WCS Server¶
- Author
Jeff McKenna
- Contact
jmckenna at gatewaygeomatics.com
- Author
Stephan Meissl
- Contact
stephan.meissl at eox.at
- Author
Fabian Schindler
- Contact
fabian.schindler at eox.at
- Last Updated
2021-03-27
Table of Contents
Introduction¶
A WCS (or Web Coverage Service) allows for the publication of “coverages”- digital geospatial information representing space-varying phenomena. In the MapServer world it allows for unfiltered access to raster data. Conceptually it is easy think of WCS as a raster equivalent of WFS. The following documentation is based on the Open Geospatial Consortium’s (OGC) Web Coverage Service Interfaces Implementation Specification version 1.0.0.
Software Requirements¶
In order to enable MapServer to serve WCS data, it MUST be compiled against certain libraries:
PROJ: The reprojection library. Version 4.4.3 or greater is required.
GDAL: raster support library.
MapServer: version >= 4.4 (tested with 5.0.2 while updating this document)
For WCS 1.1.x (MapServer 5.2) and WCS 2.0 (MapServer 6.0) support there is an additional requirement:
libxml2: An xml parser and generation library.
Please see the MapServer UNIX Compilation and Installation HowTo for detailed instructions on compiling MapServer with support for these libraries and features. For Windows users, MapServer for Windows (MS4W) comes with WCS Server support.
Configuring Your Mapfile to Serve WCS Layers¶
Much as in the WMS and WFS support, WCS publishing is enabled by adding certain magic METADATA keyword/value pairs to a .map file.
MapServer will serve and include in its WCS capabilities only the layers that meet the following conditions:
Data source is a raster, which is processed using GDAL (e.g GeoTIFF, Erdas Imagine, …)
LAYER NAME must be set
LAYER TYPE is set to RASTER
WEB metadata or LAYER metadata “wcs_enable_request” must be set
WEB metadata “wcs_label” must be set
LAYER metadata “wcs_label” must be set
LAYER metadata “wcs_rangeset_name” must be set
LAYER metadata “wcs_rangeset_label” must be set
LAYER is enabled to be served via WCS (see MS RFC 67)
LAYER PROJECTION must be set, even if PROJECTION is set at the MAP level (a bug?)
Example WCS Server Mapfile¶
The following is an example of a simple WCS Server mapfile. Note the comments for the required parameters.
MAP
NAME WCS_server
STATUS ON
SIZE 400 300
SYMBOLSET "../etc/symbols.txt"
EXTENT -2200000 -712631 3072800 3840000
UNITS METERS
SHAPEPATH "../data"
IMAGECOLOR 255 255 255
FONTSET "../etc/fonts.txt"
#
# Start of web interface definition
#
WEB
IMAGEPATH "/ms4w/tmp/ms_tmp/"
IMAGEURL "/ms_tmp/"
METADATA
"wcs_label" "GMap WCS Demo Server" ### required
"wcs_description" "Some text description of the service"
"wcs_onlineresource" "http://127.0.0.1/cgi-bin/mapserv.exe?" ### recommended
"wcs_fees" "none"
"wcs_accessconstraints" "none"
"wcs_keywordlist" "wcs,test"
"wcs_metadatalink_type" "TC211"
"wcs_metadatalink_format" "text/plain"
"wcs_metadatalink_href" "http://someurl.com"
"wcs_address" "124 Gilmour Street"
"wcs_city" "Ottawa"
"wcs_stateorprovince" "ON"
"wcs_postcode" "90210"
"wcs_country" "Canada"
"wcs_contactelectronicmailaddress" "blah@blah"
"wcs_contactperson" "me"
"wcs_contactorganization" "unemployed"
"wcs_contactposition" "manager"
"wcs_contactvoicetelephone" "613-555-1234"
"wcs_contactfacimiletelephone" "613-555-1235"
"wcs_service_onlineresource" "http://127.0.0.1/cgi-bin/mapserv.exe?"
"wcs_enable_request" "*"
END
END
PROJECTION
"init=epsg:3978"
END
LAYER
NAME bathymetry
METADATA
"wcs_label" "Elevation/Bathymetry" ### required
"wcs_rangeset_name" "Range 1" ### required to support DescribeCoverage request
"wcs_rangeset_label" "My Label" ### required to support DescribeCoverage request
END
TYPE RASTER ### required
STATUS ON
DATA bath_mapserver.tif
PROJECTION
"init=epsg:3978"
END
END
END # Map File
Output Formats¶
The raster formats supported by MapServer WCS are determined by the wcs_formats metadata item on the LAYER. This should contain a space separated list of OUTPUTFORMAT driver names separated by spaces. If absent, all raster OUTPUTFORMATs are allowed.
WCS is a “raw data” oriented format. So it often most suitable to use it with format using the BYTE, INT16 and FLOAT32 IMAGEMODEs with GDAL related output formats rather than the built in “rendering oriented” output formats. By default the only GDAL format driver defined is the GTiff driver. The following are example output format declarations utilizing the raw image modes:
OUTPUTFORMAT
NAME GEOTIFF_16
DRIVER "GDAL/GTiff"
MIMETYPE "image/tiff"
IMAGEMODE FLOAT32
EXTENSION "tif"
END
OUTPUTFORMAT
NAME AAIGRID
DRIVER "GDAL/AAIGRID"
MIMETYPE "image/x-aaigrid"
IMAGEMODE INT16
EXTENSION "grd"
FORMATOPTION "FILENAME=result.grd"
END
The FORMATOPTION FILENAME defines the preferred name of the result file when returned WCS GetCoverage results.
Test Your WCS 1.0 Server¶
Validate the Capabilities Metadata¶
OK, now that we’ve got a mapfile, we have to check the XML capabilities returned by our server to make sure nothing is missing.
Using a web browser, access your server’s online resource URL to which you add the parameters “SERVICE=WCS&VERSION=1.0.0&REQUEST=GetCapabilities” to the end, e.g.
http://my.host.com/cgi-bin/mapserv?map=mywcs.map&SERVICE=WCS
&VERSION=1.0.0&REQUEST=GetCapabilities
Note
It is strongly recommended to review the security steps for the MAP= call to the MapServer executable, by setting MS_MAP_PATTERN or MS_MAP_NO_PATH or hiding the MAP= parameter on public servers, as recommended in the document Limit Mapfile Access. All possible environment variables to secure your server are listed in Environment Variables.
