Simulator System

Simulator is a functional tool that allows handling of different transports and their content based on predefined criteria and outputting expected results based on the situation being modeled

License

License

GroupId

GroupId

com.tacitknowledge
ArtifactId

ArtifactId

simulator
Last Version

Last Version

1.1
Release Date

Release Date

Type

Type

pom
Description

Description

Simulator System
Simulator is a functional tool that allows handling of different transports and their content based on predefined criteria and outputting expected results based on the situation being modeled
Project URL

Project URL

https://github.com/tacitknowledge/simulator
Project Organization

Project Organization

Tacit Knowledge
Source Code Management

Source Code Management

https://github.com/tacitknowledge/simulator

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simulator-1.1.pom 2 KB
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How to add to project

<!-- https://jarcasting.com/artifacts/com.tacitknowledge/simulator/ -->
<dependency>
    <groupId>com.tacitknowledge</groupId>
    <artifactId>simulator</artifactId>
    <version>1.1</version>
    <type>pom</type>
</dependency>
// https://jarcasting.com/artifacts/com.tacitknowledge/simulator/
implementation 'com.tacitknowledge:simulator:1.1'
// https://jarcasting.com/artifacts/com.tacitknowledge/simulator/
implementation ("com.tacitknowledge:simulator:1.1")
'com.tacitknowledge:simulator:pom:1.1'
<dependency org="com.tacitknowledge" name="simulator" rev="1.1">
  <artifact name="simulator" type="pom" />
</dependency>
@Grapes(
@Grab(group='com.tacitknowledge', module='simulator', version='1.1')
)
libraryDependencies += "com.tacitknowledge" % "simulator" % "1.1"
[com.tacitknowledge/simulator "1.1"]

Dependencies

There are no dependencies for this project. It is a standalone project that does not depend on any other jars.

Project Modules

  • simulator-core
  • test-system

Simulator

##Overview Simulator is a functional tool that allows handling of different transports and their content based on predefined criteria and outputting expected results based on the situation being modeled. This tool may help simulate the behavior of a third party service like paypal or cybersource and from which depends the functionality of a given application, thus Simulator may help test it.

In order to simulate a third party service you have to define the inbound and outbound transport protocol for that service. Also it is possible to use a scripting language to execute conditionally certain operations over incoming data and to determine what data will be presented to output. In below sections are presented more details pertaining to inbound/outbound protocol configuration and scripting possibilities with examples.

How To Start Simulator from source

  1. cd to simulator installation folder in a console
  2. mvn clean install
  3. cd ./simulator-core
  4. java -DsystemsDirectory=[configuration folder path] -jar ./target/simulator-core.one-jar.jar
  • [configuration folder path] should be the path to the systems folder, that is described below in Configuration Folder Structure section.

Configuration Folder Structure

Configuration folder has one or more system folders. The notion of system is just for grouping of conversations. One ore more conversations are grouped in one system. All systems' folders are grouped in one folder. In the example presented below is present one folder systems, that contains all configured systems, in the below example is present only one system named system1. System1 has following conversations: fileConversation, httpConversation, jmsConversation, restConversation, soapConversation. Every conversation has required files: inbound.properties, outbound.properties and at least one scenario file. This systems folder should be indicated when Simulator application is started.

Below is presented an example of a configuration folder structure:

systems
`-- system1
    |-- fileConversation
    |   |-- inbound.properties
    |   |-- outbound.properties
    |   `-- scenario1.scn
    |-- httpConversation
    |   |-- inbound.properties
    |   |-- outbound.properties
    |   `-- scenario1.scn
    |-- jmsConversation
    |   |-- inbound.properties
    |   |-- outbound.properties
    |   `-- scenario1.scn
    |-- restConversation
    |   |-- inbound.properties
    |   |-- outbound.properties
    |   `-- scenario1.scn
    `-- soapConversation
        |-- inbound.properties
        |-- outbound.properties
        `-- scenario1.scn

As it may be seen from folder structure every conversation has three types of config files: inbound.properties, outbound.properties and scenario files like scenario1.scn, scenario2.scn, etc. Inbound.properties file contains configuration for inbound communication protocol/transport and format of the incoming data. Outbound.properties contains configuration for outbound communication protocol/transport and format of the outgoing data. Scenario files contain some instructions for execution of certain operations over incoming data in case of certain conditions and also the output data is indicated.

Example of inbound.properties is presented below:

type=file

directoryName=input
fileName=input.yaml
fileExtension=
regexFilter=
deleteFile=false
pollingInterval=1000

format=yaml

yamlContent=invoice

Example of scenario file also maybe found below:

[language]
javascript

[when]
true

[execute]
invoice;

Here JavaScript language is used. This script will always be executed and this script just will output "invoice" variable. Any BSF-compatible scripting language is supported.

Conversation Required Configurations

For every conversation it is necessary to have configured inbound transport, inbound format, outbound transport, outbound format and at least one scenario file, respectively there should be present at least following files:

  • inbound.properties,
  • outbound.properties,
  • scenario.scn

If these preconditions are not met, errors should be expected in log files.

