Difference between revisions of "Dataverse"
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==Workflow== | ==Workflow== | ||
*The proposed workflow consists of issuing API calls to Dataverse, receiving content (data files and metadata) for ingest into Archivematica, preparing Archivematica Archival Information Packages (AIPs) and placing them in archival storage, and updating the Dataverse study with the AIP UUIDs. | *The proposed workflow consists of issuing API calls to Dataverse, receiving content (data files and metadata) for ingest into Archivematica, preparing Archivematica Archival Information Packages (AIPs) and placing them in archival storage, and updating the Dataverse study with the AIP UUIDs. | ||
| − | *Analysis is based on Dataverse tests using [https://apitest.dataverse.org | + | *Analysis is based on Dataverse tests using [https://apitest.dataverse.org https://apitest.dataverse.org] and [https://demo.dataverse.org https://demo.dataverse.org], online documentation at http://guides.dataverse.org/en/latest/api/index.html and discussions with Dataverse developers and users. |
*Proposed integration is for Archivematica 1.5 and higher and Dataverse 4.x. | *Proposed integration is for Archivematica 1.5 and higher and Dataverse 4.x. | ||
Revision as of 16:27, 17 November 2015
Main Page > Documentation > Requirements > Dataverse
This page tracks development of a proof of concept integration of Archivematica with Dataverse.
See also
Overview
This wiki captures requirements for ingesting studies (datasets) from Dataverse into Archivematica for long-term preservation.
Workflow
- The proposed workflow consists of issuing API calls to Dataverse, receiving content (data files and metadata) for ingest into Archivematica, preparing Archivematica Archival Information Packages (AIPs) and placing them in archival storage, and updating the Dataverse study with the AIP UUIDs.
- Analysis is based on Dataverse tests using https://apitest.dataverse.org and https://demo.dataverse.org, online documentation at http://guides.dataverse.org/en/latest/api/index.html and discussions with Dataverse developers and users.
- Proposed integration is for Archivematica 1.5 and higher and Dataverse 4.x.
Workflow diagram
Workflow diagram notes
[1] "Ingest script" refers to an automation tool designed to automate ingest into Archivematica for bulk processing. An existing automation tool would be modified to accomplish the tasks described in the workflow.
[2] A new or updated study is one that has been published, either for the first time or as a new version, since the last API call.
[3] The json file contains citation and other study-level metadata, an entity_id field that is used to identify the study in Dataverse, version information, a list of data files with their own entity_id values, and md5 checksums for each data file.
[4] If json file has content_type of tab separated values, Archivematica issues API call for multiple file ("bundled") content download. This returns a zipped package for tsv files containing the .tab file, the original uploaded file, several other derivative formats, a DDI XML file and file citations in Endnote and RIS formats.
[5] The METS file will consist of a dmdSec containing the DC elements extracted from the json file, and a fileSec and structMap indicating the relationships between the files in the transfer (eg. original uploaded data file, derivative files generated for tabular data, metadata/citation files). This will allow Archivematica to apply appropriate preservation micro-services to different filetypes and provide an accurate representation of the study in the AIP METS file (step 1.9).
[6] Archivematica ingests all content returned from Dataverse, including the json file, plus the METS file generated in step 1.6.
[7] Standard and pre-configured micro-services include: assign UUID, verify checksums, generate checksums, extract packages, scan for viruses, clean up filenames, identify formats, validate formats, extract metadata and normalize for preservation.
Transfer METS file
When the ingest script retrieves content from Dataverse, it generates a METS file to allow Archivematica to understand the contents of the transfer and the relationships between its various data and metadata files.
Sample transfer METS file
Original Dataverse study retrieved through API call:
- dataset.json (a JSON file generated by Dataverse consisting of study-level metadata and information about data files)
- Study_info.pdf (a non-tabular data file)
- A zipped bundle consisting of the following:
- YVR_weather_data.sav (an SPSS SAV file uploaded by the researcher)
- YVR_weather_data.tab (a TAB file generated from the SPSS SAV file by Dataverse)
- YVR weather_data.RData (an R file generated from the SPSS SAV file by Dataverse)
- YVR_weather_data-ddi.xml, YVR_weather_datacitation-endnote.xml, and YVR_weather_datacitation-ris.ris (three metadata files generated for the TAB file by Dataverse)
Resulting transfer METS file
- The fileSec in the METS file consists of three file groups, USE="original" (the PDF and SAV files); USE="derivative" (the TAB and R files); and USE="metadata" (the JSON file and the three metadata files from the zipped bundle).
- All of the files unpacked from the Dataverse bundle have a GROUPID attribute to indicate the relationship between them. If the transfer had consisted of more than one bundle, each set of unpacked files would have its own GROUPID.
- Three dmdSecs have been generated:
- dmdSec_1, consisting of a small number of study-level DDI terms
- dmdSec_2, consisting of an mdRef to the JSON file
- dmdSec_3, consisting of an mdRef to the DDI XML file
- In the structMap, dmdSec_1 and dmdSec_2 are linked to the study as a whole, while dmdSec_3 is linked to the TAB file. The endnote and ris files have not been made into dmdSecs because they contain small subsets of metadata which are already captured in dmdSec_1 and the DDI xml file.