If you get an error message in the XML output then take necessary actions. Common problems and solutions are listed in the FAQ at the end of this document.
If everything went well, you should have a complete XML capabilities document. Search it for the word “WARNING”… MapServer inserts XML comments starting with “<!–WARNING: ” in the XML output if it detects missing mapfile parameters or metadata items.
Note that when a request happens, it is passed through WMS, WFS, and WCS in MapServer (in that order) until one of the services respond to it.
Here is a working example of a GetCapabilities request:
Test With a DescribeCoverage Request¶
OK, now that we know that our server can produce a valid XML GetCapabilities response we should test the DescribeCoverage request. The DescribeCoverage request lists more information about specific coverage offerings.
Using a web browser, access your server’s online resource URL to which you add the parameters “SERVICE=WCS&VERSION=1.0.0&REQUEST=DescribeCoverage&COVERAGE=layername” to the end, e.g.
http://my.host.com/cgi-bin/mapserv?map=mywcs.map&SERVICE=WCS
&VERSION=1.0.0&REQUEST=DescribeCoverage&COVERAGE=bathymetry
Here is a working example of a DescribeCoverage request:
Test With a GetCoverage Request¶
The GetCoverage request allows for the retrieval of coverages in a specified output format to the client.
The following is a list of the required GetCoverage parameters according to the WCS spec:
VERSION=version: Request version
REQUEST=GetCoverage: Request name
COVERAGE=coverage_name: Name of an available coverage, as stated in the GetCapabilities
CRS=epsg_code: Coordinate Reference System in which the request is expressed.
BBOX=minx,miny,maxx,maxy: Bounding box corners (lower left, upper right) in CRS units. One of BBOX or TIME is required.
TIME=time1,time2: Request a subset corresponding to a time. One of BBOX or TIME is required..
WIDTH=output_width: Width in pixels of map picture. One of WIDTH/HEIGHT or RESX/Y is required.
HEIGHT=output_height: Height in pixels of map picture. One of WIDTH/HEIGHT or RESX/Y is required.
RESX=x: When requesting a georectified grid coverage, this requests a subset with a specific spatial resolution. One of WIDTH/HEIGHT or RESX/Y is required.
RESY=y: When requesting a georectified grid coverage, this requests a subset with a specific spatial resolution. One of WIDTH/HEIGHT or RESX/Y is required.
FORMAT=output_format: Output format of map, as stated in the DescribeCoverage response.
The following are optional GetCoverage parameters according to the WCS spec:
RESPONSE_CRS=epsg_code: Coordinate Reference System in which to express coverage responses.
So to follow our above examples, a valid DescribeCoverage request would look like:
http://my.host.com/cgi-bin/mapserv?map=mywcs.map&SERVICE=WCS
&VERSION=1.0.0&REQUEST=GetCoverage&coverage=bathymetry
&CRS=EPSG:3978&BBOX=-2200000,-712631,3072800,3840000&WIDTH=3199
&HEIGHT=2833&FORMAT=GTiff
Here is a working example of a GetCoverage request (note that a 350KB tif is being requested, so this may take a second):
WCS 1.1.0+ Issues¶
WCS 1.1.0 and later versions of the WCS protocol are supported by MapServer 5.2. For the most part the map file setup for WCS 1.1.0 is similar to WCS 1.0.0, but the actual protocol is substantially changed.
GetCapabilities¶
The GetCapabilities request is the same as WCS 1.0 but with a different VERSION value:
SERVICE=WCS&VERSION=1.1.0&REQUEST=GetCapabilities
The format of the returned capabilities document is substantially altered from WCS 1.0, and makes use of OWS Common for service descriptions.
DescribeCoverage¶
The DescribeCoverage request is similar to WCS 1.0, but the IDENTIFIERS keyword is used instead of COVERAGE to name the coverage(s) being requested:
SERVICE=WCS&VERSION=1.1.0&REQUEST=DescribeCoverage&IDENTIFIERS=spaceimaging
GetCoverage¶
The format for GetCoverage is substantially changed from 1.0. The following is a list of GetCoverage required parameters:
VERSION=version: Request version
REQUEST=GetCoverage: Request name
IDENTIFIER=coverage_name: Name of an available coverage, as stated in the GetCapabilities
BOUNDINGBOX=minx,miny,maxx,maxy,crs: Bounding box corners (lower left, upper right), and the CRS they are in. The CRS is described using a URN.
FORMAT=output_format: Output format (mime type) of grid product, as stated in the GetCapabilities.
If an alternate spatial resolution is desired, then the following set of keywords must be used to specify the sample origin and step size of the output grid to be produced. The produced grid will be of a number of pixels and lines as can be fit in the BOUNDINGBOX starting at GridOrigin, at GridOffsets resolution.
GRIDBASECRS=crs: The grid base CRS (URN).
GRIDCS=crs: The grid CRS (URN).
GridType=urn:ogc:def:method:WCS:1.1:2dGridIn2dCrs: This is the only supported value for MapServer.
GridOrigin=x_origin,y_origin: The sample point for the top left pixel.
GridOffsets=xstep,ystep: The x and y step size for grid sampling (resolution). Both are positive.
As well, the following optional parameters are available.
RangeSubset=selection: Selects a range subset, and interpolation method. Currently only subsetting on bands are allowed. Depending on rangeset names, this might take the form “BandsName[bands[1]]” to select band 1, or “BandsName:bilinear[bands[1]]” to select band 1 with bilinear interpolation.
