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contentid
seeks to facilitate reproducible workflows
that involve external data files through the use of content
identifiers.
Install the current development version using:
# install.packages("remotes")
::install_github("cboettig/contentid") remotes
library(contentid)
Instead of reading in data directly from a local file or URL, use
register()
to register permanent content-based identifiers
for your external data file or URL:
register("https://knb.ecoinformatics.org/knb/d1/mn/v2/object/ess-dive-457358fdc81d3a5-20180726T203952542")
#> [1] "hash://sha256/9412325831dab22aeebdd674b6eb53ba6b7bdd04bb99a4dbb21ddff646287e37"
Then, resolve()
that content-based identifier in your
scripts for more reproducible workflow. Optionally, set
store=TRUE
to enable local caching:
<- resolve("hash://sha256/9412325831dab22aeebdd674b6eb53ba6b7bdd04bb99a4dbb21ddff646287e37",
vostok store = TRUE)
resolve
will download and cryptographically verify the
identifier matches the content, returning a local file path. Use that
file path in the of our analysis script, e.g.
<- read.table(vostok,
co2 col.names = c("depth", "age_ice", "age_air", "co2"), skip = 21)
R users frequently write scripts which must load data from an external file – a step which increases friction in reuse and creates a common failure point in reproducibility of the analysis later on. Reading a file directly from a URL is often preferable, since we don’t have to worry about distributing the data separately ourselves. For example, an analysis might read in the famous CO2 ice core data directly from ORNL repository:
<- read.table("https://knb.ecoinformatics.org/knb/d1/mn/v2/object/ess-dive-457358fdc81d3a5-20180726T203952542",
co2 col.names = c("depth", "age_ice", "age_air", "co2"), skip = 21)
However, we know that data hosted at a given URL could change or disappear, and not all data we want to work with is available at a URL to begin with. Digital Object Identifiers (DOIs) were created to deal with these problems of ‘link rot’. Unfortunately, there is no straight forward and general way to read data directly from a DOI, (which almost always resolves to a human-readable webpage rather than the data itself), often apply to collections of files rather than individual source we want to read in our script, and we must frequently work with data that does not (yet) have a DOI. Registering a DOI for a dataset has gotten easier through repositories with simple APIs like Zenodo and figshare, but this is still an involved process and still leaves us without a mechanism to directly access the data. For instance, the data referenced above has DOI https://doi.org/10.3334/CDIAC/ATG.009, but this is still not easy to work directly into our R scripts.
contentid
offers a complementary approach to addressing
this challenge, which will work with data that has (or will later
receive) a DOI, but also with arbitrary URLs or with local files. The
basic idea is quite similar to referencing data by DOI: we first
“register” an identifier, and then we use that identifier to retrieve
the data in our scripts:
register("https://knb.ecoinformatics.org/knb/d1/mn/v2/object/ess-dive-457358fdc81d3a5-20180726T203952542")
#> [1] "hash://sha256/9412325831dab22aeebdd674b6eb53ba6b7bdd04bb99a4dbb21ddff646287e37"
Registering the data returns an identifier that we can
resolve
in our scripts to later read in the file:
<- resolve("hash://sha256/9412325831dab22aeebdd674b6eb53ba6b7bdd04bb99a4dbb21ddff646287e37")
co2_file <- read.table(co2_file,
co2_b col.names = c("depth", "age_ice", "age_air", "co2"), skip = 21)
Note that we have manually embedded the identifier in our script,
rather than automatically passing the identifier returned by
register()
directly to resolve. The command to
register()
needs to only be run once, and thus doesn’t need
to be embedded in our script (though it is harmless to include it, as it
will always return the same identifier unless the data file itself
changes).
We can confirm this is the same data:
identical(co2, co2_b)
#> [1] TRUE
As the identifier (hash://sha256/...
) itself suggests,
this is merely the SHA-256 hash of the requested file. This means that
unless the data at that URL changes, we will always get that same
identifier back when we register that file. If we have a copy of that
data someplace else, we can verify it is indeed precisely the same data.
