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  • Users can choose and install Neo4j source and sink plugins.
  • Users should see Neo4j logo on plugin configuration page for better experience.
  • Users should get relevant information from the tool tip:
    • The tool tip should describe accurately what each field is used for.
  • Users should not have to specify any redundant configuration.
  • Users should get field level lineage for the source and sink that is being used.
  • Reference documentation should be updated to account for the changes.
  • The source code for Neo4j database plugin should be placed in repo under data-integrations.org.
  • The data pipeline using source and sink plugins should run on both mapreduce and spark engines.

Fraud detection use case

Source: Neo4j website

Traditional fraud prevention measures focus on discrete data points such as specific accounts, individuals, devices or IP addresses. However, today’s sophisticated fraudsters escape detection by forming fraud rings comprised of stolen and synthetic identities. To uncover such fraud rings, it is essential to look beyond individual data points to the connections that link them.

No fraud prevention measures are perfect, but by looking beyond individual data points to the connections that link them your efforts significantly improve. Neo4j uncovers difficult-to-detect patterns that far outstrip the power of a relational database.

Enterprise organizations use Neo4j to augment their existing fraud detection capabilities to combat a variety of financial crimes including first-party bank fraud, credit card fraud, ecommerce fraud, insurance fraud and money laundering – and all in real time.

User Storie

  • User should be able to install Neo4j specific database source and sink plugins from the Hub.
  • Users should have each tool tip accurately describe what each field does.
  • Users should get field level lineage information for the Neo4j source and sink.
  • Users should be able to setup a pipeline avoiding specifying redundant information.
  • Users should get updated reference document for Neo4j source and sink.
  • Users should be able to read all the DB types.

...

Here’s an example of simple Cypher Query:

Code Block
MATCH (n) RETURN n

Example of Neo4j data

Neo4j database contains information about Persons and Movies and relation between them.
For getting information what movies related with person 'Meg Ryan' can be used next CQL query:

Code Block
MATCH (person:Person {name: "Meg Ryan"})-[rel]-(movie) RETURN person, rel, movie

Result of this query will be next:

Graf viewText view

Image Added

"person"
"rel"
"movie"
{"name":"Meg Ryan","born":1961}
{"roles":["DeDe","Angelica Graynamore","Patricia Graynamore"]}
{"title":"Joe Versus the Volcano",
"tagline":"A story of love, lava andburning desire.",
"released":1990}
{"name":"Meg Ryan","born":1961}
{"roles":["Sally Albright"]}
{"title":"When Harry Met Sally",
"tagline":"Can two friends sleep toget her and still love each other in the morning?",
"released":1998}
{"name":"Meg Ryan","born":1961}
{"roles":["Kathleen Kelly"]}
{"title":"You've Got Mail",
"tagline":"At odds in life... in love on-line.",
"released":1998}
{"name":"Meg Ryan","born":1961}
{"roles":["Carole"]}
{"title":"Top Gun",
"tagline":"I feel the need, the need for speed.",
"released":1986}
{"name":"Meg Ryan","born":1961}
{"roles":["Annie Reed"]}
{"title":"Sleepless in Seattle",
"tagline":"What if someone you never met, someone you never saw, someone you never
knew was the only someone for you?",
"released":1993}

Other case using CQL for getting data from Neo4j:

Code Block
MATCH (person:Person {name: "Meg Ryan"})-[rel]-(movie) RETURN person.name AS name, rel.roles AS roles, movie.title AS title

Result of this query will be next:

Text view
nameroles
title
"Meg Ryan"["DeDe", "Angelica Graynamore", "Patricia Graynamore"]"Joe Versus the Volcano"
"Meg Ryan"["Sally Albright"]"When Harry Met Sally"
"Meg Ryan"["Kathleen Kelly"]"You've Got Mail"
"Meg Ryan"["Carole"]"Top Gun"
"Meg Ryan"["Annie Reed"]"Sleepless in Seattle"

Source Splitter

The proposal is to add "Splits Number" Source configuration property, which allows specifying the desired number of splits to divide the query into when reading from Neo4j. 
Fewer splits may be created if the query cannot be divided into the desired number of splits.
Also, we can use '0' as the default value for this configuration property and determine the number of splits according to the number of map tasks (controlled by the "mapreduce.job.maps" property):

Code Block
public List<InputSplit> getSplits(JobContext job) throws IOException {
 
    ...
 
    int targetNumTasks = job.getConfiguration().getInt(MRJobConfig.NUM_MAPS, 1);
     
    ...