So a simple GetCoverage might look like:
SERVICE=WCS&VERSION=1.1.0&REQUEST=GetCoverage&IDENTIFIER=dem&FORMAT=image/tiff
&BOUNDINGBOX=43,33,44,34,urn:ogc:def:crs:EPSG::4326
A more complex request might look like:
SERVICE=WCS&VERSION=1.1.0&REQUEST=GetCoverage&IDENTIFIER=dem&FORMAT=image/tiff
&BOUNDINGBOX=33,43,34,44,urn:ogc:def:crs:EPSG::4326
&GridBaseCRS=urn:ogc:def:crs:EPSG::4326&GridCS=urn:ogc:def:crs:EPSG::4326
&GridType=urn:ogc:def:method:WCS:1.1:2dGridIn2dCrs
&GridOrigin=33,44&GridOffsets=0.01,0.01
&RangeSubset=BandsName:bilinear[bands[1]]
It should also be noted that return results from WCS 1.1 GetCoverage requests are in multi-part mime format. Typically this consists of a first part with an xml document referencing the other parts of the message, and an image file part. However, for output formats that return multiple files, each will be a separate part. For instance, this means it is possible to return a jpeg file with a world file, the OUTPUTFORMAT is appropriately configured.
URNs¶
In WCS 1.1 protocol coordinate systems are referenced by URN. Some typical URNs are:
urn:ogc:def:crs:EPSG::4326
urn:ogc:def:crs:EPSG:27700
urn:ogc:def:crs:OGC::CRS84
The first two are roughly equivalent to EPSG:4326, and EPSG:27700 while the third is a CRS defined by OGC (essentially WGS84). One critical thing to note is that WCS 1.1 follows EPSG defined axis/tuple ordering for geographic coordinate systems. This means that coordinates reported, or provided in urn:ogc:def:EPSG::4326 (WGS84) are actually handled as lat, long, not long,lat. So, for instance the BOUNDINGBOX for an area in California might look like:
BOUNDINGBOX=34,-117,35,-116,urn:ogc:def:crs:EPSG::4326
And, likewise the bounds reported by GetCapabilities, and DescribeCoverage will be in this ordering as appropriate.
WCS 2.0¶
Overview¶
Version 6.0 introduces support for the new version 2.0 of the WCS specification. This section documents the usage of the new WCS version.
Web Coverage Service (WCS) 2.0 Interface Standard¶
This specification adopts the new OGC Core and Extension model and at the moment the following documents are available from the OGC’c WCS Standard page:
Technical changes from WCS version 1.1.2 include entirely building on the GML 3.2.1 Application Schema Coverages and adoption of OWS Common 2.0. Another major change is the introduction of trim and slice concepts which is explained in more detail below.
There are WCS 2.0 Schemas defined against which all requests and responses should validate.
WCS 2.0 KVP request parameters¶
The following KVP request parameters are available in WCS 2.0:
COVERAGEID=id: This parameter is technically the same as the COVERAGE parameter for WCS 1.0 or the IDENTIFIER parameter for WCS 1.1. In DescribeCoverage requests, multiple IDs can be requested by concatenating them with commas.
SUBSET=axis[,crs](low,high): This parameter subsets the coverage on the given axis. This parameter can be given multiple times, but only once for each axis. The optional sub-parameter crs can either be an EPSG definition (like EPSG:4326), an URN or an URI or ‘imageCRS’ (which is the default). All crs sub-parameters from all SUBSET parameters must be equal. (e.g: you cannot subset one axis in imageCRS and another in EPSG:4326).
Note
The syntax of the crs sub-parameter is non-standard and deprecated. Please use the SUBSETTINGCRS parameter instead.
Note
Recognized values for the axis sub-parameter are: “x”, “xaxis”, “x-axis”, “x_axis”, “long”, “long_axis”, “long-axis”, “lon”, “lon_axis”, “lon-axis”, “y”, “yaxis”, “y-axis”, “y_axis”, “lat”, “lat_axis” and “lat-axis”.
SUBSETTINGCRS=crs: This parameter defines the crs subsetting all SUBSETs are expressed in, and also the output CRS if no OUTPUTCRS is specified. By default all subsets are interpreted to be relative to the coverages CRS.
OUTPUTCRS=crs: This parameter defines in which crs the output image should be expressed in.
MEDIATYPE=mediatype: This parameter is relevant to GetCoverage requests, when multipart XML/image output is desired. It should be set to ‘multipart/related’ (which is currently the only possible value for this parameter).
SCALEFACTOR=factor: With this parameter (a positive float) the size of the output image can be adjusted. All axes are scaled equally.
SCALEAXES=axis(value)[,axis(value)]: With this parameter, an axis specific scaling can be applied. Any axis not mentioned
SCALESIZE=axis(size)[,axis(size)]: This is similar to the SCALEAXES parameter, but allows an axis specific setting of the absolute pixel size of the returned coverage.
SCALEEXTENT=axis(min:max)[,axis(min:max)]: This parameter is treated like a SCALESIZE parameter with “axis(max-min)”.
INTERPOLATION=interpolation_method: This defines the interpolation method used, for rescaled images. Possible values are “NEAREST”, “BILINEAR” and “AVERAGE”.
RANGESUBSET=band1[,band2[,…]]: With this parameter, a selection of bands can be made. Also the bands can be reordered. The bands can be referred to either by name (which can be retrieved using the DescribeCoverage request) or by index (starting with ‘1’ for the first band). Also a range of bands can be given: bandX:bandY. This also includes the lower and upper bounds. As the name implies, the lower bound must reference the band with the lower index. You can mix direct references to the bands with intervals. E.g: RANGESUBSET=band1,band3:band:5,band7
The following parameters are part of the WCS 2.0 Specification - GeoTIFF Coverage Encoding Profile and are only available for the GeoTIFF outputformat:
GEOTIFF:COMPRESSION=compression: The compression method used for the returned image. Valid options are: None, PackBits, Deflate, Huffman, LZW and JPEG.
GEOTIFF:JPEG_QUALITY=1-100: When the compression method JPEG is chosen, this value defines the quality of the algorithm.
GEOTIFF:PREDICTOR=None|Horizontal|FloatingPoint: The predictor value for the LZW and Deflate compression methods.
GEOTIFF:INTERLEAVE=Band|Pixel: Defines whether the image shall be band or pixel interleaved.
GEOTIFF:TILING=true|false: Defines if the output image shall be internally tiled.
GEOTIFF:TILEWIDTH=tilewidth, GEOTIFF:TILEHEIGHT=tileheight: Define the size of the internal tiles. Must be positive integer divisible by 16.
