ZOO-Service configuration file

The ZOO-Service configuration file (.zcfg) describes a WPS service. It provides metadata information on a particular WPS Service and it is parsed by ZOO-Kernel when DescribeProcess and Execute request are sent.

The ZOO-Service configuration file is divided into three distinct sections :

  • Main Metadata information
  • List of Inputs metadata information (optional since rev. 469)
  • List of Outputs metadata information

Warning

The ZOO-Service configuration file is case sensitive.

Note

There are many example ZCFG files in the cgi-env directory of the ZOO-Project svn.

Main section

The fist part of the ZOO-Service configuration file is the main section, which contains general metadata information on the related WPS Service.

Note that the “name of your service” between brackets on the first line has to be the exact same name as the function you defined in your services provider code. In most cases, this name is also the name of the ZCFG file without the “.zcfg” extension.

An example of the main section is given bellow as reference.

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[Name of WPS Service]
Title = Title of the WPS Service
Abstract = Description of the WPS Service
processVersion = Version number of the WPS Service
storeSupported = true/false
statusSupported = true/false
serviceType = Pprogramming language used to implement the service (C|Fortran|Python|Java|PHP|Ruby|Javascript)
serviceProvider = Name of the Services provider (shared library|Python Module|Java Class|PHP Script|JavaScript Script)
<MetaData>
  title = Metadata title of the WPS Service
</MetaData>

Warning

‘Name of WPS Service’ must be the exact same name as the function defined in the WPS Service source code.

Note

An extend parameter may be used for the Process profile registry.

List of Inputs

The second part of the ZOO-Service configuration file is the <DataInputs> section which lists the supported inputs. Each input is defined as :

  • Name (between brackets as for the name of the service before)
  • Various medata properties (Title, Abstract, minOccurs, maxOccurs and, in case of ComplexData, the optional maximumMegabytes)
  • Type Of Data Node

A typical list of inputs (<DataInputs>) looks like the following:

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<DataInputs>
  [Name of the first input]
    Title = Title of the first input
    Abstract = Abstract describing the first input
    minOccurs = Minimum occurence of the first input
    maxOccurs = Maximum occurence of the first input
    <Type Of Data Node />
  [Name of the second input]
    Title = Title of the second input
    Abstract = Abstract describing the second input
    minOccurs = Minimum occurence of the second input
    maxOccurs = Maximum occurence of the second input
    <Type Of Data Node />
</DataInputs>

Note

A <MetaData> node can also be added, as in the main metadata information.

List of Outputs

The third part of the ZOO Service configuration file is the <DataOutputs> section, which lists the supported outputs and is is very similar to a list of inputs.

A typical list of outputs (<DataOutputs>) looks like the following:

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<DataOutputs>
  [Name of the output]
    Title = Title of the output
    Abstract = Description of the output
    <Type Of Data Node />
</DataOutputs>

Type Of Data Nodes

The Type Of Data Nodes describes data types for inputs and outputs. There are three different types which are described in this section.

Warning

Every BoundingBoxData and ComplexData must have at least one <Default> node (even empty like <Default />)

LiteralData node

A <LiteralData> node contains:

  • one (optional) AllowedValues key containing all value allowed for this input
  • one (optional) range properties containing the range ([, ])
  • one (optional) rangeMin (rangeMax) properties containing the minimum (maximum) value of this range
  • one (optional) rangeSpacing properties containing the regular distance or spacing between value in this range
  • one (optional) rangeClosure properties containing the closure type (c, o, oc, co)
  • one <Default> node,
  • zero or more <Supported> nodes depending on the existence or the number of supported Units Of Measure (UOM), and
  • a dataType property. The dataType property defines the type of literal data, such as a string, an interger and so on (consult the complete list of supported data types).

<Default> and <Supported> nodes can contain the uom property to define which UOM has to be used for this input value.

For input <LiteralData> nodes, you can add the value property to the <Default> node to define a default value for this input. This means that, when your Service will be run, even if the input wasn’t defined, this default value will be set as the current value for this input.

A typical <LiteralData> node, defining a float data type using meters or degrees for its UOM, looks like the following:

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<LiteralData>
  dataType = float
  <Default>
    uom = meters
  </Default>
  <Supported>
    uom = feet
  </Supported>
</LiteralData>

A typical <LiteralData> node, defining a float data type which should take values contained in [0.0,100.0], looks like the following:

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<LiteralData>
  dataType = float
  rangeMin = 0.0
  rangeMax = 100.0
  rangeClosure = c
  <Default />
</LiteralData>

Or more simply:

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<LiteralData>
  dataType = float
  range = [0.0,100.0]
  <Default />
</LiteralData>

A typical <LiteralData> node, defining a string data type which support values hillshade, slope, aspect, TRI, TPI and roughness, looks like the following:

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<LiteralData>
  dataType = string
  AllowedValues = hillshade,slope,aspect,TRI,TPI,roughness
  <Default />
</LiteralData>

Properties AllowedValues and range* can be conbined with both <Default> and <Supported> nodes in the same was as <LiteralData> node. For instance, the following is supported:

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<LiteralData>
  dataType = int
  <Default>
    value = 11
    AllowedValues = -10,-8,-7,-5,-1
    rangeMin = 0
    rangeMin = 100
    rangeClosure = co
  </Default>
  <Supported>
    rangeMin = 200
    rangeMin = 600
    rangeClosure = co
  </Supported>
  <Supported>
    rangeMin = 750
    rangeMin = 990
    rangeClosure = co
    rangeSpacing = 10
  </Supported>
</LiteralData>

BoundingBoxData node

A <BoundingBoxData> node contains:

  • one <Default> node with a CRS property defining the default Coordinate Reference Systems (CRS), and
  • one or more <Supported> nodes depending on the number of CRS your service supports (note that you can alternatively use a single <Supported> node with a comma-separated list of supported CRS).

A typical <BoundingBoxData> node, for two supported CRS (EPSG:4326 and EPSG:3785), looks like the following:

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<BoundingBoxData>
  <Default>
    CRS = urn:ogc:def:crs:EPSG:6.6:4326
  </Default>
  <Supported>
    CRS = urn:ogc:def:crs:EPSG:6.6:4326
  </Supported>
  <Supported>
    CRS = urn:ogc:def:crs:EPSG:6.6:3785
  </Supported>
</BoundingBoxData>

ComplexData node

A ComplexData node contains:

  • a <Default> node and
  • one or more <Supported> nodes depending on the number of supported formats. A format is made up of this set of properties : mimeType, encoding and optionaly schema.

For output ComplexData nodes, you can add the extension property to define what extension to use to name the file when storing the result is required. Obviously, you’ll have to add the extension property to each supported format (for the <Default> and <Supported> nodes).

You can also add the asReference property to the <Default> node to define if the output should be stored on server side per default.

Note

the client can always modify this behavior by setting asReference attribute to true or false for this output in the request ResponseDocument parameter.

You can see below a sample ComplexData node for default application/json and text/xml (encoded in UTF-8 or base64) mimeTypes support:

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<ComplexData>
  <Default>
    mimeType = application/json
    encoding = UTF-8
  </Default>
  <Supported>
    mimeType = text/xml
    encoding = base64
    schema = http://fooa/gml/3.1.0/polygon.xsd
  </Supported>
  <Supported>
    mimeType = text/xml
    encoding = UTF-8
    schema = http://fooa/gml/3.1.0/polygon.xsd
  </Supported>
</ComplexData>