'MATCH ... RETURN COUNT(*)' CQL query can be used in order to get a total number of documents, that will be divided between splits using 'SKIP' and 'LIMIT'
Example:

  • Input query

    Code Block
    MATCH (person:Person) RETURN person
  • Order By

    Code Block
    person.born

In this case each split will be run next query

Code Block
MATCH (person:Person) RETURN person ORDER BY person.born SKIP x LIMIT y

where 'x' and 'y' determined for each split based on 'Splits Number' and total counts of records.


Source Properties

SectionUser Facing NameWidget TypeDescriptionConstraints
GeneralLabeltextboxLabel for UI.

Reference NametextboxUniquely identified name for lineage.Required

Neo4j Host
textboxNeo4j database host.Required

Neo4j Portnumbertextbox
Neo4j database port.Required

Input Querytextbox

The query to use to import data from the Neo4j database.
Query example: 'MATCH (n:Label) RETURN n.property_1, n.property_2'.

Required
CredentialsUsernametextboxUser identity for connecting to the Neo4j.Required

PasswordpasswordPassword to use to connect to the Neo4j.Required
AdvancedSplits NumbernumberThe number of splits to generate. If set to one, the orderBy is not needed.

Order Bytextbox

Field Name which will be used for ordering during splits generation. This is required unless numSplits is set to one.


Source Data Types Mapping

Neo4j Data TypesCDAP Schema Data Types
nullnull
Listarray
Maprecord
Booleanboolean
Integerlong
Floatdouble
Stringstring
ByteArraybytes
Datedate
Timetime-micros
LocalTimetime-micros
DateTimetimestamp-micros
LocalDateTimetimestamp-micros

Node

https://neo4j.com/docs/cypher-manual/3.5/syntax/values/#structural-types

record

Schema example:

Code Block
{"name": "n", "type": {
	"type": "record", "name": "n", "fields": [
		{"name": "born", "type": "long"}, 
		{"name": "name", "type": "string"}, 
		{"name": "_id", "type": "long"}, 
		{"name": "_labels", "type": {"type": "array", "items": "string"}}
	]
}}

Relationship

https://neo4j.com/docs/cypher-manual/3.5/syntax/values/#structural-types

record

Schema example:

Code Block
{"name": "r", "type": {
    "type": "record", "name": "r", "fields": [
        {"name": "_startId", "type": "long"},
        {"name": "roles", "type": {"type": "array", "items": "string"}},
        {"name": "_type", "type": "string"},
        {"name": "_endId", "type": "long"},
        {"name": "_id", "type": "long"}
    ]
}}

Duration

A Duration represents a temporal amount, capturing the difference in time between two instants, and can be negative.
https://neo4j.com/docs/cypher-manual/3.5/syntax/temporal/#cypher-temporal-durations

record

Schema example:

Code Block
{
  "type": "record",
  "name": "duration",
  "fields": [
    {"name": "duration", "type": "string"},
    {"name": "seconds", "type": "long"},
    {"name": "months", "type": "long"},
    {"name": "days", "type": "long"},
    {"name": "nanoseconds", "type": "int"}
  ]
}

Point

https://neo4j.com/docs/cypher-manual/3.5/syntax/spatial/

record

Schema example:
point 2D

Code Block
{
  "type": "record",
  "name": "point_2d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "srid", "type": "int"}
  ]
}

point 3D

Code Block
{
  "type": "record",
  "name": "point_3d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "z", "type": "double"},
    {"name": "srid", "type": "int"}
  ]
}

geo point 2D

Code Block
{
  "type": "record",
  "name": "geo_2d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "latitude", "type": "double"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "srid", "type": "int"},
    {"name": "longitude", "type": "double"}
  ]
}

geo point 3D

Code Block
{
  "type": "record",
  "name": "geo_3d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "latitude", "type": "double"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "z", "type": "double"},
    {"name": "srid", "type": "int"},
    {"name": "longitude", "type": "double"},
    {"name": "height", "type": "double"}
  ]
}