The following request parameters are not part of the WCS 2.0 Core or any extension thereof, and are kept for backward compatibility. They originate from a time where the most vital standard extensions were not specified and the WCS core was not quite useful without. They are deprecated.
SIZE=axis(value): This parameter sets the size of the desired axis to the desired value (pixels).
RESOLUTION=axis(value): This parameter sets the resolution of the desired axis to the desired value (pixels/unit).
Note
The SIZE and RESOLUTION are mutually exclusive on one axis, but can be mixed on different axes (e.g: SIZE on x-axis and RESOLUTION on y-axis). Also axis names in SUBSET, SIZE and RESOLUTION parameters cannot be mixed. E.g: …&SUBSET=x(0,100)&SIZE=lon(200)&… is not legal although the axis names logically refer to the same axis.
Unchanged KVP parameters¶
The following parameters have not (or just slightly) changed since the last version of the WCS standard.
- VERSION=version: For WCS 2.0, this should be set to ‘2.0.1’. This
parameter is deprecated for GetCapabilities related to OGC Web Services Common Standard 2.0.0.
SERVICE=service
REQUEST=request
ACCEPTVERSIONS=versions
SECTIONS=sections
UPDATESEQUENCE=updatesequence
ACCEPTFORMATS=formats: This parameter is currently ignored.
ACCEPTLANGUAGES=languages: This is used for language negotiation for multi-lingual services
FORMAT=format: The desired format can now also be set with the name of the outputformat object defined in the mapfile. In contrast to previous versions of WCS this parameter is optional when the native format is either specified or can be determined via GDAL.
MAP=mapfile
KVP request examples¶
The below sample request outline the new KVP request syntax:
# GetCapabilities
http://www.yourserver.com/wcs?SERVICE=WCS&ACCEPTVERSIONS=1.0.0,2.0.1
&REQUEST=GetCapabilities
http://www.yourserver.com/wcs?SERVICE=WCS&REQUEST=GetCapabilities
# DescribeCoverage 2.0
http://www.yourserver.com/wcs?SERVICE=WCS&VERSION=2.0.1
&REQUEST=DescribeCoverage&COVERAGEID=grey
# GetCoverage 2.0 image/tiff full
http://www.yourserver.com/wcs?SERVICE=WCS&VERSION=2.0.1
&REQUEST=GetCoverage&COVERAGEID=grey&FORMAT=image/tiff
# GetCoverage 2.0 multipart/related (GML header & image/tiff) full
http://www.yourserver.com/wcs?SERVICE=WCS&VERSION=2.0.1
&REQUEST=GetCoverage&COVERAGEID=grey&FORMAT=image/tiff
&MEDIATYPE=multipart/related
# GetCoverage 2.0 image/tiff trim x y both in imageCRS
http://www.yourserver.com/wcs?SERVICE=WCS&VERSION=2.0.1
&REQUEST=GetCoverage&COVERAGEID=grey&FORMAT=image/tiff
&SUBSET=x(10,200)&SUBSET=y(10,200)
&SUBSETTINGCRS=imageCRS
# GetCoverage 2.0 reproject to EPSG 4326
http://www.yourserver.com/wcs?SERVICE=WCS&VERSION=2.0.1
&REQUEST=GetCoverage&COVERAGEID=grey&FORMAT=image/tiff
&SUBSET=x(-121.488744,-121.485169)
&SUBSETTINGCRS=http://www.opengis.net/def/crs/EPSG/0/4326
Please refer to the WCS 2.0 tests in msautotest for further sample requests.
Changes to previous versions¶
The layer name must be a valid NCName, i.e: must not start with a number and can only contain alphanumerical characters. This constraint derives of the gml:id property which has to be a NCName, that relates to the coverage ID which is itself taken from the layers name.
Specifying coverage specific metadata¶
For WCS enabled layers in MapServer, there are different possibilities for declaring coverage metadata for WCS 2.0. In the simplest case, all of the required metadata can be retrieved from the source image.
For some reason this may not be desirable, maybe because the source image does not provide these metadata. Not every input image format has geospatial metadata attached. In this case, the layer metadata can be used to provide this information.
The convention is that once (wcs|ows)_extent and one of (wcs|ows)_size and (wcs|ows)_resolution is set in the layer metadata, all the coverage specific metadata will be retrieved from there. Otherwise the source image is queried via GDAL, if possible.
The relevant layer metadata fields are (wcs|ows)_bandcount, (wcs|ows)_imagemode, (wcs|ows)_native_format, and all New band related metadata entries.
HTTP-POST support¶
Since version 6.0 MapServer also supports HTTP-POST XML requests. All requests possible via HTTP GET can also be sent via POST. POST requests are possible for WCS 1.1 or WCS 2.0 which adhere to the according standard.
