Apache Solr vs Elasticsearch-feature

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简介: API Feature Solr 6.2.1 ElasticSearch 5.0 Format XML, CSV, JSON JSON HTTP REST API Bin...

API

Feature Solr 6.2.1 ElasticSearch 5.0
Format XML, CSV, JSON JSON
HTTP REST API
Binary API   SolrJ  TransportClient, Thrift (through a plugin)
JMX support  ES specific stats are exposed through the REST API
Official client libraries  Java Java, Groovy, PHP, Ruby, Perl, Python, .NET, Javascript Official list of clients
Community client libraries  PHP, Ruby, Perl, Scala, Python, .NET, Javascript, Go, Erlang, Clojure Clojure, Cold Fusion, Erlang, Go, Groovy, Haskell, Java, JavaScript, .NET, OCaml, Perl, PHP, Python, R, Ruby, Scala, Smalltalk, Vert.x Complete list
3rd-party product integration (open-source) Drupal, Magento, Django, ColdFusion, Wordpress, OpenCMS, Plone, Typo3, ez Publish, Symfony2, Riak (via Yokozuna) Drupal, Django, Symfony2, Wordpress, CouchBase
3rd-party product integration (commercial) DataStax Enterprise Search, Cloudera Search, Hortonworks Data Platform, MapR SearchBlox, Hortonworks Data Platform, MapR etc Complete list
Output JSON, XML, PHP, Python, Ruby, CSV, Velocity, XSLT, native Java JSON, XML/HTML (via plugin)

Infrastructure

Feature Solr 6.2.1 ElasticSearch 5.0
Master-slave replication  Only in non-SolrCloud. In SolrCloud, behaves identically to ES.  Not an issue because shards are replicated across nodes.
Integrated snapshot and restore Filesystem Filesystem, AWS Cloud Plugin for S3 repositories, HDFS Plugin for Hadoop environments, Azure Cloud Plugin for Azure storage repositories

Indexing

Feature Solr 6.2.1 ElasticSearch 5.0
Data Import DataImportHandler - JDBC, CSV, XML, Tika, URL, Flat File [DEPRECATED in 2.x] Rivers modules - ActiveMQ, Amazon SQS, CouchDB, Dropbox, DynamoDB, FileSystem, Git, GitHub, Hazelcast, JDBC, JMS, Kafka, LDAP, MongoDB, neo4j, OAI, RabbitMQ, Redis, RSS, Sofa, Solr, St9, Subversion, Twitter, Wikipedia
ID field for updates and deduplication
DocValues 
Partial Doc Updates   with stored fields  with _source field
Custom Analyzers and Tokenizers 
Per-field analyzer chain 
Per-doc/query analyzer chain 
Index-time synonyms   Supports Solr and Wordnet synonym format
Query-time synonyms   especially via hon-lucene-synonyms  Technically, yes, but practically no because multi-word/phrase query-time synonyms are not supported. See ES docs and hon-lucene-synonyms blog for nuances.
Multiple indexes 
Near-Realtime Search/Indexing 
Complex documents 
Schemaless   4.4+
Multiple document types per schema   One set of fields per schema, one schema per core
Online schema changes   Schemaless mode or via dynamic fields.  Only backward-compatible changes.
Apache Tika integration 
Dynamic fields 
Field copying   via multi-fields
Hash-based deduplication   Murmur plugin or ER plugin

Searching

Feature Solr 6.2.1 ElasticSearch 5.0
Lucene Query parsing 
Structured Query DSL   Need to programmatically create queries if going beyond Lucene query syntax.
Span queries   via SOLR-2703
Spatial/geo search 
Multi-point spatial search 
Faceting   Top N term accuracy can be controlled with shard_size
Advanced Faceting   New JSON faceting API as of Solr 5.x  blog post
Geo-distance Faceting
Pivot Facets 
More Like This
Boosting by functions 
Boosting using scripting languages 
Push Queries  JIRA issue  Percolation. Distributed percolation supported in 1.0
Field collapsing/Results grouping 
Query Re-Ranking   via Rescoring or a plugin
Index-based Spellcheck   Phrase Suggester
Wordlist-based Spellcheck 
Autocomplete
Query elevation  workaround
Intra-index joins   via parent-child query  via has_children and top_children queries
Inter-index joins   Joined index has to be single-shard and replicated across all nodes.
Resultset Scrolling   New to 4.7.0  via scan search type
Filter queries   also supports filtering by native scripts
Filter execution order   local params and cache property
Alternative QueryParsers   DisMax, eDisMax  query_string, dis_max, match, multi_match etc
Negative boosting   but awkward. Involves positively boosting the inverse set of negatively-boosted documents.
Search across multiple indexes  it can search across multiple compatible collections
Result highlighting
Custom Similarity 
Searcher warming on index reload   Warmers API
Term Vectors API