Path

https://neo4j.com/docs/cypher-manual/3.5/syntax/values/#structural-types


Sink Properties

SectionUser Facing NameWidget TypeDescriptionConstraints
GeneralLabeltextboxLabel for UI.

Reference NametextboxUniquely identified name for lineage.Required

Neo4j HosttextboxNeo4j database host.Required

Neo4j Portnumbertextbox
Neo4j database port.Required

Output Querytextbox

The query to use to export data to the Neo4j database.
Query example: 'CREATE (n:<label_

field>l {

field> $(property_1, property_2

}

))' or
'CREATE (n:<label_field> $(*))'

.


Required
CredentialsUsernametextboxUser identity for connecting to the Neo4j.Required

PasswordpasswordPassword to use to connect to the Neo4j.Required

Output query additionl information

Output query is based on CQL syntax, but using CQL query with CDAP has several problem:

  • neo4j-jdbc-driver can process property values only if it primitive types or arrays thereof.
  • difficult to relate the output data to CQL query.

To solve these problems, the following solution was proposed:
Using next structure $(...) for identify place where properties will be inserted.
Example of using $(...):
List of output fields: ["name", "age", "profesion", "company", "rating", "position"]

Output queryExpected results
CREATE (n:Node $(*))Will be created node with label Node and properties ["name", "age", "profesion", "company", "rating", "position"]
CREATE (p:Person $(name, age, profesion)), (c:Company $(company, rating))Will be created node with label Person and properties ["name", "age", "profesion"]
Will be created node with label Companyand properties ["company", "rating"]
CREATE (p:Person $(name, profesion))-[r:WorkOn $(position)]->(c:Company $(company))Will be created node with label Person and properties ["name", "profesion"]
Will be created relation with type WorkOn and properties ["position"]
Will be created node with label Companyand properties ["company"]

Sink Data Types Mapping

CDAP Schema Data TypesNeo4j Data Types
nullnull
arrayList
booleanBoolean
longInteger
doubleFloat
stringString
bytesByteArray
dateDate
time-microsTime
timestamp-microsDateTime

record

Code Block
{
  "type": "record",
  "name": "duration",
  "fields": [
    {"name": "duration", "type": "string"},
    {"name": "seconds", "type": "long"},
    {"name": "months", "type": "long"},
    {"name": "days", "type": "long"},
    {"name": "nanoseconds", "type": "int"}
  ]
}
Duration

record
point 2D

Code Block
Point

Approach

...

{
  "type": "record",
  "name": "point_2d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "srid", "type": "int"}
  ]
}

point 3D

Code Block
{
  "type": "record",
  "name": "point_3d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "z", "type": "double"},
    {"name": "srid", "type": "int"}
  ]
}

geo point 2D

Code Block
{
  "type": "record",
  "name": "geo_2d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "latitude", "type": "double"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "srid", "type": "int"},
    {"name": "longitude", "type": "double"}
  ]
}

geo point 3D

Code Block
{
  "type": "record",
  "name": "geo_3d",
  "fields": [
    {"name": "crs", "type": "string"},
    {"name": "latitude", "type": "double"},
    {"name": "x", "type": "double"},
    {"name": "y", "type": "double"},
    {"name": "z", "type": "double"},
    {"name": "srid", "type": "int"},
    {"name": "longitude", "type": "double"},
    {"name": "height", "type": "double"}
  ]
}
Point

Approach

Create a module neo4j-plugin in database-plugins project, reuse existing database-plugins code if possible. Add Neo4j-specific properties to configuration, add support for Neo4j-specific data types. Update UI widgets JSON definitions.

Pipeline Samples

Please attach one or more sample pipeline(s) and associated data. 

...