GDAL based WCS Output Format¶
The gdal_translate based output format leverages the availability of the gdal_translate command to allow the generation of more output formats than GeoServer can natively produce. The basic idea is to dump to the file system a file that gdal_translate can translate, invoke it, zip and return the output of the translation.
This extension is thus the equivalent of the OGR extension for raster data.
Out of the box behaviour¶
Out of the box the plugin assumes the following:
gdal_translate is available in the path
the GDAL_DATA variable is pointing to the GDAL data directory (which stores the spatial reference information for GDAL)
In the default configuration the following formats are supported:
JPEG-2000 part 1 (ISO/IEC 15444-1)
Geospatial PDF
Arc/Info ASCII Grid
ASCII Gridded XYZ
The list might be shorter if gdal_translate has not been built with support for the above formats (for example, the default JPEG-2000 format relies on the JasPer-based GDAL driver).
Once installed in GeoServer, a bunch of new supported formats will be listed in the ServiceMetadata
section of the WCS 2.0 GetCapabilities document, e.g. image/jp2
and application/pdf
.
gdal_translate conversion abilities¶
The gdal_translate utility is usually able to convert more formats than the default setup of this output format allows for, but the exact list depends on how the utility was built from sources. To get a full list of the formats available by your ogr2ogr build just run:
gdal_translate --long-usage
and you’ll get the full set of options usable by the program, along with the supported formats.
For example, the above produces the following output using gdal 1.11.2 compiled with libgeotiff 1.4.0, libpng 1.6, libjpeg-turbo 1.3.1, libjasper 1.900.1 and libecwj2 3.3:
Usage: gdal_translate [--help-general] [--long-usage]
[-ot {Byte/Int16/UInt16/UInt32/Int32/Float32/Float64/
CInt16/CInt32/CFloat32/CFloat64}] [-strict]
[-of format] [-b band] [-mask band] [-expand {gray|rgb|rgba}]
[-outsize xsize[%] ysize[%]]
[-unscale] [-scale[_bn] [src_min src_max [dst_min dst_max]]]* [-exponent[_bn] exp_val]*
[-srcwin xoff yoff xsize ysize] [-projwin ulx uly lrx lry] [-epo] [-eco]
[-a_srs srs_def] [-a_ullr ulx uly lrx lry] [-a_nodata value]
[-gcp pixel line easting northing [elevation]]*
[-mo "META-TAG=VALUE"]* [-q] [-sds]
[-co "NAME=VALUE"]* [-stats] [-norat]
src_dataset dst_dataset
GDAL 1.11.2, released 2015/02/10
The following format drivers are configured and support output:
VRT: Virtual Raster
GTiff: GeoTIFF
NITF: National Imagery Transmission Format
HFA: Erdas Imagine Images (.img)
ELAS: ELAS
AAIGrid: Arc/Info ASCII Grid
DTED: DTED Elevation Raster
PNG: Portable Network Graphics
JPEG: JPEG JFIF
MEM: In Memory Raster
GIF: Graphics Interchange Format (.gif)
XPM: X11 PixMap Format
BMP: MS Windows Device Independent Bitmap
PCIDSK: PCIDSK Database File
PCRaster: PCRaster Raster File
ILWIS: ILWIS Raster Map
SGI: SGI Image File Format 1.0
SRTMHGT: SRTMHGT File Format
Leveller: Leveller heightfield
Terragen: Terragen heightfield
ISIS2: USGS Astrogeology ISIS cube (Version 2)
ERS: ERMapper .ers Labelled
ECW: ERDAS Compressed Wavelets (SDK 3.x)
JP2ECW: ERDAS JPEG2000 (SDK 3.x)
FIT: FIT Image
JPEG2000: JPEG-2000 part 1 (ISO/IEC 15444-1)
RMF: Raster Matrix Format
RST: Idrisi Raster A.1
INGR: Intergraph Raster
GSAG: Golden Software ASCII Grid (.grd)
GSBG: Golden Software Binary Grid (.grd)
GS7BG: Golden Software 7 Binary Grid (.grd)
R: R Object Data Store
PNM: Portable Pixmap Format (netpbm)
ENVI: ENVI .hdr Labelled
EHdr: ESRI .hdr Labelled
PAux: PCI .aux Labelled
MFF: Vexcel MFF Raster
MFF2: Vexcel MFF2 (HKV) Raster
BT: VTP .bt (Binary Terrain) 1.3 Format
LAN: Erdas .LAN/.GIS
IDA: Image Data and Analysis
LCP: FARSITE v.4 Landscape File (.lcp)
GTX: NOAA Vertical Datum .GTX
NTv2: NTv2 Datum Grid Shift
CTable2: CTable2 Datum Grid Shift
KRO: KOLOR Raw
ARG: Azavea Raster Grid format
USGSDEM: USGS Optional ASCII DEM (and CDED)
ADRG: ARC Digitized Raster Graphics
BLX: Magellan topo (.blx)
Rasterlite: Rasterlite
PostGISRaster: PostGIS Raster driver
SAGA: SAGA GIS Binary Grid (.sdat)
KMLSUPEROVERLAY: Kml Super Overlay
XYZ: ASCII Gridded XYZ
HF2: HF2/HFZ heightfield raster
PDF: Geospatial PDF
ZMap: ZMap Plus Grid
The full list of formats that gdal_translate is able to support is available on the GDAL site. Mind that this output format can handle only outputs that are file based and that do support creation. So, for example, you won’t be able to use the PostGIS Raster output (since it’s database based) or the Arc/Info Binary Grid (creation not supported).
