Supporto di contatori frequenti e distribuiti

Molte app in tempo reale contengono documenti che fungono da contatori. Ad esempio, potresti conteggiare i "Mi piace" a un post o i "preferiti" di un elemento specifico.

In Firestore, non puoi aggiornare un singolo documento a una frequenza illimitata. Se hai un contatore basato su un singolo documento e con incrementi abbastanza frequenti, prima o poi noterai un conflitto sugli aggiornamenti del documento. Vedi Aggiornamenti di un singolo documento.

Soluzione: contatori distribuiti

Per supportare aggiornamenti più frequenti dei contatori, crea un contatore distribuito. Ogni contatore è un documento con una sottoraccolta di "shard" e il valore del contatore è la somma del valore degli shard.

La velocità effettiva di scrittura aumenta in modo lineare con il numero di shard, pertanto un contatore distribuito con 10 shard può gestire un numero di scritture dieci volte superiore rispetto a un contatore tradizionale.

Web

// counters/${ID}
{
  "num_shards": NUM_SHARDS,
  "shards": [subcollection]
}

// counters/${ID}/shards/${NUM}
{
  "count": 123
}

Swift

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
// counters/${ID}
struct Counter {
  let numShards: Int

  init(numShards: Int) {
    self.numShards = numShards
  }
}

// counters/${ID}/shards/${NUM}
struct Shard {
  let count: Int

  init(count: Int) {
    self.count = count
  }
}
SolutionCountersViewController.swift

Objective-C

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
// counters/${ID}
@interface FIRCounter : NSObject
@property (nonatomic, readonly) NSInteger shardCount;
@end

@implementation FIRCounter
- (instancetype)initWithShardCount:(NSInteger)shardCount {
  self = [super init];
  if (self != nil) {
    _shardCount = shardCount;
  }
  return self;
}
@end

// counters/${ID}/shards/${NUM}
@interface FIRShard : NSObject
@property (nonatomic, readonly) NSInteger count;
@end

@implementation FIRShard
- (instancetype)initWithCount:(NSInteger)count {
  self = [super init];
  if (self != nil) {
    _count = count;
  }
  return self;
}
@end
FIRSolutionCountersViewController.m

Kotlin+KTX
Android 

// counters/${ID}
data class Counter(var numShards: Int)

// counters/${ID}/shards/${NUM}
data class Shard(var count: Int)
SolutionCounters.kt

Java
Android 

// counters/${ID}
public class Counter {
    int numShards;

    public Counter(int numShards) {
        this.numShards = numShards;
    }
}

// counters/${ID}/shards/${NUM}
public class Shard {
    int count;

    public Shard(int count) {
        this.count = count;
    }
}
SolutionCounters.java

Python 

import random

from google.cloud import firestore


class Shard:
    """
    A shard is a distributed counter. Each shard can support being incremented
    once per second. Multiple shards are needed within a Counter to allow
    more frequent incrementing.
    """

    def __init__(self):
        self._count = 0

    def to_dict(self):
        return {"count": self._count}


class Counter:
    """
    A counter stores a collection of shards which are
    summed to return a total count. This allows for more
    frequent incrementing than a single document.
    """

    def __init__(self, num_shards):
        self._num_shards = num_shards

distributed_counters.py

Python
(asinc) 

import random

from google.cloud import firestore


class Shard:
    """
    A shard is a distributed counter. Each shard can support being incremented
    once per second. Multiple shards are needed within a Counter to allow
    more frequent incrementing.
    """

    def __init__(self):
        self._count = 0

    def to_dict(self):
        return {"count": self._count}


class Counter:
    """
    A counter stores a collection of shards which are
    summed to return a total count. This allows for more
    frequent incrementing than a single document.
    """

    def __init__(self, num_shards):
        self._num_shards = num_shards

distributed_counters.py

Node.js

Non applicabile, vedi lo snippet di incremento del contatore di seguito.

Go

import (
	"context"
	"fmt"
	"math/rand"
	"strconv"

	"cloud.google.com/go/firestore"
	"google.golang.org/api/iterator"
)

// Counter is a collection of documents (shards)
// to realize counter with high frequency.
type Counter struct {
	numShards int
}

// Shard is a single counter, which is used in a group
// of other shards within Counter.
type Shard struct {
	Count int
}

solution_counters.go

PHP

Non applicabile, vedi lo snippet di inizializzazione del contatore di seguito.