Metadata sources for METS file
| METS element | Information source | Notes |
|---|---|---|
| ddi:titl | json: citation/typeName: "title", value: [value] | |
| ddi:IDNo | json: authority, identifier | json example: "authority": "10.5072/FK2/", "identifier": "0MOPJM" |
| ddi:IDNo agency attribute | json: protocol | json example: "protocol": "doi" |
| ddi:AuthEntity | json: citation/typeName: "authorName" | |
| ddi:distrbtr | Config setting in ingest tool | |
| ddi:version date attribute | json: "releaseTime" | |
| ddi:version type attribute | json: "versionState" | |
| ddi:version | json: "versionNumber", "versionMinorNumber" | |
| ddi:restrctn | json: "termsOfUse" | |
| fileGrp USE="original" | json: datafile | Each non-tabular data file is listed as a datafile in the files section. Each TAB file derived by Dataverse for uploaded tabular file formats is also listed as a datafile, with the original file uploaded by the researcher indicated by "originalFileFormat". |
| fileGrp USE="derivative" | All files that are included in a bundle, except for the original file and the metadata files (see below). | |
| fileGrp USE="metadata" | Any files with .json or .ris extension, any -ddi.xml files and -endnote.xml files | |
| CHECKSUM | json: datafile/"md5": [value] | |
| CHECKSUMTYPE | json: datafile/"md5" | |
| GROUPID | Generated by ingest tool. Each file unpacked from a bundle is given the same group id. |
AIP METS file
Basic METS file structure
The Archival Information Package (AIP) METS file will follow the basic structure for a standard Archivematica AIP METS file described at METS. A new fileGrp USE="derivative" will be added to indicate TAB, RData and other derivatives generated by Dataverse for uploaded tabular data format files.
dmdSecs in AIP METS file
The dmdSecs in the transfer METS file will be copied over to the AIP METS file.
Additions to PREMIS for derivative files
In the PREMIS Object entity, relationships between original and derivative tabular format files from Dataverse will be described using PREMIS relationship semantic units. A PREMIS derivation event will be added to indicate the derivative file was generated from the original file, and a Dataverse Agent will be added to indicate the Event were carried out by Dataverse prior to ingest, rather than by Archivematica.
Note We originally considered adding a creation event for the derivative files as well, but decided that it's not necessary as the event can be inferred from the derivation event and the PREMIS object relationships.
Note "Derivation" is not an event type on the Library of Congress controlled vocabulary list at http://id.loc.gov/vocabulary/preservation/eventType.html. However, we have submitted it as a proposed new term at http://premisimplementers.pbworks.com/w/page/102413902/Preservation%20Events%20Controlled%20Vocabulary - a list of new terms that is being considered by the PREMIS Editorial Committee.
Example:
Original SPSS SAV file
<premis:relationship>
<premis:relationshipType>derivation</premis:relationshipType>
<premis:relationshipSubType>is source of</premis:relationshipSubType>
<premis:relatedObjectIdentification>
<premis:relatedObjectIdentifierType>UUID</premis:relatedObjectIdentifierType>
<premis:relatedObjectIdentifierValue>[TAB file UUID]</premis:relatedObjectIdentifierValue>
<premis:relationship>
...
<premis:eventIdentifier>
<premis:eventIdentifierType>UUID</premis:eventIdentifierType>
<premis:eventIdentifierValue>[Event UUID assigned by Archivematica]</premis:eventIdentifierValue>
</premis:eventIdentifier>
<premis:eventType>derivation</premis:eventType>
<premis:eventDateTime>2015-08-21</premis:eventDateTime>
<premis:linkingAgentIdentifier>
<premis:linkingAgentIdentifierType>URI</premis:linkingAgentIdentifierType>
<premis:linkingAgentIdentifierValue>http://dataverse.scholarsportal.info/dvn/</premis:linkingAgentIdentifierValue>
</premis:linkingAgentIdentifier>
...
<premis:agentIdentifier>
<premis:agentIdentifierType>URI</premis:agentIdentifierType>
<premis:agentIdentifierValue>http://dataverse.scholarsportal.info/dvn/</premis:agentIdentifierValue>
</premis:agentIdentifier>
<premis:agentName>SP Dataverse Network</premis:agentName>
<premis:agentType>organization</premis:agentType>
Derivative TAB file
<premis:relationship>
<premis:relationshipType>derivation</premis:relationshipType>
<premis:relationshipSubType>has source</premis:relationshipSubType>
<premis:relatedObjectIdentification>
<premis:relatedObjectIdentifierType>UUID</premis:relatedObjectIdentifierType>
<premis:relatedObjectIdentifierValue>[SPSS SAV file UUID]</premis:relatedObjectIdentifierValue>
<premis:relationship>
Fixity check for checksums received from Dataverse
<premis:eventIdentifier>
<premis:eventIdentifierType>UUID</premis:eventIdentifierType>
<premis:eventIdentifierValue>[Event UUID assigned by Archivematica]</premis:eventIdentifierValue>
</premis:eventIdentifier>
<premis:eventType>fixity check</premis:eventType>
<premis:eventDateTime>2015-08-21</premis:eventDateTime>
<premis:eventDetail>program="python"; module="hashlib.sha256()"</premis:eventDetail>
<premis:eventOutcomeInformation>
<premis:eventOutcome>Pass</premis:EventOutcome>
<premis:eventOutcomeDetail>
<premis:eventOutcomeDetailNote>Dataverse checksum 91b65277959ec273763d28ef002e83a6b3fba57c7a35436c9e5b66536333d720 verified</premis:eventOutcomeDetailNote>
</premis:eventOutcomeDetail>
<premis:eventOutcomeInformation>
</premis:linkingAgentIdentifier>
<premis:linkingAgentIdentifierType>preservation system</premis:linkingAgentIdentifierType>
<premis:linkingAgentIdentifierValue>Archivematica 1.4.1</premis:linkingAgentIdentifierValue>
</premis:linkingAgentIdentifier>