan bool)
go l.sleeper(l.curBatcher, l.endSleeper)
}
l.curBatcher.input <- req
// if we need to keep track of the count (max batch), then do so.
if l.batchCap > 0 {
l.count++
// if we hit our limit, force the batch to start
if l.count == l.batchCap {
// end the batcher synchronously here because another call to Load
// may concurrently happen and needs to go to a new batcher.
l.curBatcher.end()
// end the sleeper for the current batcher.
// this is to stop the goroutine without waiting for the
// sleeper timeout.
close(l.endSleeper)
l.reset()
}
}
l.batchLock.Unlock()
return thunk
}
// LoadMany loads multiple keys, returning a thunk (type: ThunkMany) that will resolve the keys passed in.
func (l *Loader[K, V]) LoadMany(originalContext context.Context, keys []K) ThunkMany[V] {
ctx, finish := l.tracer.TraceLoadMany(originalContext, keys)
var (
length = len(keys)
data = make([]V, length)
errors = make([]error, length)
c = make(chan *ResultMany[V], 1)
wg sync.WaitGroup
)
resolve := func(ctx context.Context, i int) {
defer wg.Done()
thunk := l.Load(ctx, keys[i])
result, err := thunk()
data[i] = result
errors[i] = err
}
wg.Add(length)
for i := range keys {
go resolve(ctx, i)
}
go func() {
wg.Wait()
// errs is nil unless there exists a non-nil error.
// This prevents dataloader from returning a slice of all-nil errors.
var errs []error
for _, e := range errors {
if e != nil {
errs = errors
break
}
}
c <- &ResultMany[V]{Data: data, Error: errs}
close(c)
}()
var result struct {
mu sync.RWMutex
value *ResultMany[V]
}
thunkMany := func() ([]V, []error) {
result.mu.RLock()
resultNotSet := result.value == nil
result.mu.RUnlock()
if resultNotSet {
result.mu.Lock()
if v, ok := <-c; ok {
result.value = v
}
result.mu.Unlock()
}
result.mu.RLock()
defer result.mu.RUnlock()
return result.value.Data, result.value.Error
}
defer finish(thunkMany)
return thunkMany
}
// Clear clears the value at `key` from the cache, it it exists. Returns self for method chaining
func (l *Loader[K, V]) Clear(ctx context.Context, key K) Interface[K, V] {
l.cacheLock.Lock()
l.cache.Delete(ctx, key)
l.cacheLock.Unlock()
return l
}
// ClearAll clears the entire cache. To be used when some event results in unknown invalidations.
// Returns self for method chaining.
func (l *Loader[K, V]) ClearAll() Interface[K, V] {
l.cacheLock.Lock()
l.cache.Clear()
l.cacheLock.Unlock()
return l
}
// Prime adds the provided key and value to the cache. If the key already exists, no change is made.
// Returns self for method chaining
func (l *Loader[K, V]) Prime(ctx context.Context, key K, value V) Interface[K, V] {
if _, ok := l.cache.Get(ctx, key); !ok {
thunk := func() (V, error) {
return value, nil
}
l.cache.Set(ctx, key, thunk)
}
return l
}
func (l *Loader[K, V]) reset() {
l.count = 0
l.curBatcher = nil
if l.clearCacheOnBatch {
l.cache.Clear()
}
}
type batcher[K comparable, V any] struct {
input chan *batchRequest[K, V]
batchFn BatchFunc[K, V]
finished bool
silent bool
tracer Tracer[K, V]
}
// newBatcher returns a batcher for the current requests
// all the batcher methods must be protected by a global batchLock
func (l *Loader[K, V]) newBatcher(silent bool, tracer Tracer[K, V]) *batcher[K, V] {
return &batcher[K, V]{
input: make(chan *batchRequest[K, V], l.inputCap),
batchFn: l.batchFn,
silent: silent,
tracer: tracer,
}
}
// stop receiving input and process batch function
func (b *batcher[K, V]) end() {
if !b.finished {
close(b.input)
b.finished = true
}
}
// execute the batch of all items in queue
func (b *batcher[K, V]) batch(originalContext context.Context) {
var (
keys = make([]K, 0)
reqs = make([]*batchRequest[K, V], 0)
items = make([]*Result[V], 0)
panicErr interface{}
)
for item := range b.input {
keys = append(keys, item.key)
reqs = append(reqs, item)
}
ctx, finish := b.tracer.TraceBatch(originalContext, keys)
defer finish(items)
func() {
defer func() {
if r := recover(); r != nil {
panicErr = r
if b.silent {
return
}
const size = 64 << 10
buf := make([]byte, size)
buf = buf[:runtime.Stack(buf, false)]
log.Printf("Dataloader: Panic received in batch function: %v\n%s", panicErr, buf)
}
}()
items = b.batchFn(ctx, keys)
}()
if panicErr != nil {
for _, req := range reqs {
req.channel <- &Result[V]{Error: &PanicErrorWrapper{panicError: fmt.Errorf("Panic received in batch function: %v", panicErr)}}
close(req.channel)
}
return
}
if len(items) != len(keys) {
err := &Result[V]{Error: fmt.Errorf(`
The batch function supplied did not return an array of responses
the same length as the array of keys.
Keys:
%v
Values:
%v
`, keys, items)}
for _, req := range reqs {
req.channel <- err
close(req.channel)
}
return
}
for i, req := range reqs {
req.channel <- items[i]
close(req.channel)
}
}
// wait the appropriate amount of time for the provided batcher
func (l *Loader[K, V]) sleeper(b *batcher[K, V], close chan bool) {
select {
// used by batch to close early. usually triggered by max batch size
case <-close:
return
// this will move this goroutine to the back of the callstack?
case <-time.After(l.wait):
}
// reset
// this is protected by the batchLock to avoid closing the batcher input
// channel while Load is inserting a request
l.batchLock.Lock()
b.end()
// We can end here also if the batcher has already been closed and a
// new one has been created. So reset the loader state only if the batcher
// is the current one
if l.curBatcher == b {
l.reset()
}
l.batchLock.Unlock()
}