Customizability

Feature Solr 6.2.1 ElasticSearch 5.0
Pluggable API endpoints 
Pluggable search workflow   via SearchComponents
Pluggable update workflow   via UpdateRequestProcessor
Pluggable Analyzers/Tokenizers
Pluggable QueryParsers 
Pluggable Field Types
Pluggable Function queries
Pluggable scoring scripts
Pluggable hashing 
Pluggable webapps   [site plugins DEPRECATED in 5.x] blog post
Automated plugin installation   Installable from GitHub, maven, sonatype or elasticsearch.org

Distributed

Feature Solr 6.2.1 ElasticSearch 5.0
Self-contained cluster   Depends on separate ZooKeeper server  Only Elasticsearch nodes
Automatic node discovery  ZooKeeper  internal Zen Discovery or ZooKeeper
Partition tolerance  The partition without a ZooKeeper quorum will stop accepting indexing requests or cluster state changes, while the partition with a quorum continues to function.  Partitioned clusters can diverge unless discovery.zen.minimum_master_nodes set to at least N/2+1, where N is the size of the cluster. If configured correctly, the partition without a quorum will stop operating, while the other continues to work. See this
Automatic failover  If all nodes storing a shard and its replicas fail, client requests will fail, unless requests are made with the shards.tolerant=true parameter, in which case partial results are retuned from the available shards.
Automatic leader election
Shard replication
Sharding 
Automatic shard rebalancing   it can be machine, rack, availability zone, and/or data center aware. Arbitrary tags can be assigned to nodes and it can be configured to not assign the same shard and its replicates on a node with the same tags.
Change # of shards  Shards can be added (when using implicit routing) or split (when using compositeId). Cannot be lowered. Replicas can be increased anytime.  each index has 5 shards by default. Number of primary shards cannot be changed once the index is created. Replicas can be increased anytime.
Shard splitting
Relocate shards and replicas   can be done by creating a shard replicate on the desired node and then removing the shard from the source node  can move shards and replicas to any node in the cluster on demand
Control shard routing   shards or _route_ parameter  routing parameter
Pluggable shard/replica assignment  Rule-based replica assignment  Probabilistic shard balancing with Tempest plugin
Consistency Indexing requests are synchronous with replication. A indexing request won't return until all replicas respond. No check for downed replicas. They will catch up when they recover. When new replicas are added, they won't start accepting and responding to requests until they are finished replicating the index. Replication between nodes is synchronous by default, thus ES is consistent by default, but it can be set to asynchronous on a per document indexing basis. Index writes can be configured to fail is there are not sufficient active shard replicas. The default is quorum, but all or one are also available.

Misc

Feature Solr 6.2.1 ElasticSearch 5.0
Web Admin interface  bundled with Solr  Marvel or Kibana apps
Visualisation Banana (Port of Kibana) Kibana
Hosting providers WebSolrSearchifyHosted-SolrIndexDepotOpenSolrgotosolr FoundObjectRocketbonsai.ioIndexistoqbox.ioIndexDepotCompose.io


Thoughts...

I'm embedding my answer to this "Solr-vs-Elasticsearch" Quora question verbatim here:

1. Elasticsearch was born in the age of REST APIs. If you love REST APIs, you'll probably feel more at home with ES from the get-go. I don't actually think it's 'cleaner' or 'easier to use', but just that it is more aligned with web 2.0 developers' mindsets.

2. Elasticsearch's Query DSL syntax is really flexible and it's pretty easy to write complex queries with it, though it does border on being verbose. Solr doesn't have an equivalent, last I checked. Having said that, I've never found Solr's query syntax wanting, and I've always been able to easily write a custom SearchComponent if needed (more on this later).

3. I find Elasticsearch's documentation to be pretty awful. It doesn't help that some examples in the documentation are written in YAML and others in JSON. I wrote a ES code parser once to auto-generate documentation from Elasticsearch's source and found a number of discrepancies between code and what's documented on the website, not to mention a number of undocumented/alternative ways to specify the same config key. 

By contrast, I've found Solr to be consistent and really well-documented. I've found pretty much everything I've wanted to know about querying and updating indices without having to dig into code much. Solr's schema.xml and solrconfig.xml are *extensively* documented with most if not all commonly used configurations. 

4. Whilst what Rick says about ES being mostly ready to go out-of-box is true, I think that is also a possible problem with ES. Many users don't take the time to do the most simple config (e.g. type mapping) of ES because it 'just works' in dev, and end up running into issues in production. 

And once you do have to do config, then I personally prefer Solr's config system over ES'. Long JSON config files can get overwhelming because of the JSON's lack of support for comments. Yes you can use YAML, but it's annoying and confusing to go back and forth between YAML and JSON. 