Customisation¶
If gdal_translate is not available in the default path, the GDAL_DATA environment variable is not set, or if the output formats needs tweaking, a gdal_translate.xml
configuration file can be created to customize the output format. The file should be put inside a gdal
folder in the root of the GeoServer data directory.
Note
GeoServer will automatically detect any change to the file and reload the configuration, without a need to restart.
The default configuration is equivalent to the following xml file:
<ToolConfiguration>
<executable>gdal_translate</executable>
<environment>
<variable name="GDAL_DATA" value="/usr/local/share/gdal" />
</environment>
<formats>
<Format>
<toolFormat>JPEG2000</toolFormat>
<geoserverFormat>GDAL-JPEG2000</geoserverFormat>
<fileExtension>.jp2</fileExtension>
<singleFile>true</singleFile>
<mimeType>image/jp2</mimeType>
<type>binary</type> <!-- not really needed, it's the default -->
<option>-co</option>
<option>FORMAT=JP2</option>
</Format>
<Format>
<toolFormat>PDF</toolFormat>
<geoserverFormat>GDAL-PDF</geoserverFormat>
<fileExtension>.pdf</fileExtension>
<singleFile>true</singleFile>
<mimeType>application/pdf</mimeType>
<formatAdapters>
<GrayAlphaToRGBA/>
<PalettedToRGB/>
</formatAdapters>
</Format>
<Format>
<toolFormat>AAIGrid</toolFormat>
<geoserverFormat>GDAL-ArcInfoGrid</geoserverFormat>
<fileExtension>.asc</fileExtension>
<singleFile>false</singleFile>
</Format>
<Format>
<toolFormat>XYZ</toolFormat>
<geoserverFormat>GDAL-XYZ</geoserverFormat>
<fileExtension>.txt</fileExtension>
<singleFile>true</singleFile>
<mimeType>text/plain</mimeType>
<type>text</type>
</Format>
</formats>
</ToolConfiguration>
The file showcases all possible usage of the configuration elements:
executable
can be just gdal_translate if the command is in the path, otherwise it should be the full path to the executable. For example, on a Linux box with a custom build GDAL library might be:<executable>/usr/local/bin/gdal_translate</executable>
environment
contains a list ofvariable
elements, which can be used to define environment variables that should be set prior to invoking gdal_translate. For example, to setup a GDAL_DATA environment variable pointing to the GDAL data directory, the configuration might be:<environment> <variable name="GDAL_DATA" value="/usr/local/share/gdal" /> </environment>
Format
defines a single format, which is defined by the following tags:toolFormat
: the name of the format to be passed to gdal_translate with the -of option (case insensitive).geoserverFormat
: is the name of the output format as advertised by GeoServerfileExtension
: is the extension of the file generated after the translation, if any (can be omitted)option
: can be used to add one or more options to the gdal_translate command line. As you can see by the JPEG2000 example, each item must be contained in its ownoption
tag. You can get a full list of options by runninggdal_translate --help
or by visiting the GDAL web site). Also, consider that each format supports specific creation options, listed in the description page for each format (for example, here is the JPEG2000 one).singleFile
: if true the output of the conversion is supposed to be a single file that can be streamed directly back without the need to wrap it into a zip filemimeType
: the mime type of the file returned when usingsingleFile
. If not specifiedapplication/octet-stream
will be used as a default.formatAdapters
: transformations on the coverage that might need to be applied in order to successfully encode the output. The transformations are applied only if their input conditions are met.
The available format adapters are:
GrayAlphaToRGBA
: expands a gray image with alpha channel to RGBA (mandatory for geospatial PDF for example)PallettedToRGB
: expands a paletted image RGB(A) (mandatory for geospatial PDF for example)