Conceptos básicos. Seminario web 2: Su primera aplicación MongoDB

1. Back to Basics 2016: Webinar 2 Su primera aplicación MongoDB Rubén Terceño Senior Solutions Architect, EMEA ruben@mongodb.com @rubenTerceno

2. ¡Bienvenidos!

3. Agenda del Curso Date Time Webinar 25-Mayo-2016 16:00 CEST Introducción a NoSQL 7-Junio-2016 16:00 CEST Su primera aplicación MongoDB 21-Junio-2016 16:00 CEST Diseño de esquema orientado a documentos 07-Julio-2016 16:00 CEST Indexación avanzada, índices de texto y geoespaciales 19-Julio-2016 16:00 CEST Introducción al Aggregation Framework 28-Julio-2016 16:00 CEST Despliegue en producción

4. Resumen del webinar 1 • ¿Porqué existe NoSQL? • Tipos de bases de datos NoSQL • Características clave de MongoDB • Tolerancia a fallos y persistencia de datos en MongoDB • Escalabilidad en MongoDB

5. Agenda • Vocabulario básico • Instalación de MongoDB • Construcción de una aplicación básica • Creación de índices • Optimización de queries con explain()

6. Concepts Relational MongoDB Database Database / Base de datos Table Collection / Colección Row Document / Documento Index Index / Índice Join Lookup Foreign Key Reference / Referencia Multi-table transaction Single document transaction

7. Installing MongoDB $ curl -O https://fastdl.mongodb.org/osx/mongodb-osx-x86_64-3.2.6.tgz $ tar xzvf mongodb-osx-x86_64-3.2.6.tgz x mongodb-osx-x86_64-3.2.6/README x mongodb-osx-x86_64-3.2.6/THIRD-PARTY-NOTICES x mongodb-osx-x86_64-3.2.6/MPL-2 x mongodb-osx-x86_64-3.2.6/GNU-AGPL-3.0 x mongodb-osx-x86_64-3.2.6/bin/mongodump x mongodb-osx-x86_64-3.2.6/bin/mongorestore x mongodb-osx-x86_64-3.2.6/bin/mongoexport x mongodb-osx-x86_64-3.2.6/bin/mongoimport x mongodb-osx-x86_64-3.2.6/bin/mongostat x mongodb-osx-x86_64-3.2.6/bin/mongotop x mongodb-osx-x86_64-3.2.6/bin/bsondump x mongodb-osx-x86_64-3.2.6/bin/mongofiles x mongodb-osx-x86_64-3.2.6/bin/mongooplog x mongodb-osx-x86_64-3.2.6/bin/mongoperf x mongodb-osx-x86_64-3.2.6/bin/mongosniff x mongodb-osx-x86_64-3.2.6/bin/mongod x mongodb-osx-x86_64-3.2.6/bin/mongos x mongodb-osx-x86_64-3.2.6/bin/mongo $ mkdir /data/CB

8. Running Mongod Rubens-MacBook-Pro:mongodb-osx-x86_64-3.2.6 Ruben$ ./bin/mongod -dbpath /data/CB 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] MongoDB starting : pid=21526 port=27017 dbpath=/data/CB 64-bit host=Rubens-MacBook-Pro.local 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] db version v3.2.6 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] git version: 05552b562c7a0b3143a729aaa0838e558dc49b25 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] allocator: system 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] modules: none 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] build environment: 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] distarch: x86_64 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] target_arch: x86_64 2016-06-05T14:44:49.564+0200 I CONTROL [initandlisten] options: { storage: { dbPath: "/data/CB" } } 2016-06-05T14:44:49.565+0200 I STORAGE [initandlisten] wiredtiger_open config: create,cache_size=9G,session_max=20000,eviction=(threads_max=4),config_base=false,statistics=(fast) ,log=(enabled=true,archive=true,path=journal,compressor=snappy),file_manager=(close_idle_time=10000 0),checkpoint=(wait=60,log_size=2GB),statistics_log=(wait=0), 2016-06-05T14:44:50.316+0200 I NETWORK [HostnameCanonicalizationWorker] Starting hostname canonicalization worker 2016-06-05T14:44:50.316+0200 I FTDC [initandlisten] Initializing full-time diagnostic data capture with directory '/data/CB/diagnostic.data' 2016-06-05T14:44:50.511+0200 I NETWORK [initandlisten] waiting for connections on port 27017

9. Connecting Via The Shell Ruben$ ./mongodb-osx-x86_64-3.2.6/bin/mongo MongoDB shell version: 3.2.6 connecting to: test > show databases local 0.000GB

