How to Install and Uninstall postgresql-14-ogr-fdw Package on Kali Linux
Last updated: November 27,2024
Deprecated! Installation of this package may no longer be supported.
1. Install "postgresql-14-ogr-fdw" package
This guide let you learn how to install postgresql-14-ogr-fdw on Kali Linux
$
sudo apt update
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$
sudo apt install
postgresql-14-ogr-fdw
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2. Uninstall "postgresql-14-ogr-fdw" package
This tutorial shows how to uninstall postgresql-14-ogr-fdw on Kali Linux:
$
sudo apt remove
postgresql-14-ogr-fdw
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$
sudo apt autoclean && sudo apt autoremove
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3. Information about the postgresql-14-ogr-fdw package on Kali Linux
Package: postgresql-14-ogr-fdw
Source: pgsql-ogr-fdw
Version: 1.1.2-1
Installed-Size: 250
Maintainer: Debian GIS Project
Architecture: amd64
Provides: postgresql-ogr-fdw
Depends: postgresql-14, libc6 (>= 2.14), libgdal31 (>= 2.2.0)
Size: 103492
SHA256: 84cab00b55fffe0198a98e675144571ef92af8168918194df6eb973089aa118e
SHA1: fbd290496d29ebd546a060c96277df971c14247b
MD5sum: 425051bd5204a1c945477ad58b597ac7
Description: PostgreSQL foreign data wrapper for OGR
OGR is the vector half of the GDAL spatial data access library. It allows
access to a large number of GIS data formats using a simple C API for data
reading and writing. Since OGR exposes a simple table structure and PostgreSQL
foreign data wrappers allow access to table structures, the fit seems pretty
perfect.
.
This implementation currently has the following limitations:
* Only non-spatial query restrictions are pushed down to the OGR driver.
PostgreSQL foreign data wrappers support delegating portions of the SQL
query to the underlying data source, in this case OGR. This implementation
currently pushes down only non-spatial query restrictions, and only for the
small subset of comparison operators (>, <, <=, >=, =) supported by OGR.
* Spatial restrictions are not pushed down. OGR can handle basic bounding box
restrictions and even (for some drivers) more explicit intersection
restrictions, but those are not passed to the OGR driver yet.
* OGR connections every time Rather than pooling OGR connections, each query
makes (and disposes of) two new ones, which seems to be the largest
performance drag at the moment for restricted (small) queries.
* All columns are retrieved every time. PostgreSQL foreign data wrappers don't
require all columns all the time, and some efficiencies can be gained by
only requesting the columns needed to fulfill a query. This would be a
minimal efficiency improvement, but can be removed given some development
time, since the OGR API supports returning a subset of columns.
Description-md5: 5f6108f90edfb86f7c870551bc52f9e2
Homepage: https://github.com/pramsey/pgsql-ogr-fdw
Section: database
Priority: optional
Filename: pool/main/p/pgsql-ogr-fdw/postgresql-14-ogr-fdw_1.1.2-1_amd64.deb
Source: pgsql-ogr-fdw
Version: 1.1.2-1
Installed-Size: 250
Maintainer: Debian GIS Project
Architecture: amd64
Provides: postgresql-ogr-fdw
Depends: postgresql-14, libc6 (>= 2.14), libgdal31 (>= 2.2.0)
Size: 103492
SHA256: 84cab00b55fffe0198a98e675144571ef92af8168918194df6eb973089aa118e
SHA1: fbd290496d29ebd546a060c96277df971c14247b
MD5sum: 425051bd5204a1c945477ad58b597ac7
Description: PostgreSQL foreign data wrapper for OGR
OGR is the vector half of the GDAL spatial data access library. It allows
access to a large number of GIS data formats using a simple C API for data
reading and writing. Since OGR exposes a simple table structure and PostgreSQL
foreign data wrappers allow access to table structures, the fit seems pretty
perfect.
.
This implementation currently has the following limitations:
* Only non-spatial query restrictions are pushed down to the OGR driver.
PostgreSQL foreign data wrappers support delegating portions of the SQL
query to the underlying data source, in this case OGR. This implementation
currently pushes down only non-spatial query restrictions, and only for the
small subset of comparison operators (>, <, <=, >=, =) supported by OGR.
* Spatial restrictions are not pushed down. OGR can handle basic bounding box
restrictions and even (for some drivers) more explicit intersection
restrictions, but those are not passed to the OGR driver yet.
* OGR connections every time Rather than pooling OGR connections, each query
makes (and disposes of) two new ones, which seems to be the largest
performance drag at the moment for restricted (small) queries.
* All columns are retrieved every time. PostgreSQL foreign data wrappers don't
require all columns all the time, and some efficiencies can be gained by
only requesting the columns needed to fulfill a query. This would be a
minimal efficiency improvement, but can be removed given some development
time, since the OGR API supports returning a subset of columns.
Description-md5: 5f6108f90edfb86f7c870551bc52f9e2
Homepage: https://github.com/pramsey/pgsql-ogr-fdw
Section: database
Priority: optional
Filename: pool/main/p/pgsql-ogr-fdw/postgresql-14-ogr-fdw_1.1.2-1_amd64.deb