Scenario File Structure

As mentioned above every conversation may have one or more scenario files. Every scenario file has a three blocks:

  • [language] this block mentions one of BSF-compatible scripting languages.
  • [when] condition for execution of the statements indicated in [execute] block
  • [execute] statements to be executed if conditions indicated in [when] block are true

Examples of for various configurations can be found in

simulator-core/src/main/resources/systems-sample/ConversationSystemExample

#Simulator Transports

Simulator supports a set of transports that may be configured for input and for output. In the case of http input transport, simulator will start jetty web server that will handle incoming requests. The same is true for rest transport. For other transport types like ftp or jsp, Simulator will try to access an existing ftp server as for input messages, as for output messages. Below are described supported transports:

File Transport

File Transport has following configuration parameters:

  • directoryName - The underlying directory path to poll from/write to. Required parameter.
  • fileName - Name of the file to listen for/write to. Optional parameter.
  • fileExtension - Extension of files the transport will only poll from. Optional parameter.
  • regexFilter - Only file name matching the provided regex will be polled. Optional parameter.
  • pollingInterval - Milliseconds before the next poll of the directory. Optional parameter.
  • deleteFile - Determines if file should be deleted after processing. Optional parameter.

The following snippet is an example of a file type transport configuration:

type=file

directoryName=input
fileName=input.xml
fileExtension=
regexFilter=
deleteFile=false
pollingInterval=1000

In the above file transport configuration the directory input will be scanned for file input.xml every 1000 milliseconds. Found files will not be deleted but anyway these will be moved inside .camel folder(automatically created inside input directory).

FTP Transport

FTP transport has the following config parameters:

  • host - Host name parameter is a required one.
  • port - Port parameter has default value of 21 for FTP and 22 for SFTP, thus it is an optional one.
  • binary - Binary parameter determines transfer mode. A true value corresponds to BINARY and false value corresponds to ASCII. Default value is false and this parameter is optional.
  • username - Username parameter indicates the name of the used for accessing remote ftp resources and is optional.
  • password - Password parameter is optional.

FTP transport extends file transport and all file transport configuration parameters are available here too.

Below is presented config example for FTP Transport:

type=ftp

host=127.0.0.1
port=2121
username=admin
password=admin

directoryName=input
fileName=input.xml
fileExtension=
regexFilter=
deleteFile=true
pollingInterval=10000

In the above ftp transport example is indicated 127.0.0.1 as host and 2121 as port. Username and password are set to admin/admin. input.xml file will be searched in input folder every 10000 milliseconds and after processing the file will be deleted.

SFTP Transport

SFTP Transport inherit configuration parameters from FTP Transport. The only difference is in type parameter which is sftp like in example below:

type=sftp

host=127.0.0.1
port=2121
username=admin
password=admin

directoryName=input
fileName=input.xml
fileExtension=
regexFilter=
deleteFile=true
pollingInterval=10000

##FTPS Transport

FTPS Transport will allow to transfer data over ftps protocol.

Most configuration parameters are inherited from FTP Transport. Type parameter is ftps as in the example below:

type=ftps

host=10.101.1.106
port=990
username=ociobanu
password=password

directoryName=/var/ftp/input/
fileName=input.xml
fileExtension=
regexFilter=
deleteFile=true
pollingInterval=10000

format=xml
validate=false

##Http Transport

Http Transport will allow to transport data on http protocol. Configuration parameters are presented below:

  • isSSL this parameter will indicate if communication will happen over ssl.
  • keyStoreFile path to file containing X.509 certificate
  • keyPassword the key password, which is used to access the certificate's key entry in the keystore
  • storePassword the store password, which is required to access the keystore file.
  • port port parameter will indicate the port on which the server will listen incoming requests
  • resourceURI resource uri at which this service will be available
  • httpOut If this transport is an HTTP OUT, Camel route is just ended, so the result from the execution script will fill HTTP response body
type=http

host=127.0.0.1
port=8080
resourceURI=/testHelloService

# ssl parameters
#isSSL=false
# keyStoreFile=filename.jks
# keyPassword=password
# storePassword=password

format=PLAIN TEXT

In the above example the service will be accessible at the following address http://127.0.0.1:8080/testHelloService.

##JMS Transport

JMS Transport has following configuration parameters:

  • destinationName JMS destination name is a required parameter.
  • brokerUrl Broker URL is a required parameter.
  • userName JSM broker user name is an optional parameter.
  • password JSM broker password is an optional parameter.
  • activeMQ Active MQ parameter. Determines if JMS is Apache ActiveMQ (true) or generic JMS (false). Default value is false.
  • isTopic JMS topic name parameter is optional.