10. Inserting your first record > use CB switched to db CB > show databases local 0.000GB > db.demo.insert({"nombre": "Rubén", "altura": 178}) WriteResult({ "nInserted" : 1 }) > show databases CB 0.000GB local 0.000GB > show collections demo > db.demo.findOne() { "_id" : ObjectId("575420c87a75dbb02b4f45cb"), "nombre" : "Rubén", "altura" : 178 } >

11. Object ID 575420c87a75dbb02b4f45cb TS------ID----PID-Count-

12. A Simple Blog Application • Lets create a blogging application with: • Articles • Users • Comments

13. 15 Typical Entity Relation Diagram

14. In MongoDB we build organically > use blog switched to db blog > db.users.insert( { "username" : ”rterceno", "password" : "top secret", "lang" : "ES" } ) WriteResult({ "nInserted" : 1 }) > db.users.findOne() { "_id" : ObjectId("573afff65ee4be80385332a7"), "username" : "rterceno", "password" : "top secret", "lang" : "ES" }

15. How do we do this in a program? package com.mongodb.rterceno; import com.mongodb.MongoClient; import com.mongodb.client.MongoCollection; import com.mongodb.client.MongoDatabase; import org.bson.Document; public class Demo { public static void main(String[] args) { MongoClient client = new MongoClient(); MongoDatabase blog = client.getDatabase("blog"); MongoCollection<Document> users = blog.getCollection("users"); Document user = new Document("user","rterceno") .append("lang", "ES"); users.insertOne(user); } }

16. Next up Articles import [+] import static java.util.Arrays.asList; public class Demo { public static void main(String[] args) { MongoClient client = new MongoClient(); MongoDatabase blog = client.getDatabase("blog"); MongoCollection<Document> articulos = blog.getCollection("articles"); String myName = "rterceno"; Document articulo = new Document("título","My article") .append("autor", myName) .append("texto", "Lorem ipsum dolor sit amet, […] commodo consequat.") .append("tags", asList("demo","español","MongoDB")); articulos.insertOne(articulo); } }

17. Create a new type of article public class Demo { static DateFormat format = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'" , Locale.ENGLISH); public static void main(String[] args) { MongoClient client = new MongoClient(); MongoDatabase blog = client.getDatabase("blog"); MongoCollection<Document> articulos = blog.getCollection("articles"); String myName = "rterceno"; Document articulo = new Document("título","My article") .append("autor", myName) .append("texto", "Lorem ipsum dolor sit amet […] commodo consequat.") .append("tags", asList("demo", "español", "MongoDB")) .append("fecha", new Date()); articulos.insertOne(articulo); } }

18. Make a lot of articles public class Demo { static DateFormat format = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'" , Locale.ENGLISH); public static void main(String[] args) { MongoClient client = new MongoClient(); MongoDatabase blog = client.getDatabase("blog"); MongoCollection<Document> articulos = blog.getCollection("articles"); List<Document> list = new ArrayList<Document>(); for (int i=0; i<1000000; i++){ Document articulo = new Document("título”, "Mi artículo " + i) .append("autor", "USER_" + Math.round(Math.random()*10000)) .append("texto", "Lorem ipsum dolor sit amet, […] ex ea commodo consequat.") .append("tags", asList("demo", "español", "MongoDB")) .append("fecha", new Date()); list.add(articulo); if (i % 5000 == 4999){ articulos.insertMany(list); list.clear(); } } } }

19. Find a User > db.users.findOne() { "_id" : ObjectId("5742da5bb26a88bc00e941ac"), "username" : "FLFZQLSRWZ_0", "lang" : "EN", "password" : "vTlILbGWLt", "karma" : 448 } > db.users.find( { "username" : "VHXDAUUFJW_45" } ).pretty() { "_id" : ObjectId("5742da5bb26a88bc00e94206"), "username" : "VHXDAUUFJW_45", "lang" : "EN", "password" : "GmRLnCeKVp", "karma" : 284 }

20. Find Users with high Karma > db.users.find( { "karma" : { $gte : 450 }} ).pretty() { "_id" : ObjectId("5742da5bb26a88bc00e941ae"), "username" : "JALLFRKBWD_1", "lang" : "EN", "password" : "bCSKSKvUeb", "karma" : 487 } { "_id" : ObjectId("5742da5bb26a88bc00e941e4"), "username" : "OTKWJJBNBU_28", "lang" : "EN", "password" : "HAWpiATCBN", "karma" : 473 } {