This is an example GetCapabilities request:
<?xml version="1.0" encoding="UTF-8"?>
<wcs:GetCapabilities
xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance'
xsi:schemaLocation="http://www.opengis.net/wcs/2.0
http://schemas.opengis.net/wcs/2.0/wcsAll.xsd"
xmlns="http://www.opengis.net/wcs/2.0"
xmlns:wcs='http://www.opengis.net/wcs/2.0'
xmlns:ows="http://www.opengis.net/ows/2.0"
service="WCS">
<ows:AcceptVersions>
<ows:Version>2.0.1</ows:Version>
</ows:AcceptVersions>
<ows:Sections>
<ows:Section>OperationsMetadata</ows:Section>
<ows:Section>ServiceIdentification</ows:Section>
</ows:Sections>
</wcs:GetCapabilities>
This is an example DescribeCoverage request, which is only valid for WCS 2.0:
<?xml version="1.0" encoding="UTF-8"?>
<wcs:DescribeCoverage
xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance'
xsi:schemaLocation="http://www.opengis.net/wcs/2.0
http://schemas.opengis.net/wcs/2.0/wcsAll.xsd"
xmlns="http://www.opengis.net/wcs/2.0"
xmlns:wcs="http://www.opengis.net/wcs/2.0"
service="WCS"
version="2.0.1">
<wcs:CoverageId>SOME_ID</wcs:CoverageId>
</wcs:DescribeCoverage>
This example demonstrates the usage of a WCS 2.0 POST-XML GetCoverage request:
<?xml version="1.0" encoding="UTF-8"?>
<wcs:GetCoverage
xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance'
xsi:schemaLocation="http://www.opengis.net/wcs/2.0
http://schemas.opengis.net/wcs/2.0/wcsAll.xsd"
xmlns="http://www.opengis.net/wcs/2.0"
xmlns:wcs="http://www.opengis.net/wcs/2.0"
xmlns:wcscrs="http://www.opengis.net/wcs/crs/1.0"
xmlns:scal="http://www.opengis.net/wcs/scaling/1.0"
xmlns:int="http://www.opengis.net/wcs/interpolation/1.0"
service="WCS"
version="2.0.1">
<wcs:CoverageId>SOME_ID</wcs:CoverageId>
<wcs:DimensionTrim>
<wcs:Dimension>x</wcs:Dimension>
<wcs:TrimLow>16.5</wcs:TrimLow>
<wcs:TrimHigh>17.25</wcs:TrimHigh>
</wcs:DimensionTrim>
<wcs:DimensionTrim>
<wcs:Dimension>y</wcs:Dimension>
<wcs:TrimLow>47.9</wcs:TrimLow>
</wcs:DimensionTrim>
<wcs:format>image/tiff</wcs:format>
<wcs:mediaType>multipart/related</wcs:mediaType>
<wcs:Extension>
<wcscrs:subsettingCrs>http://www.opengis.net/def/crs/EPSG/0/4326</wcscrs:subsettingCrs>
<wcscrs:outputCrs>http://www.opengis.net/def/crs/EPSG/0/32611</wcscrs:outputCrs>
<scal:ScaleToSize>
<scal:TargetAxisSize>
<scal:axis>x</scal:axis>
<scal:targetSize>50</scal:targetSize>
</scal:TargetAxisSize>
<scal:TargetAxisSize>
<scal:axis>y</scal:axis>
<scal:targetSize>50</scal:targetSize>
</scal:TargetAxisSize>
</scal:ScaleToSize>
<int:Interpolation>
<int:globalInterpolation>NEAREST</int:globalInterpolation>
</int:Interpolation>
</wcs:Extension>
</wcs:GetCoverage>
These are some other scaling options:
<wcs:GetCoverage
xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance'
xsi:schemaLocation="http://www.opengis.net/wcs/2.0
http://schemas.opengis.net/wcs/2.0/wcsAll.xsd"
xmlns="http://www.opengis.net/wcs/2.0"
xmlns:wcs="http://www.opengis.net/wcs/2.0"
xmlns:scal="http://www.opengis.net/wcs/scaling/1.0"
service="WCS"
version="2.0.1">
<!-- ... -->
<wcs:Extension>
<scal:ScaleByFactor>
<scal:scaleFactor>1.5</scal:scaleFactor>
</scal:ScaleByFactor>
<!-- or -->
<scal:ScaleAxesByFactor>
<scal:ScaleAxis>
<scal:axis>x</scal:axis>
<scal:scaleFactor>1.5</scal:scaleFactor>
</scal:ScaleAxis>
<scal:ScaleAxis>
<scal:axis>y</scal:axis>
<scal:scaleFactor>2.0</scal:scaleFactor>
</scal:ScaleAxis>
</scal:ScaleAxesByFactor>
<!-- or -->
<scal:ScaleToExtent>
<scal:TargetAxisExtent>
<scal:axis>x</scal:axis>
<scal:low>10</scal:low>
<scal:high>20</scal:high>
</scal:TargetAxisExtent>
<scal:TargetAxisExtent>
<scal:axis>y</scal:axis>
<scal:low>20</scal:low>
<scal:high>30</scal:high>
</scal:TargetAxisExtent>
</scal:ScaleToExtent>
</wcs:Extension>
</wcs:GetCoverage>
GeoTIFF parameters are used as follows:
<wcs:GetCoverage
xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance'
xsi:schemaLocation="http://www.opengis.net/wcs/2.0
http://schemas.opengis.net/wcs/2.0/wcsAll.xsd"
xmlns="http://www.opengis.net/wcs/2.0"
xmlns:wcs="http://www.opengis.net/wcs/2.0"
xmlns:geotiff="http://www.opengis.net/gmlcov/geotiff/1.0"
service="WCS"
version="2.0.1">
<!-- ... -->
<wcs:Extension>
<geotiff:parameters>
<geotiff:compression>LZW</geotiff:compression>
<geotiff:predictor>Horizontal</geotiff:predictor>
<geotiff:interleave>Band</geotiff:interleave>
<geotiff:tiling>yes</geotiff:tiling>
<geotiff:tilewidth>256</geotiff:tilewidth>
<geotiff:tileheight>256</geotiff:tileheight>
</geotiff:parameters>
</wcs:Extension>
</wcs:GetCoverage>
Please refer to the WCS 2.0 Specification - XML/POST Protocol Binding Extension and the WCS 2.0 Schemas for further information on POST request in WCS 2.0.
INSPIRE download service support¶
Since version 7.2, MapServer WCS 2.0 also supports the the INSPIRE download service. To enable this functionality, the wcs_inspire_capabilities setting must be set to either url or embed.
Please refer to the INSPIRE Download Service documentation for further metadata options.
Multi-language support¶
Part of the INSPIRE download service support is the support for multi-lingual WCS services. With the wcs_languages a (comma-separated) list of language specifiers can be set. When this is set, client and server can negotiate the result language using the ACCEPTLANGUAGES parameter (or the <ows:AcceptLanguages>/<ows:Language> tags when using XML). The first item in the accept languages list contained in the list specified with wcs_languages will be used for the resulting capabilities document
Additional information can be found in the section for Multi-language support for certain capabilities fields.
Reference Section¶
To avoid confusion only “wcs_*” and “ows_*” prefixed metadata entries are evaluated in OGC WCS services. Previous versions used “wms_*” prefixed entries as fallback which is dropped in version 6.0 in favor of forcing explicit decisions. The module will look for the “wcs_*” and “ows_*” metadata prefixes in this order.
