If you have access to machine running inside Amazon
us-west-2 (e.g. a NASA Openscapes JupyterHub or
the ability to create a VM in EC2 using this compute region), you will
be able to access NOAA EarthData using the S3 interface. This may offer
slightly better performance than using the universal https interface
which routes data through a proxy, but is rarely necessary. This
approach is documented only for the sake of completeness. Use the http
interface whenever possible!
(In future, this mechanism may also work with private S3 credentials in a ‘requester-pays’ model, charging for data egress rather than compute. For more context on access mechanisms for NASA EarthData see the motivations vignette).
Authentication via the S3 mechanism is an alternative to
authentication via Bearer tokens over the http interface. Do
not use edl_set_token(), you may want to use
edl_unset_token() to ensure only one mechanism is in
use.
There are three important issues to keep in mind if you ever chose to use the S3 token mechanism to access EarthData. (Please note that again these issues are specific to EarthData due to concerns about billing, and do not represent general statements about working with spatial data on the S3 protocol more generally!) Unlike the https mechanism, EarthData S3 authentication tokens:
us-west-2 data
center(Please note that these restrictions are more-or-less specific to how NASA has configured access to their AWS buckets. S3 tokens are widely used to access all kinds of data in various workflows, but these restrictions are rarely put in place.)
library(earthdatalogin)
library(rstac)
library(gdalcubes)
gdalcubes_options(parallel = TRUE)
gdal_cloud_config()To create our S3 tokens, we use edl_s3_token. Note that
we must specify the endpoint of the DAAC we are trying to access –
e.g. the LP DAAC in this case. Remember, this token will only
work from within the us-west-2 hub, only for LP DAAC data,
and will expire 1 hr after it is issued.
We can search the STAC API as in any other case. This step does not require any authentication.
bbox <- c(xmin=-122.5, ymin=37.5, xmax=-122.0, ymax=38)
start <- "2022-01-01"
end <- "2022-06-30"
# Find all assets from the desired catalog:
items <- stac("https://cmr.earthdata.nasa.gov/stac/LPCLOUD") |>
stac_search(collections = "HLSL30.v2.0",
bbox = bbox,
datetime = paste(start,end, sep = "/")) |>
post_request() |>
items_fetch() |>
items_filter(filter_fn = \(x) {x[["eo:cloud_cover"]] < 20})The STAC search returns item metadata including links to the data
object as https URLs. While these are ideal for the bearer token access,
we want to convert these to S3-style addresses. The function
gdalcubes::stac_image_collection() actually takes an
optional argument for how URLs should be handled. The helper function
edl_as_s3() provides a convenient way to do this (a trivial
step, we just remove the domain name and replace it with GDAL’s S3
prefix, /vsis3):
col <-
stac_image_collection(items$features,
asset_names = c("B02", "B03", "B04", "Fmask"),
url_fun = \(url) edl_as_s3(url, prefix = "/vsis3/"))# Desired data cube shape & resolution
v = cube_view(srs = "EPSG:4326",
extent = list(t0 = as.character(start),
t1 = as.character(end),
left = bbox[1], right = bbox[3],
top = bbox[4], bottom = bbox[2]),
nx = 2048, ny = 2048, dt = "P1M")
cloud_mask <- image_mask("Fmask", values=1) # mask clouds and cloud shadows
rgb_bands <- c("B04","B03", "B02")
# Here we go! note eval is lazy
raster_cube(col, v, mask=cloud_mask) |>
select_bands(rgb_bands) |>
plot(rgb=1:3)