C# 

/// <summary>
/// Shard is a document that contains the count.
/// </summary>
[FirestoreData]
public class Shard
{
    [FirestoreProperty(name: "count")]
    public int Count { get; set; }
}
Program.cs

Il seguente codice inizializza un contatore distribuito:

Web

function createCounter(ref, num_shards) {
    var batch = db.batch();

    // Initialize the counter document
    batch.set(ref, { num_shards: num_shards });

    // Initialize each shard with count=0
    for (let i = 0; i < num_shards; i++) {
        const shardRef = ref.collection('shards').doc(i.toString());
        batch.set(shardRef, { count: 0 });
    }

    // Commit the write batch
    return batch.commit();
}
test.solution-counters.js

Swift

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
func createCounter(ref: DocumentReference, numShards: Int) async {
  do {
    try await ref.setData(["numShards": numShards])
    for i in 0...numShards {
      try await ref.collection("shards").document(String(i)).setData(["count": 0])
    }
  } catch {
    // ...
  }
}
SolutionCountersViewController.swift

Objective-C

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
- (void)createCounterAtReference:(FIRDocumentReference *)reference
                      shardCount:(NSInteger)shardCount {
  [reference setData:@{ @"numShards": @(shardCount) } completion:^(NSError * _Nullable error) {
    for (NSInteger i = 0; i < shardCount; i++) {
      NSString *shardName = [NSString stringWithFormat:@"%ld", (long)shardCount];
      [[[reference collectionWithPath:@"shards"] documentWithPath:shardName]
          setData:@{ @"count": @(0) }];
    }
  }];
}
FIRSolutionCountersViewController.m

Kotlin+KTX
Android 

fun createCounter(ref: DocumentReference, numShards: Int): Task<Void> {
    // Initialize the counter document, then initialize each shard.
    return ref.set(Counter(numShards))
        .continueWithTask { task ->
            if (!task.isSuccessful) {
                throw task.exception!!
            }

            val tasks = arrayListOf<Task<Void>>()

            // Initialize each shard with count=0
            for (i in 0 until numShards) {
                val makeShard = ref.collection("shards")
                    .document(i.toString())
                    .set(Shard(0))

                tasks.add(makeShard)
            }

            Tasks.whenAll(tasks)
        }
}
SolutionCounters.kt

Java
Android 

public Task<Void> createCounter(final DocumentReference ref, final int numShards) {
    // Initialize the counter document, then initialize each shard.
    return ref.set(new Counter(numShards))
            .continueWithTask(new Continuation<Void, Task<Void>>() {
                @Override
                public Task<Void> then(@NonNull Task<Void> task) throws Exception {
                    if (!task.isSuccessful()) {
                        throw task.getException();
                    }

                    List<Task<Void>> tasks = new ArrayList<>();

                    // Initialize each shard with count=0
                    for (int i = 0; i < numShards; i++) {
                        Task<Void> makeShard = ref.collection("shards")
                                .document(String.valueOf(i))
                                .set(new Shard(0));

                        tasks.add(makeShard);
                    }

                    return Tasks.whenAll(tasks);
                }
            });
}
SolutionCounters.java

Python 

def init_counter(self, doc_ref):
    """
    Create a given number of shards as
    subcollection of specified document.
    """
    col_ref = doc_ref.collection("shards")

    # Initialize each shard with count=0
    for num in range(self._num_shards):
        shard = Shard()
        col_ref.document(str(num)).set(shard.to_dict())

distributed_counters.py

Python
(asinc) 

async def init_counter(self, doc_ref):
    """
    Create a given number of shards as
    subcollection of specified document.
    """
    col_ref = doc_ref.collection("shards")

    # Initialize each shard with count=0
    for num in range(self._num_shards):
        shard = Shard()
        await col_ref.document(str(num)).set(shard.to_dict())

distributed_counters.py

Node.js

Non applicabile, vedi lo snippet di incremento del contatore di seguito.