The following metadata are available in the setup of the mapfile:
Web Object Metadata¶
ows_allowed_ip_list (or wcs_allowed_ip_list)
Description: (Optional) A list of IP addresses that will be allowed access to the service.
Example:
METADATA "ows_allowed_ip_list" "123.45.67.89 11.22.33.44" END
ows_denied_ip_list (or wcs_denied_ip_list)
Description: (Optional) A list of IP addresses that will be denied access to the service.
Example:
METADATA "ows_denied_ip_list" "123.45.67.89 11.22.33.44" END
wcs_abstract
Description: (Optional) A brief description of the service, maps to ows:Abstract (WCS 1.1+ only).
wcs_accessconstraints
Description: (Optional) A list of codes describing any access constraints imposed by the service provider. The keyword NONE is reserved to mean no access constraints are imposed.
wcs_address, wcs_city, wcs_contactelectronicmailaddress, wcs_contactfacimiletelephone, wcs_contactorganization, wcs_contactperson, wcs_contactposition, wcs_contactvoicetelephone, wcs_country, wcs_postcode, wcs_stateorprovince
Description: (Optional) Contact address information. If provided then all twelve metadata items are required. You can also use the responsibleparty metadata instead.
wcs_band_names
Description: (WCS 2.0) Space separated list of band names. See New band related metadata entries
wcs_description
Description: (Optional) A description of the server.
wcs_enable_request (or ows_enable_request)
Description: Space separated list of requests to enable. The default is none. The following requests can be enabled: GetCapabilities, GetCoverage and DescribeCoverage. A “!” in front of a request will disable the request. “*” enables all requests.
Examples:
To enable only GetCapabilities and GetCoverage:
"wcs_enable_request" "GetCapabilities GetCoverage"
To enable all requests except GetCapabilities
"wcs_enable_request" "* !GetCapabilities"
wcs_fees
Description: (Optional) A text string indicating any fees imposed by the service provider.
wcs_keywords
Description: (Optional) Short words for catalog searching.
wcs_label
Description: (Required) A human-readable label for the server.
wcs_metadatalink_format
Description: (Optional) The file format MIME type of the metadata record (e.g. “text/plain”). The web metadata wcs_metadatalink_type and wcs_metadatalink_href must also be specified.
To output several metadata links, use wcs_metadatalink_list
wcs_metadatalink_href
Description: (Optional) The URL to the server’s metadata. The web metadata wcs_metadatalink_format and wcs_metadatalink_type must also be specified.
To output several metadata links, use wcs_metadatalink_list
wcs_metadatalink_list
Description: (Optional) Space-separated list of parts of metadata keys, to be able to specify several metadata links. If the value of wcs_metadatalink_list is “foo bar”, then wcs_metadatalink_foo_href, wcs_metadatalink_foo_format, wcs_metadatalink_foo_type, wcs_metadatalink_bar_href, wcs_metadatalink_bar_format, wcs_metadatalink_bar_type will be queried with the semantics of the wcs_metadatalink_href, wcs_metadatalink_format and wcs_metadatalink_type items.
Example:
"wcs_metadatalink_list" "xml html" "wcs_metadatalink_xml_format" "text/xml" "wcs_metadatalink_xml_type" "TC211" "wcs_metadatalink_xml_href" "http://example.com/testXML" "wcs_metadatalink_html_format" "text/html" "wcs_metadatalink_html_type" "TC211" "wcs_metadatalink_html_href" "http://example.com/testHTML"
New in version 8.0.
wcs_metadatalink_type
Description: (Optional) The standard to which the metadata complies. Currently only two types are valid: “TC211” which refers to [ISO 19115], and “FGDC” which refers to [FGDC-STD-001-1988]. The web metadata wcs_metadatalink_format and wcs_metadatalink_href must also be specified.
To output several metadata links, use wcs_metadatalink_list
wcs_name
Description: (Optional) A name for the server.
wcs_responsibleparty_address_administrativearea, wcs_responsibleparty_address_city, wcs_responsibleparty_address_country, wcs_responsibleparty_address_deliverypoint, wcs_responsibleparty_address_electronicmailaddress, wcs_responsibleparty_address_postalcode, wcs_responsibleparty_individualname, wcs_responsibleparty_onlineresource, wcs_responsibleparty_organizationname, wcs_responsibleparty_phone_facsimile, wcs_responsibleparty_phone_voice, wcs_responsibleparty_postionname
Description: (Optional) Contact address information. If provided then all twelve metadata items are required. You can also use the address* metadata instead.
wcs_service_onlineresource
Description: (Optional) Top-level onlineresource URL. MapServer uses the onlineresource metadata (if provided) in the following order:
wcs_service_onlineresource
ows_service_onlineresource
wcs_onlineresource (or automatically generated URL, see the onlineresource section of this document)
wcs_languages
Description: (Optional) A comma-separated list of supported languages. For details please refer to the section Multi-language support for certain capabilities fields in the INSPIRE Download Service documentation.
Layer Object Metadata¶
- ows_allowed_ip_list
Same as ows_allowed_ip_list in the Web Object.
- ows_denied_ip_list
Same as ows_denied_ip_list in the Web Object.
wcs_abstract
Description: (Optional) A brief description of the service, maps to ows:Abstract (WCS 1.1+ only).
wcs_description
Description: (Optional) A description of the layer.
wcs_enable_request (or ows_enable_request)
Description: Space separated list of requests to enable. The default is none. The following requests can be enabled: GetCapabilities, GetCoverage and DescribeCoverage. A “!” in front of a request will disable the request. “*” enables all requests.