Below is presented an example for jms transport

type=jms

activemq=true

isTopic=true

destinationName=test

brokerUrl=tcp://localhost:61616

userName=admin

password=admin

format=PLAIN TEXT

##REST Transport

Rest Transport inherits all properties from HTTP Transport. Configuration parameter type has value rest. Below is presented an example of rest transport configuration:

type=rest

host=127.0.0.1
port=8085
resourceURI=/testHelloService

format=PLAIN TEXT

#Simulator Formats

Following Formats are available:

##CSV Format

Following configuration parameters are available for CSV format:

  • isFirstRowHeader This configuration parameter will not indicate if first row is header(true) or not(false).
  • rowContent String describing what each row represents. REQUIRED if isFirstRowHeader is false. This will be used as bean name during the simulation. e.g.: employee, order, product, etc.
  • csvContent String describing what are the CSV contents. This configuration parameter is required. This will be used as the SimulatorPojo root's record key. e.g.: employees, orders, products, etc.

Below config example indicates that first row of the csv file will be header and csv content will be named "names":

format=CSV
csvContent=names
isFirstRowHeader=true

##JSON Format

Json format has following configuration parameters:

  • jsonContent Describes what are the JSON contents. This parameter is required. e.g.: employee(s), order(s), product(s), etc.
  • isArray Determines if the JSON content is an Array. This parameter is optional.Defaults to false (JSON Object). If this parameter is true, it's recommended that "jsonContent" uses a plural word and "jsonArrayContent" uses its singular form.
  • jsonArrayContent Describes each array element content. Optional parameter. Required if "isArray" is true. e.g.: employee, order, product, etc.

A Json configuration example may be found below:

format=JSON

jsonContent=employees
isArray=true
jsonArrayContent=employee

Every element in the array will be named as employee and all array may be referenced as employees.

Content example that may be served by this json format config is presented below:

[{ "firstName":"John" , "lastName":"Doe" }, { "firstName":"Anna" , "lastName":"Smith" },{ "firstName":"Peter" , "lastName":"Jones" }]

##Plain Text Format

This format does not need any config parameters. The only thing to keep in mind is the fact that text content may be referenced as "text".

##Properties Format

This format has only one configuration parameter:

  • propertySeparator Property level separator parameter name, which is optional. Defaults to dot (".")

Following properties content was accepted by Simulator:

person.lastName=Doe
person.firstName=John

with the following result:

nativeobject.lastName=Doe
nativeobject.firstName=John

[TO DO] Resulting properties content should not contain nativeobject as the root element.

##XML Format

XML Format configuration parameters:

  • validate Validate parameter. If the XML text should DTD validated. This parameter is optional. Defaults to false (no DTD validation).
  • rootTagName Override root tag name if one is provided.

XML Format example presented below will override root tag name to users, otherwise it will be "nativeobject".

format=xml
rootTagName=users

##YAML Format

YAML Format configuration parameters:

  • yamlContent String describing what are YAML contents. This parameter is required. This will be used as the SimulatorPojo root's record key. e.g.: employees, orders, products, etc.
  • isArray IsArray parameter determines if YAML content is an Array. This parameter is optional. Defaults to false. If this parameter is true, it's recommended that "yamlContent" uses a plural word and "yamlArrayContent" its singular form.
  • yamlArrayContent Yaml array content parameter describes each array element content. This parameter is optional. Required if "isArray" parameter is true. e.g.: employee, order, product, etc.

Configuration example for yaml format:

format=yaml
yamlContent=invoice

##Rest Format

Rest Format configuration parameters:

  • objectName Extracted object name parameter is optional. Default value is obj.
  • extractionPattern pattern to extract values from http request

Rest format configuration example:

format=rest
extractionPattern=testHelloService/:name/:surname
objectName=person

The following request may be used for accessing the rest format configuration presented above http://127.0.0.1:8085/testHelloService/Vasea/Turcanu . As result we get name=Vasea and surname=Turcanu that may be referenced in the following way:

person['request']['params'];

##SOAP Format

SOAP Format will handle SOAP 1.2 protocol messages.

SOAP Format configuration parameters:

  • wsdlURL real wsdl url to simulated web service, This is needed for validation of incoming messages.

Below is presented a configuration for soap format with a certain wsdl url to validate against:

format=soap
wsdlURL=http://127.0.0.1/testHelloService/wsdl

##Doc Literal Soap Format

Configuration parameters:

  • wsdlURL real wsdl url to simulated web service, This is needed for validation of incoming messages.

Configuration example for doc literal soap format

format=DOCLITERALSOAP
wsdlURL=http://127.0.0.1/testHelloService/wsdl

##SOAP Full Response Format

Configuration parameters:

  • wsdlURL real wsdl url to simulated web service, This is needed for validation of incoming messages.

Configuration example:

format=SOAPFULLRESPONSE
wsdlURL=http://127.0.0.1/testHelloService/wsdl

#TO DO

The XML and SOAP adapters need stronger unit tests for responses. They might benefit from XSD and DTD support to aid in generating proper responses with tools like JAXB.

#Origins

This was migrated from svn.tacitknowledge.com:/common/trunk/simulator from revision numbers 1493 to 2258.

com.tacitknowledge

Tacit Knowledge

Versions

Version
1.1