Go


// initCounter creates a given number of shards as
// subcollection of specified document.
func (c *Counter) initCounter(ctx context.Context, docRef *firestore.DocumentRef) error {
	colRef := docRef.Collection("shards")

	// Initialize each shard with count=0
	for num := 0; num < c.numShards; num++ {
		shard := Shard{0}

		if _, err := colRef.Doc(strconv.Itoa(num)).Set(ctx, shard); err != nil {
			return fmt.Errorf("Set: %w", err)
		}
	}
	return nil
}

solution_counters.go

PHP 

$numShards = 10;
$ref = $db->collection('samples/php/distributedCounters');
for ($i = 0; $i < $numShards; $i++) {
    $doc = $ref->document((string) $i);
    $doc->set(['Cnt' => 0]);
}
solution_sharded_counter_create.php

C# 

/// <summary>
/// Create a given number of shards as a
/// subcollection of specified document.
/// </summary>
/// <param name="docRef">The document reference <see cref="DocumentReference"/></param>
private static async Task CreateCounterAsync(DocumentReference docRef, int numOfShards)
{
    CollectionReference colRef = docRef.Collection("shards");
    var tasks = new List<Task>();
    // Initialize each shard with Count=0
    for (var i = 0; i < numOfShards; i++)
    {
        tasks.Add(colRef.Document(i.ToString()).SetAsync(new Shard() { Count = 0 }));
    }
    await Task.WhenAll(tasks);
}
Program.cs

Ruby 

# project_id = "Your Google Cloud Project ID"
# num_shards = "Number of shards for distributed counter"
# collection_path = "shards"

require "google/cloud/firestore"

firestore = Google::Cloud::Firestore.new project_id: project_id

shards_ref = firestore.col collection_path

# Initialize each shard with count=0
num_shards.times do |i|
  shards_ref.doc(i).set({ count: 0 })
end

puts "Distributed counter shards collection created."
distributed_counters.rb

Per incrementare il contatore, scegli uno shard casuale e incrementa il conteggio:

Web

function incrementCounter(ref, num_shards) {
    // Select a shard of the counter at random
    const shard_id = Math.floor(Math.random() * num_shards).toString();
    const shard_ref = ref.collection('shards').doc(shard_id);

    // Update count
    return shard_ref.update("count", firebase.firestore.FieldValue.increment(1));
}
test.solution-counters.js

Swift

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
func incrementCounter(ref: DocumentReference, numShards: Int) {
  // Select a shard of the counter at random
  let shardId = Int(arc4random_uniform(UInt32(numShards)))
  let shardRef = ref.collection("shards").document(String(shardId))

  shardRef.updateData([
    "count": FieldValue.increment(Int64(1))
  ])
}
SolutionCountersViewController.swift

Objective-C

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
- (void)incrementCounterAtReference:(FIRDocumentReference *)reference
                         shardCount:(NSInteger)shardCount {
  // Select a shard of the counter at random
  NSInteger shardID = (NSInteger)arc4random_uniform((uint32_t)shardCount);
  NSString *shardName = [NSString stringWithFormat:@"%ld", (long)shardID];
  FIRDocumentReference *shardReference =
      [[reference collectionWithPath:@"shards"] documentWithPath:shardName];

  [shardReference updateData:@{
    @"count": [FIRFieldValue fieldValueForIntegerIncrement:1]
  }];
}
FIRSolutionCountersViewController.m

Kotlin+KTX
Android 

fun incrementCounter(ref: DocumentReference, numShards: Int): Task<Void> {
    val shardId = Math.floor(Math.random() * numShards).toInt()
    val shardRef = ref.collection("shards").document(shardId.toString())

    return shardRef.update("count", FieldValue.increment(1))
}
SolutionCounters.kt

Java
Android 

public Task<Void> incrementCounter(final DocumentReference ref, final int numShards) {
    int shardId = (int) Math.floor(Math.random() * numShards);
    DocumentReference shardRef = ref.collection("shards").document(String.valueOf(shardId));

    return shardRef.update("count", FieldValue.increment(1));
}
SolutionCounters.java