Examples:
To enable only GetCapabilities and GetCoverage:
"wcs_enable_request" "GetCapabilities GetCoverage"
To enable all requests except GetCapabilities
"wcs_enable_request" "* !GetCapabilities"
wcs_extent
Description: (Optional) Bounding box of layer, which must be provided for tiled data. Comma-delimited, in the format of: minx,miny,maxx,maxy
wcs_formats
Description: (Optional) The formats which may be requested for this layer, separated by a space. (e.g. “GTiff MrSID”)
wcs_keywords
Description: (Optional) Short words for catalog searching.
wcs_label
Description: (Required) A human-readable label for the layer.
wcs_metadatalink_format
Description: (Optional) The file format MIME type of the metadata record (e.g. “text/plain”). The web metadata wcs_metadatalink_type and wcs_metadatalink_href must also be specified.
wcs_metadatalink_href
Description: (Optional) The URL to the layer’s metadata. The web metadata wcs_metadatalink_format and wcs_metadatalink_type must also be specified.
wcs_metadatalink_type
Description: (Optional) The standard to which the metadata complies. Currently only two types are valid: “TC211” which refers to [ISO 19115], and “FGDC” which refers to [FGDC-STD-001-1988]. The web metadata wcs_metadatalink_format and wcs_metadatalink_href must also be specified.
wcs_name
Description: (Optional) A name for the layer.
wcs_nativeformat
Description: (Optional) The current format of the served raster layer. (e.g. “GTiff”) (used for WCS 1.0)
wcs_native_format
Description: (Optional) The mime-type of the current format of the served raster layer (e.g. “image/tiff”). This field is used when coverage metadata is provided by the layer metadata only (when wcs_extent and wcs_size/wcs_resolution are set). When set, WCS 2.0 GetCoverage requests will use this format when no other format is specified (the format parameter is optional then).
wcs_outputformat_{OUTPUTFORMATNAME}_creationoption_{OPTIONNAME}
Description: (Optional) (added in MapServer 7.2.0) To provide creation options in a (GDAL) output format specific and layer specific way. {OUTPUTFORMATNAME} should be substituted by the user with the OUTPUTFORMAT.NAME value of an output format allowed for the layer. And {OPTIONNAME} by a valid GDAL creation option valid for the OUTPUTFORMAT.DRIVER.
The purpose of this metadata item is to provide creation options that depend on the layer, typically to configure some metadata in the resulting raster file that depends on that layer (for non-layer dependent configuration options, OUTPUTFORMAT.FORMATOPTION should rather be used).
For GDAL drivers that support band-specific creation output (at time of writing, only the GRIB driver in GDAL 2.3.0), with a BAND_{bandnumber}_{OPTIONNAME} syntax for the GDAL creation option, it is also possible to use a MapServer metadata item named wcs_outputformat_{OUTPUTFORMATNAME}_creationoption_BAND_{bandnumber}_{OPTIONNAME}. bandnumber will be automatically adjusted when passed to GDAL so that the WCS band subsetting is properly taken into account. You can consult WCS GRIB output in msautotest as a practical example of how to configure GRIB2 WCS output (requires GDAL 2.3.0)
wcs_outputformat_{OUTPUTFORMATNAME}_mdi_{DOMAIN}_{KEY}
Description: (Optional) (added in MapServer 8.0.0) To provide metadata item (mdi) options in a GDAL output format specific and layer specific way. {OUTPUTFORMATNAME} should be substituted by the user with the OUTPUTFORMAT.NAME value of an output format allowed for the layer. {DOMAIN} is the name of a GDAL metadata domain. In general, you should use “default” for the default metadata domain. And {KEY} is the key of the GDAL metadata item.
The purpose of this metadata item is to provide GDAL metadata that depend on the layer, typically to configure some metadata in the resulting raster file that depends on that layer.
For GDAL drivers that support band-specific metadata (e.g GeoTIFF, netCDF), it is also possible to use a MapServer metadata item named wcs_outputformat_{OUTPUTFORMATNAME}_mdi_BAND_{bandnumber}_{DOMAIN}_{KEY}. bandnumber will be automatically adjusted when passed to GDAL so that the WCS band subsetting is properly taken into account.
netCDF output is a typical use case. For dataset level metadata, the key must be prefix with
NC_GLOBAL#
Example:
"wcs_outputformat_netCDF_mdi_default_NC_GLOBAL#title" "A succinct description of what is in the dataset"
For Band metadata:
"wcs_outputformat_netCDF_mdi_BAND_1_default_NETCDF_VARNAME" "wind" "wcs_outputformat_netCDF_mdi_BAND_1_default_long_name" "wind from direction" "wcs_outputformat_netCDF_mdi_BAND_1_default_standard_name" "wind_from_direction"
NETCDF_VARNAME is a special key name recognized by the GDAL netCDF driver to determine the variable name. All other keys are mapped to a netCDF attribute belonging to the corresponding variable.
In the special case of the DATA of the layer being a netCDF dataset and the output of the WCS request too, and no manual wcs_outputformat_netCDF_mdi_* item is defined, then MapServer will automatically forward metadata from the input dataset to the output file.
For netCDF output, if the input dataset has multiple bands, it is possible to generate a 3D dataset with the extra dimension being typically time or Z.
For each band, the MapServer metadata item wcs_outputformat_{OUTPUTFORMATNAME}_mdi_BAND_{bandnumber}_default__NETCDF_DIM_{DIMNAME} must be defined, where DIMNAME is the name of the extra dimension (e.g. “time”)
In addition to that, netCDF attributes can be defined on the extra dimension by setting metadata items of the form
wcs_outputformat_{OUTPUTFORMATNAME}_mdi_default_{DIMNAME}#{ATTRNAME}
where {ATTRNAME} is substituted with the name of the attribute to set on the extra dimension (e.g. “standard_name”, “units”, etc.)
Example:
# Metadata items to apply to the "time" extra dimension. "wcs_outputformat_netCDF_mdi_default_time#calendar" "standard" "wcs_outputformat_netCDF_mdi_default_time#standard_name" "time" "wcs_outputformat_netCDF_mdi_default_time#units" "hours since 1900-01-01 00:00:00" # Values of each band along the "time" extra dimension. "wcs_outputformat_netCDF_mdi_BAND_1_default_NETCDF_DIM_time" "10" "wcs_outputformat_netCDF_mdi_BAND_2_default_NETCDF_DIM_time" "20" "wcs_outputformat_netCDF_mdi_BAND_3_default_NETCDF_DIM_time" "30" "wcs_outputformat_netCDF_mdi_BAND_4_default_NETCDF_DIM_time" "40"
In the special case of the DATA of the layer being a netCDF 3D dataset and the output of the WCS request is netCDF too, and no manual wcs_outputformat_netCDF_mdi_* item is defined, then MapServer will automatically forward metadata from the input dataset to the output file to generate a netCDF 3D dataset.