5. If your own app works/thinks in JSON, then without a doubt go for ES because ES thinks in JSON too. Solr merely supports it as an afterthought. ES has a number of nice JSON-related features such as parent-child and nested docs that makes it a very natural fit. Parent-child joins are awkward in Solr, and I don't think there's a Solr equivalent for ES Inner hits.

6. ES doesn't require ZooKeeper for it's 'elastic' features which is nice coz I personally find ZK unpleasant, but as a result, ES does have issues with split-brain scenarios though (google 'elasticsearch split-brain' or see this: Elasticsearch Resiliency Status).

7. Overall from working with clients as a Solr/Elasticsearch consultant, I've found that developer preferences tend to end up along language party lines: if you're a Java/c# developer, you'll be pretty happy with Solr. If you live in Javascript or Ruby, you'll probably love Elasticsearch. If you're on Python or PHP, you'll probably be fine with either. 

Something to add about this: ES doesn't have a very elegant Java API IMHO (you'll basically end up using REST because it's less painful), whereas Solrj is very satisfactory and more efficient than Solr's REST API. If you're primarily a Java dev team, do take this into consideration for your sanity. There's no scenario in which constructing JSON in Java is fun/simple, whereas in Python its absolutely pain-free, and believe me, if you have a non-trivial app, your ES json query strings will be works of art. 

8. ES doesn't have in-built support for pluggable 'SearchComponents', to use Solr's terminology. SearchComponents are (for me) a pretty indispensable part of Solr for anyone who needs to do anything customized and in-depth with search queries. 

Yes of course, in ES you can just implement your own RestHandler, but that's just not the same as being able to plug-into and rewire the way search queries are handled and parsed. 

9. Whichever way you go, I highly suggest you choose a client library which is as 'close to the metal' as you can get. Both ES and Solr have *really* simple search and updating search APIs. If a client library introduces an additional DSL layer in attempt to 'simplify', I suggest you think long and hard about using it, as it's likely to complicate matters in the long-run, and make debugging and asking for help on SO more problematic. 

In particular, if you're using Rails + Solr, consider using rsolr/rsolr
instead of sunspot/sunspot if you can help it. ActiveRecord is complex code and sufficiently magical. The last thing you want is more magic on top of that. 

---

To conclude, ES and Solr have more or less feature-parity and from a feature standpoint, there's rarely one reason to go one way or the other (unless your app lives/breathes JSON). Performance-wise, they are also likely to be quite similar (I'm sure there are exceptions to the rule. ES' relatively new autocomplete implementation, for example, is a pretty dramatic departure from previous Lucene/Solr implementations, and I suspect it produces faster responses at scale).

ES does offer less friction from the get-go and you feel like you have something working much quicker, but I find this to be illusory. Any time gained in this stage is lost when figuring out how to properly configure ES because of poor documentation - an inevitablity when you have a non-trivial application. 

Solr encourages you to understand a little more about what you're doing, and the chance of you shooting yourself in the foot is somewhat lower, mainly because you're forced to read and modify the 2 well-documented XML config files in order to have a working search app.

---

EDIT on Nov 2015: 

ES has been gradually distinguishing itself from Solr when it comes to data analytics. I think it's fair to attribute this to the immense traction of the ELK stack in the logging, monitoring and analytic space. My guess is that this is where Elastic (the company) gets the majority of its revenue, so it makes perfect sense that ES (the product) reflects this.

We see this manifesting primarily in the form of aggregations, which is a more flexible and nuanced replacement for facets. Read more about aggregations here: Migrating to aggregations

Aggregations have been out for a while now (since 1.4), but with the recently released ES 2.0 comes pipeline aggregations, which let you compute aggregations such as derivatives, moving averages, and series arithmetic on the results of other aggregations. Very cool stuff, and Solr simply doesn't have an equivalent. More on pipeline aggregations here: Out of this world aggregations

If you're currently using or contemplating using Solr in an analytics app, it is worth your while to look into ES aggregation features to see if you need any of it.


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ElasticSearch 入门精讲
ElasticSearch是一个开源的、基于Lucene的、分布式、高扩展、高实时的搜索与数据分析引擎。根据DB-Engines的排名显示,Elasticsearch是最受欢迎的企业搜索引擎,其次是Apache Solr(也是基于Lucene)。 ElasticSearch的实现原理主要分为以下几个步骤: 用户将数据提交到Elastic Search 数据库中 通过分词控制器去将对应的语句分词,将其权重和分词结果一并存入数据 当用户搜索数据时候,再根据权重将结果排名、打分 将返回结果呈现给用户 Elasticsearch可以用于搜索各种文档。它提供可扩展的搜索,具有接近实时的搜索,并支持多租户。
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