Python 

def increment_counter(self, doc_ref):
    """Increment a randomly picked shard."""
    doc_id = random.randint(0, self._num_shards - 1)

    shard_ref = doc_ref.collection("shards").document(str(doc_id))
    return shard_ref.update({"count": firestore.Increment(1)})

distributed_counters.py

Python
(asinc) 

async def increment_counter(self, doc_ref):
    """Increment a randomly picked shard."""
    doc_id = random.randint(0, self._num_shards - 1)

    shard_ref = doc_ref.collection("shards").document(str(doc_id))
    return await shard_ref.update({"count": firestore.Increment(1)})

distributed_counters.py

Node.js 

function incrementCounter(docRef, numShards) {
  const shardId = Math.floor(Math.random() * numShards);
  const shardRef = docRef.collection('shards').doc(shardId.toString());
  return shardRef.set({count: FieldValue.increment(1)}, {merge: true});
}
solution-counters.js

Go


// incrementCounter increments a randomly picked shard.
func (c *Counter) incrementCounter(ctx context.Context, docRef *firestore.DocumentRef) (*firestore.WriteResult, error) {
	docID := strconv.Itoa(rand.Intn(c.numShards))

	shardRef := docRef.Collection("shards").Doc(docID)
	return shardRef.Update(ctx, []firestore.Update{
		{Path: "Count", Value: firestore.Increment(1)},
	})
}

solution_counters.go

PHP 

$ref = $db->collection('samples/php/distributedCounters');
$numShards = 0;
$docCollection = $ref->documents();
foreach ($docCollection as $doc) {
    $numShards++;
}
$shardIdx = random_int(0, max(1, $numShards) - 1);
$doc = $ref->document((string) $shardIdx);
$doc->update([
    ['path' => 'Cnt', 'value' => FieldValue::increment(1)]
]);
solution_sharded_counter_increment.php

C# 

/// <summary>
/// Increment a randomly picked shard by 1.
/// </summary>
/// <param name="docRef">The document reference <see cref="DocumentReference"/></param>
/// <returns>The <see cref="Task"/></returns>
private static async Task IncrementCounterAsync(DocumentReference docRef, int numOfShards)
{
    int documentId;
    lock (s_randLock)
    {
        documentId = s_rand.Next(numOfShards);
    }
    var shardRef = docRef.Collection("shards").Document(documentId.ToString());
    await shardRef.UpdateAsync("count", FieldValue.Increment(1));
}
Program.cs

Ruby 

# project_id = "Your Google Cloud Project ID"
# num_shards = "Number of shards for distributed counter"
# collection_path = "shards"

require "google/cloud/firestore"

firestore = Google::Cloud::Firestore.new project_id: project_id

# Select a shard of the counter at random
shard_id = rand 0...num_shards
shard_ref = firestore.doc "#{collection_path}/#{shard_id}"

# increment counter
shard_ref.update({ count: firestore.field_increment(1) })

puts "Counter incremented."
distributed_counters.rb

Per ottenere il conteggio totale, esegui una query per tutti gli shard e somma i relativi campi count:

Web

function getCount(ref) {
    // Sum the count of each shard in the subcollection
    return ref.collection('shards').get().then((snapshot) => {
        let total_count = 0;
        snapshot.forEach((doc) => {
            total_count += doc.data().count;
        });

        return total_count;
    });
}
test.solution-counters.js

Swift

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
func getCount(ref: DocumentReference) async {
  do {
    let querySnapshot = try await ref.collection("shards").getDocuments()
    var totalCount = 0
    for document in querySnapshot.documents {
      let count = document.data()["count"] as! Int
      totalCount += count
    }

    print("Total count is \(totalCount)")
  } catch {
    // handle error
  }
}
SolutionCountersViewController.swift

Objective-C

Nota: questo prodotto non è disponibile per i target watchOS e App Clip. 
- (void)getCountWithReference:(FIRDocumentReference *)reference {
  [[reference collectionWithPath:@"shards"]
      getDocumentsWithCompletion:^(FIRQuerySnapshot *snapshot,
                                   NSError *error) {
        NSInteger totalCount = 0;
        if (error != nil) {
          // Error getting shards
          // ...
        } else {
          for (FIRDocumentSnapshot *document in snapshot.documents) {
            NSInteger count = [document[@"count"] integerValue];
            totalCount += count;
          }

          NSLog(@"Total count is %ld", (long)totalCount);
        }
  }];
}
FIRSolutionCountersViewController.m

Kotlin+KTX
Android 

fun getCount(ref: DocumentReference): Task<Int> {
    // Sum the count of each shard in the subcollection
    return ref.collection("shards").get()
        .continueWith { task ->
            var count = 0
            for (snap in task.result!!) {
                val shard = snap.toObject<Shard>()
                count += shard.count
            }
            count
        }
}
SolutionCounters.kt