Axes Descriptions (WCS 1.x only)
MapServer allows you define a number of these for a layer. Individual axis are identified by name when defining specific metadata (e.g. description). All defined axes must be listed in the rangeset_axes metadata tag so MapServer knows in advance what to expect. A special rangeset for multiband date is automatically generated by adding the name “bands” to the rangeset_axes list. If found MapServer will automatically generate metadata for the image bands. You may of course extend that basic support using the naming conventions below.
wcs_rangeset_axes
Description: (Optional) Delimited list of defined range sets. If defined, you can also use the following nine metadata items, where rangeset axis matches the axis name provided in this wcs_rangeset_axes metadata: (WCS 1.x only)
{rangeset axis}_semantic
{rangeset axis}_refsys
{rangeset axis}_refsyslabel
{rangeset axis}_description
{rangeset axis}_label
{rangeset axis}_values
{rangeset axis}_values_semantic
{rangeset axis}_values_type
{rangeset axis}_interval
wcs_rangeset_description
Description: (Optional, for DescribeCoverage request) Rangeset description (WCS 1.0 only)
wcs_rangeset_label
Description: (Required, for DescribeCoverage request) Rangeset label (WCS 1.x only)
wcs_rangeset_name
Description: (Required, for DescribeCoverage request) Rangeset name (WCS 1.x only)
wcs_rangeset_nullvalue
Description: (Optional, for DescribeCoverage request) Rangeset single null value (WCS 1.x only)
wcs_srs
Description: (Optional) Spatial reference system of the layer, in the form of: EPSG:code (e.g. EPSG:3978)
wcs_timeitem
Description: (Optional) The attribute in the spatio/temporal index that contains time values.
wcs_timeposition
Description: (Optional) A list of the start and end time of a given coverage (i.e. “2000-11-11T11:11:11Z,2001-11-11T11:11:11Z”), used when advertising GetCapabilities.
Layer Metadata API¶
If wcs_metadatalink_href is not defined, MapServer will provide a link to the Layer Metadata API for the given layer. See the Layer Metadata API documentation for more information.
Rules for handling SRS in a MapServer WCS¶
TODO!
Spatio/Temporal Indexes¶
MapServer has long supported a method of breaking a dataset into smaller, more manageable pieces or tiles. In this case a shapefile is used to store the boundary of each tile, and an attribute holds the location of the actual data. Within a MapServer mapfile the layer keywords TILEINDEX and TILEITEM are used to activate tiling.
Consider the example where an organization wants to serve hundreds or even thousands of MODIS scenes. Five images cover the spatial extent and each group of five varies by date of acquisition. This turns out to be a fairly common scenario for organizations interested in WCS, one that the existing tiling support does not adequately address. In previous versions of MapServer a developer would have to create one tile index and one layer definition for each group of five images. This could result in configuration files that are prohibitively long and difficult to manage.
In order to more efficiently support the WCS specification a new tiling scheme has been implemented within MapServer. One that supports spatial sub-setting, but also ad hoc sub-setting based on any attributes found within tile index. In many cases a temporal attribute could be used, but sub-setting is not limited to that case. The new scheme introduces the concept of tile index layers, that is, a separate layer definition is used to describe the tile index dataset. With this we get all the benefits of any MapServer layer, most importantly we can apply MapServer filters to the data. Filters can be defined at runtime using MapServer CGI, MapScript or via the WCS server interface. The syntax for the layer using the index remains unchanged except that the value for Tile Indexes refers to the index layer instead of an external shapefile.
So, looking at the example above again we can reduce our MapServer configuration to two layer definitions, one for the tile index and one for the imagery itself. Extracting a single dates worth of imagery is now a matter of setting the appropriate filter within the tile index layer.
Building Spatio-Temporal Tile Indexes¶
Developing these tile indexes is more difficult than basic indexes simply because there are no ready-made tools to do so. Fortunately we can leverage existing tool available within MapServer or supporting libraries such as GDAL by post processing their output.
Taking the above example, building an index is relatively simple task if you are willing to roll up your sleeves and write a bit of code. First, the basic spatial index needs to be built. The GDAL utility gdaltindex already does this. Simply point gdaltindex at the directory containing the collection of MODIS images and it will build a shapefile index suitable for use with MapServer. The next step would be to add the temporal information. The pseudo code would look something like:
open the index .dbf file for reading
create a new column to hold the image acquisition date
for each image; 1) extract the image acquisition date and 2) insert it into the new column
close the index .dbf file
This general approach could be used for many cases. A scripting language such as Perl, PHP or Python works well since they all have readily available modules for manipulating .dbf files. A worst case would involve hand editing the resulting .dbf file using a desktop tool such as Mircosoft Access or ESRI Arcview.
WCS 2.0 Application Profile - Earth Observation (EO-WCS)¶
OGC is currently discussing the adoption of an Earth Observation (EO) Application Profile for WCS 2.0 (EO-WCS) (see public RFC on EO-WCS). For an implementation please refer to the Open Source project EOxServer which already implements this proposed EO-WCS based on MapServer.
To-do Items and Known Limitations¶
MapServer does not derive all of the metadata it could from a given dataset. For example, you must explicitly list time periods covered by a layer. This should get better with time.
Only spatial, simple temporal and radiometric band subsetting is possible with the current implementation. Future enhancements should allow for arbitrary subsets based on pixel values or tile/image attributes.
The available set of WCS 2.0 specification documents is not yet complete. Thus, for some implementation details, the content of some forthcoming extensions had to be anticipated based on the approaches taken for WCS 1.1 and 1.0. The implementation will be adjusted as soon as new specification documents become available.
If you want to use libxml2 or its derived tools (like xmllint) for validation be aware that there is a currently bug in libxml2 that breaks the validation of GML 3.2.1.
Credits¶
Support for per-layer creation options has been funded by Meteorological Service of Canada.