21. Using projection > db.users.find( { "karma" : { $gte : 450 }}, { "_id" : 0, username : 1, karma : 1 } ) { "username" : "JALLFRKBWD_1", "karma" : 487 } { "username" : "OTKWJJBNBU_28", "karma" : 473 } { "username" : "RVVHLKTWHU_31", "karma" : 493 } { "username" : "JBNESEOOEP_48", "karma" : 464 } { "username" : "VSTBDZLKQQ_51", "karma" : 487 } { "username" : "UKYDTQJCLO_61", "karma" : 493 } { "username" : "HZFZZMZHYB_106", "karma" : 493 } { "username" : "AAYLPJJNHO_113", "karma" : 455 } { "username" : "CXZZMHLBXE_128", "karma" : 460 } { "username" : "KKJXBACBVN_134", "karma" : 460 } { "username" : "PTNTIBGAJV_165", "karma" : 461 } { "username" : "PVLCQJIGDY_169", "karma" : 463 }

22. Using sort > db.users.find({"karma”: {$gte: 450}},{"_id”: 0, username: 1, karma: 1}).sort({"karma”: 1}) { "username" : "JALLFRKBWD_1", "karma" : 493 } { "username" : "OTKWJJBNBU_28", "karma" : 493 } { "username" : "RVVHLKTWHU_31", "karma" : 487 } { "username" : "JBNESEOOEP_48", "karma" : 474} { "username" : "VSTBDZLKQQ_51", "karma" : 473 } { "username" : "UKYDTQJCLO_61", "karma" : 468 } { "username" : "HZFZZMZHYB_106", "karma" : 464 } { "username" : "AAYLPJJNHO_113", "karma" : 461 } { "username" : "CXZZMHLBXE_128", "karma" : 461 } { "username" : "KKJXBACBVN_134", "karma" : 460 } { "username" : "PTNTIBGAJV_165", "karma" : 458 } { "username" : "PVLCQJIGDY_169", "karma" : 455 }

23. Article update: adding comments 1 > db.articles.find( { "_id" : 19 } ).pretty() { "_id" : 19, "body" : "nTzOofOcnHKkJxpjKAyqTTnKZMFzzkWFeXtBRuEKsctuGBgWIrEBrYdvFI VHJWaXLUTVUXblOZZgUqWu", "postdate" : ISODate("2016-05-23T12:02:46.830Z"), "author" : "ASWTOMMABN_19", "title" : "CPMaqHtAdRwLXhlUvsej" } > db.articles.update( { _id : 18 }, { $set : { comments : [] }} ) WriteResult({ "nMatched" : 1, "nUpserted" : 0, "nModified" : 1 })

24. Article update: adding comments 2 > db.articles.find( { _id :18 } ).pretty() { "_id" : 18, "body" : "KmwFSIMQGcIsRNTDBFPuclwcVJkoMcrIPwTiSZDYyatoKzeQiKvJ kiVSrndXqrALVIYZxGpaMjucgXUV", "postdate" : ISODate("2016-05- 23T16:04:39.497Z"), "author" : "USER_18", "title" : "wTLreIEyPfovEkBhJZZe", "comments" : [ ] } >

25. Article update: adding comments 3 > db.articles.update( { _id : 18 }, { $push : { comments : { username : ”USER_123456", comment : "Primer!" }}} ) WriteResult({ "nMatched" : 1, "nUpserted" : 0, "nModified" : 1 }) > db.articles.find( { _id :18 } ).pretty() { "_id" : 18, "body" : "KmwFSIMQGcIsRNTDBFPuclJkoMcrIPwTiSZDYyatoKzeQiKvJkiVSrndXqrALVIYZxGpaMjucgXUV", "postdate" : ISODate("2016-05-23T16:04:39.497Z"), "author" : "USER_18", "title" : "wTLreIEyPfovEkBhJZZe", "comments" : [ { "username" : "USER_123456", "comment" : ”Primer!" } ] }

26. Article delete > db.articles.remove( { "_id" : 25 } ) WriteResult({ "nRemoved" : 1 }) > db.articles.remove( { "_id" : 25 } ) WriteResult({ "nRemoved" : 0 }) > db.articles.remove( { "_id" : { $lte : 5 }} ) WriteResult({ "nRemoved" : 6 }) • Deletion leaves holes • Dropping a collection is cheaper than deleting a large collection element by element