Java
Android 

public Task<Integer> getCount(final DocumentReference ref) {
    // Sum the count of each shard in the subcollection
    return ref.collection("shards").get()
            .continueWith(new Continuation<QuerySnapshot, Integer>() {
                @Override
                public Integer then(@NonNull Task<QuerySnapshot> task) throws Exception {
                    int count = 0;
                    for (DocumentSnapshot snap : task.getResult()) {
                        Shard shard = snap.toObject(Shard.class);
                        count += shard.count;
                    }
                    return count;
                }
            });
}
SolutionCounters.java

Python 

def get_count(self, doc_ref):
    """Return a total count across all shards."""
    total = 0
    shards = doc_ref.collection("shards").list_documents()
    for shard in shards:
        total += shard.get().to_dict().get("count", 0)
    return total

distributed_counters.py

Python
(asinc) 

async def get_count(self, doc_ref):
    """Return a total count across all shards."""
    total = 0
    shards = doc_ref.collection("shards").list_documents()
    async for shard in shards:
        total += (await shard.get()).to_dict().get("count", 0)
    return total

distributed_counters.py

Node.js 

async function getCount(docRef) {
  const querySnapshot = await docRef.collection('shards').get();
  const documents = querySnapshot.docs;

  let count = 0;
  for (const doc of documents) {
    count += doc.get('count');
  }
  return count;
}
solution-counters.js

Go


// getCount returns a total count across all shards.
func (c *Counter) getCount(ctx context.Context, docRef *firestore.DocumentRef) (int64, error) {
	var total int64
	shards := docRef.Collection("shards").Documents(ctx)
	for {
		doc, err := shards.Next()
		if err == iterator.Done {
			break
		}
		if err != nil {
			return 0, fmt.Errorf("Next: %w", err)
		}

		vTotal := doc.Data()["Count"]
		shardCount, ok := vTotal.(int64)
		if !ok {
			return 0, fmt.Errorf("firestore: invalid dataType %T, want int64", vTotal)
		}
		total += shardCount
	}
	return total, nil
}

solution_counters.go

PHP 

$result = 0;
$docCollection = $db->collection('samples/php/distributedCounters')->documents();
foreach ($docCollection as $doc) {
    $result += $doc->data()['Cnt'];
}
solution_sharded_counter_get.php

C# 

/// <summary>
/// Get total count across all shards.
/// </summary>
/// <param name="docRef">The document reference <see cref="DocumentReference"/></param>
/// <returns>The <see cref="int"/></returns>
private static async Task<int> GetCountAsync(DocumentReference docRef)
{
    var snapshotList = await docRef.Collection("shards").GetSnapshotAsync();
    return snapshotList.Sum(shard => shard.GetValue<int>("count"));
}
Program.cs

Ruby 

# project_id = "Your Google Cloud Project ID"
# collection_path = "shards"

require "google/cloud/firestore"

firestore = Google::Cloud::Firestore.new project_id: project_id

shards_ref = firestore.col_group collection_path

count = 0
shards_ref.get do |doc_ref|
  count += doc_ref[:count]
end

puts "Count value is #{count}."
distributed_counters.rb

Limitazioni

La soluzione descritta sopra è un modo scalabile per creare contatori condivisi in Firestore, ma è bene tenere presenti le seguenti limitazioni:

  • Conteggio shard: il numero di shard controlla le prestazioni del contatore distribuito. Con un numero insufficiente di shard, è possibile che alcune transazioni ripetano prima di avere esito positivo, con un conseguente rallentamento delle scritture. Con troppi frammenti, le letture diventano più lente e più costose. Puoi compensare le spese di lettura mantenendo il totale del contatore in un documento di aggregazione separato che viene aggiornato a una cadenza più lenta e facendo in modo che i client leggano da quel documento per ottenere il totale. Il compromesso è che i client dovranno attendere l'aggiornamento del documento di aggregazione, invece di calcolare il totale leggendo tutti gli shard subito dopo qualsiasi aggiornamento.
  • Costo: il costo della lettura di un valore del contatore aumenta in modo lineare con il numero di shard, perché deve essere caricata l'intera sottoraccolta degli shard.