For instance, contentid
includes a copy of this file as
well. Registering the local copy verifies that it indeed has the same
hash:
<- system.file("extdata", "vostok.icecore.co2", package = "contentid")
co2_file_c register(co2_file_c)
#> [1] "hash://sha256/9412325831dab22aeebdd674b6eb53ba6b7bdd04bb99a4dbb21ddff646287e37"
We have now registered the same content at two locations: a URL and a
local file path. resolve()
will use this registry
information to access the requested content. resolve()
will
choose a local path first, allowing us to avoid re-downloading any
content we already have. resolve()
will verify the content
of any local file or file downloaded from a URL matches the requested
content hash before returning the path. If the file has been altered in
any way, the hash will no longer match and resolve()
will
try the next source.
We can get a better sense of this process by querying for all available sources for our requested content:
sources("hash://sha256/9412325831dab22aeebdd674b6eb53ba6b7bdd04bb99a4dbb21ddff646287e37")
#> # A tibble: 5 × 2
#> source date
#> <chr> <dttm>
#> 1 /usr/local/lib/R/site-library/contentid/extdata/vostok.ic… 2022-12-01 17:39:31
#> 2 /tmp/Rtmps8N03b/sha256/94/12/9412325831dab22aeebdd674b6eb… 2022-12-01 17:39:30
#> 3 https://archive.softwareheritage.org/api/1/content/sha256… 2022-12-01 17:39:31
#> 4 https://knb.ecoinformatics.org/knb/d1/mn/v2/object/ess-di… 2022-12-01 17:39:31
#> 5 https://zenodo.org/api/files/5967f986-b599-4492-9a08-94ce… 2022-12-01 17:26:27
Note that sources()
has found more locations than we
have registered above. This is because in addition to maintaining a
local registry of sources, contentid
registers online
sources with the Hash Archive, https://hash-archive.org
.
(The Hash Archive doesn’t store content, but only a list of public links
at which content matching the hash has been seen.)
query_sources()
has also checked for this content on the
Software Heritage Archive, which does periodic crawls of all public
content on GitHub which have also picked up a copy of this exact file.
With each URL is a date at which it was last seen - repeated calls to
register()
will update this date, or lead to a source being
deprecated for this content if the content it serves no longer matches
the requested hash. We can view the history of all registrations of a
given source using history_url()
.
This approach can also be used with local or unpublished data.
register()
ing a local file only creates an entry in
contentid
’s local registry, so this does not provide a
backup copy of the data or a mechanism to distribute it to
collaborators. But it does provide a check that the data has not
accidentally changed on our disk. If we move the data or eventually
publish the data, we have only to register these new locations and we
never need to update a script that accesses the data using calls to
resolve()
like
read.table(resolve("hash://sha256/xxx..."))
rather than
using local file names.
If we prefer to keep a local copy of a specific dataset around,
(e.g. for data that is used frequently or used across multiple
projects), we can instruct resolve()
to store a persistent
copy in contentid
’s local storage:
<- resolve("hash://sha256/9412325831dab22aeebdd674b6eb53ba6b7bdd04bb99a4dbb21ddff646287e37",
co2_file store = TRUE)
Any future calls to resolve()
with this hash on this
machine will then always be able to load the content from the local
store. This provides a convenient way to cache downloads for future use.
Because the local store is based on the content identifier, repeatedly
storing the same content will have no effect, and we cannot easily
overwrite or accidentally delete this content.
register()
and resolve()
provide a
low-friction mechanism to create a permanent identifier for external
files and then resolve that identifier to an appropriate source. This
can be useful in scripts that are frequently re-run as a way of caching
the download step, and simultaneously helps ensure the script is more
reproducible. While this approach is not fail-proof (since all
registered locations could fail to produce the content), if all else
fails our script itself still contains a cryptographic fingerprint of
the data we could use to verify if a given file was really the one
used.
contentid
is largely based on the design and
implementation of https://hash-archive.org
, and can
interface with the https://hash-archive.org
API or mimic it
locally. contentid
also draws inspiration from Preston, a biodiversity
dataset tracker, and Elton, a
command-line tool to update/clone, review and index existing species
interaction datasets.
This work is funded in part by grant NSF OAC 1839201 from the National Science Foundation.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.
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