27. Remember Users and Articles > db.users.findOne() { "_id" : ObjectId("57431c07b26a88bf060e10cb"), "username" : "USER_0", "lang" : "EN", "password" : "kGIxPxqKGJ", "karma" : 266 } > db.articles.findOne() { "_id" : 0, "body" : "hvJLnrrfZQurmtjPfUWbMhaQLZjsxHXbUycmJVZTeOZesTnZtojThrebRcUoiYwivjpwG", "postdate" : ISODate("2016-05-23T16:04:39.246Z"), "author" : "USER_0", "title" : "gpNIoPxpfTAxWjzAVoTJ" }

28. Find a User > db.users.find( { "username" : "USER_123456" } ).explain() { "queryPlanner" : { "plannerVersion" : 1, "namespace" : "blog.users", "indexFilterSet" : false, "parsedQuery" : { "username" : { "$eq" : ”USER_123456" } }, "winningPlan" : { "stage" : "COLLSCAN", "filter" : { "username" : { "$eq" : ”USER_123456" } }, "direction" : "forward" }, "rejectedPlans" : [ ] } "ok" : 1 }

29. Find a User – Execution Stats > db.users.find( {"username" : "USER_999999" } ).explain( "executionStats" ).executionStats { "executionSuccess" : true, "nReturned" : 1, "executionTimeMillis" : 433, "totalKeysExamined" : 0, "totalDocsExamined" : 1000000, "executionStages" : { "stage" : "COLLSCAN", "filter" : { "username" : { "$eq" : "USER_999999”} }, "nReturned" : 1, "executionTimeMillisEstimate" : 330, "works" : 1000002, "advanced" : 1, "needTime" : 1000000, "needYield" : 0, "saveState" : 7812, "restoreState" : 7812, "isEOF" : 1, "invalidates" : 0, "direction" : "forward", "docsExamined" : 1000000

30. We need an index > db.users.createIndex( { username : 1 } ) { "createdCollectionAutomatically" : false, "numIndexesBefore" : 1, "numIndexesAfter" : 2, "ok" : 1 }

31. Indexes Overview • Parameters • Background : Create an index in the background as opposed to locking the database • Unique : All keys in the collection must be unique. Duplicate key insertions will be rejected with an error. • Name : explicitly name an index. Otherwise the index name is selfgenerated from the index fields. • Deleting an Index • db.users.dropIndex({ “username” : 1 }) • Get All the Indexes on a collection • db.users.getIndexes()

32. Query Plan Execution Stages • COLLSCAN : for a collection scan • IXSCAN : for scanning index keys • FETCH : for retrieving documents • SHARD_MERGE : for merging results from shards

33. Add an Index > db.users.find( {"username" : "USER_999999”} ).explain("executionStats”).executionStats { "executionSuccess" : true, "nReturned" : 1, "executionTimeMillis" : 0, "totalKeysExamined" : 1, "totalDocsExamined" : 1, …

34. Execution Stage "executionStages" : { "stage" : "FETCH", "nReturned" : 1, "executionTimeMillisEstimate" : 0, "docsExamined" : 1,, "inputStage" : { "stage" : "IXSCAN", "nReturned" : 1, "executionTimeMillisEstimate" : 0, "keyPattern" : { "username" : 1}, "indexName" : "username_1", "indexVersion" : 1, "direction" : "forward", "indexBounds" : { "username" : [ "["USER_999999", "USER_999999"]”]}, "keysExamined" : 1, "seenInvalidated" : 0 } } }

35. Drivers and Frameworks

36. ¿Qué hemos aprendido? • Cómo crear una base de datos y una colección • Como insertar documentos • Cómo realizar búsquedas • Como hacer modificaciones de los documentos existentes • Cómo borrar documentos • Cómo comprobar la eficiencia de una operación • Cómo crear índices • Cómo averiguar los índices que se utilizan en una operación

37. Próximo Webinar Diseño de esquema orientado a documentos • 21 de Junio 2016 – 16:00 CEST, 11:00 ART, 9:00 • ¡Regístrese si aún no lo ha hecho! • Las bases de datos de documentos requieren un enfoque distinto con respecto a la organización de los datos. • ¡Sin normalización!  Creamos esquemas adaptados a nuestra aplicación • Optimizaremos dichos esquemas a los patrones de acceso. • Demostraremos que es fácil controlar estos esquemas. • Regístrese en : https://www.mongodb.com/webinars • Denos su opinión, por favor: back-to-basics@mongodb.com

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Conceptos básicos. Seminario web 2: Su primera aplicación MongoDB

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Conceptos básicos. Seminario web 2: Su primera aplicación MongoDB

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