Awesome
EODMS API Client
A Python3 package for querying, ordering and downloading from the REST API provided by Natural Resources Canada's Earth Observation Data Management System (EODMS).
Heavily influenced by the utterly fantastic sentinelsat
package: https://github.com/sentinelsat/sentinelsat
Usage:
Full documentation and real-world example on GitHub Pages!
Quickstart:
Create a new environment with conda
conda create -n eodms-env eodms-api-client -c conda-forge
conda activate eodms-env
... or install with pip
Warning Pip is not recommended
- may clobber your existing Python environment
- may be problematic with Windows+GDAL
pip install eodms-api-client
Use the CLI
Given a geojson file containing search geometry (Point, Line, Polygon), query - but do not order - the RCM collection for products in the last 24hrs and dump the results to a geojson file for inspection (query_results.geojson
)
eodms -c RCM -g query_aoi.geojson --dump-results
Same query as above, but this time submit an order for all products found by the query instead of saving a result file
eodms -c RCM -g query_aoi.geojson --submit-order
After submitting an order, this package will return a list of Order IDs that users should take note of as these will be used to download the imagery once the order is complete:
eodms -c RCM --order-id [integer Order ID]
If your order produced several Order IDs (e.g. more than 50 images ordered at once), you may wish to create a text file of line-separated Order IDs to feed to the package:
eodms -c RCM --order-ids [path to text file containing integer Order IDs]
Use interactively in a Python REPL
Repeating the same query as the CLI example above in a Python REPL allows you to manually inspect the results and do all sorts of interesting things with the query result geodataframe.
For example, one may wish to inspect the image metadata to check approximate download sizes. One may also want to inspect the image footprints to ensure that they are ordering only the images which have most-optimal coverage of their query_aoi.geojson
.
>>> from eodms_api_client import EodmsAPI
>>> x = EodmsAPI(collection='RCM')
>>> x.query(geometry='query_aoi.geojson')
>>> type(x.results)
geopandas.geodataframe.GeoDataFrame
List of possible CLI arguments
eodms --help
Usage: eodms [OPTIONS]
Options:
-u, --username TEXT EODMS username (leave blank to use .netrc or
be prompted)
-p, --password TEXT EODMS password (leave blank to use .netrc or
be prompted)
-c, --collection TEXT EODMS collection to search [required]
-s, --start TEXT Beginning of acquisition time window
(default to 1 day prior to now)
-e, --end TEXT End of acquisition time window (default to
now)
-g, --geometry PATH File containing vector feature(s) used to
constrain the query results to a spatial
region
-pt, --product-type TEXT Limit results to a certain image product
type
-pf, --product-format [GeoTIFF|NITF21]
Limit results to a certain image product
format
-sr, --spatial-resolution TEXT Limit results to the desired spatial
resolution
-rel, --relative-orbit TEXT Limit results to the desired relative orbit
Id
-abs, --absolute-orbit TEXT Limit results to the desired absolute orbit
Id
-ia, --incidence-angle TEXT Limit results to the desired incidence angle
-ial, --incidence-angle-low TEXT
Limit results to scenes that have incidence
angles greater than this value (degrees)
-iah, --incidence-angle-high TEXT
Limit results to scenes that have incidence
angles less than this value (degrees)
-rb, --radarsat-beam-mode TEXT Limit SAR collection results to the desired
beam mode
-rm, --radarsat-beam-mnemonic TEXT
Limit SAR collection results to the desired
beam mnemonic
-rp, --radarsat-polarization [CH CV|HH|HH HV|HH HV VH VV|HH VV|HV|VH|VH VV|VV]
Limit SAR collection results to the desired
polarization
-ro, --radarsat-orbit-direction [Ascending|Descending]
Limit SAR collection results to the desired
orbit type
-rl, --radarsat-look-direction [Left|Right]
Limit SAR collection results to the desired
antenna look direction
-rd, --radarsat-downlink-segment-id TEXT
Limit SAR collection results to the desired
downlink segment Id
-rs, --rcm-satellite [RCM1|RCM2|RCM3]
Limit RCM collection results to the desired
satellite
-cc, --cloud-cover TEXT Limit optical results to have less than this
amount of cloud cover [0-100]
-rn, --roll-number TEXT Limit NAPL results to the given roll number
-pn, --photo-number TEXT Limit NAPL results to the given photo number
--priority [Low|Medium|High|Urgent]
What priority to use when submitting orders
[default: Medium]
-o, --output-dir DIRECTORY Directory where query results and downloaded
imagery will be saved [default: .]
-dr, --dump-results Whether or not to create a geojson dump
containing the results of the query
-dfn, --dump-filename TEXT Filename for query results geojson
[default: query_results]
--submit-order Submit an order to EODMS from the results of
the current query parameters
--record-id INTEGER Specific Record Id to order from the desired
collection
--record-ids PATH File of line-separated Record Ids to order
from the desired collection
--order-id INTEGER Specific Order Id to download from EODMS
--order-ids PATH File of line-separated Order Ids to download
from EODMS
--verbose Use debug-level logging
--version Show the package version
-h, --help Show this message and exit.
ToDo:
- query RCM
- query and order RCM
- order with provided record Ids (no query necessary)
- download given item Ids (no query or order submission necessary)
- blindly order (skip extra metadata fetching, just order whatever is returned by query)
- add support for other collections:
- Radarsat2 (WIP)
- Radarsat1 (WIP)
- PlanetScope (WIP)
- add multi-select functionality for supported collection parameters
- allow for collection-switching for an existing EodmsAPI instance (must re-evaluate params and rebuild search_url)
- readthedocs documentation