<img src=“https://travis-ci.com/sosol/sosol.svg?branch=master” alt=“Build Status” />
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Java SE 8+ (1.8+)
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JRuby (9.3.4.0) - Preferably managed through rbenv.
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Bundler (2.2.10+) (gem install bundler)
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Git (1.7.1+)
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get source from GitHub: git clone github.com/sosol/sosol.git
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copy in/create config/environments/*_secret.rb (where * is development, test, production - sets config.rpx_api_key and config.rpx_realm, can get these by creating an RPX account), e.g.:
Sosol::Application.configure do config.rpx_api_key = '0cdf56769f20a2b73a929ac3ba633152' config.rpx_realm = 'sosol-development' end
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If you have rbenv installed with the ruby-build plugin, running ./script/setup will run the following setup commands for you (though you can run them one-by-one manually instead if you want to have a chance to intervene if things go wrong):
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rbenv install
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gem install bundler
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bundle install
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bundle exec cap local externals:setup
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bundle exec rake db:migrate
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bundle exec rake git:db:canonical:clone
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bundle exec rake test
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bundle exec rails server
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app/ application code
controllers/ controller code
helpers/ shared helper code
models/ model code
views/ view code/templates
config/ application configuration
boot.rb Rails boot script
database.yml Rails database configuration
deploy.rb Capistrano deployment file
environment.rb Rails environment script (defines gem deps, etc.)
environments/ environment-specific override scripts (i.e. for production, development, testing)
externals.yml Capistrano external definitions, used for freezing external dependencies
hgv.yml
initializers/ Rails initializer scripts
locales/ Rails i18n locales
routes.rb Rails route configuration
warble.rb Warbler configuration, for packing app into .war file
data/ application data
lookup/ XML lookup files for HGV
templates/ data templates, e.g. for new documents
xslt/ XSLT data
biblio/ XSLT for BiblioIdentifier
common/ Shared XSLT files
ddb/ XSLT for DDBIdentifier
epidoc/ Capistrano-defined external XSLT from EpiDoc example-p5-xslt
metadata/ XSLT for HGVMetaIdentifier
pn/ PN XSLT
navigator/ Capistrano-defined external XSLT from Navigator
translation/ XSLT for HGVTransIdentifier
db/ database data (SQLite for development/testing, Git repositories)
git/ development/production Git repositories
migrate/ Rails database migration scripts
test/ test environment git repositories
doc/ generated documentation
lib/ shared application libraries
java/ Java JAR files, usable by JRuby
jruby_xml.rb JRubyXML class for abstracting Java XML libraries
linking_info.rb LinkingInfo class
maintenance_mode.rb MaintenanceMode module, enables cap deploy:web:enable/disable
numbers_rdf.rb NumbersRDF module, for interaction with Numbers Server
rpx.rb Rpx module, for RPX authentication
tasks/ Additional rake task definitions
log/ running application log directory
public/ static web application data (error pages, JS, CSS, images)
flash/ Flash files
images/ image files
javascripts/ JS files
stylesheets/ CSS files
sass/ SASS source files for generated CSS
test/ test code
fixtures/ test fixtures
functional/ functional tests
integration/ integration tests
unit/ unit tests
tmp/ temporary data
vendor/ 3rd-party code (i.e. frozen gems)
The Son of Suda On Line (SoSOL) is one of the main components of the Integrating Digital Papyrology project (IDP), aiming to provide a repurposable web-based editor for the digital resources in the DDbDP and HGV. SoSOL integrates a number of technologies to provide a truly next-generation online editing environment. Using JRuby with the Rails web framework, it is able to take advantage of Rails’s wide support in the web development community, as well as Java’s excellent XML libraries and support. This includes the use of XSugar to define an alternate, lightweight syntax for EpiDoc XML markup, called Leiden+. Because XSugar uses a single grammar to define both syntaxes in a reversible and bidirectional manner, this is ideal for reducing side effects of transforming text in our version-controlled system. SoSOL uses the Git distributed version control system as its versioning backend, allowing it to use the powerful branching and merging strategies it provides, and enabling fully-auditable version control. SoSOL also provides for editorial control of changes to the main data repository, enabling the democracy of allowing anyone to change anything they choose while preserving the academic integrity of canonical published data.
Many online editing environments, such as MediaWiki, use an SQL database as the sole mechanism for storing revisions. This can lead to a number of problems, such as scaling (most SQL servers are not performance optimized for large text fields) and distribution of data (see for example the database downloads of the English Wikipedia, which have been notoriously problematic for obtaining the full revision history). Most importantly, they typically impose a centralized, linear, single-branch version history. Because Git is a distributed version control system, it does not impose any centralized workflow. As a result, branching and merging have been given high priority in its development, allowing for much more concurrent editing activity while minimizing the difficulty of merging changes. SoSOL’s use of Git is to have one “canonical”Git repository for public, approved data and to which commits are restricted. Users and boards each get their own Git repositories which act as forks of the canonical repository. This allows them to freely make changes to their repository while preserving the version history as needed when these changes are merged back into the canonical repository. These repositories can also be easily mirrored, downloaded, and worked with offline and outside of SoSOL due to the distributed nature of Git. This enables a true democracy of data, wherein institutions still retain control and approval of the data which they put their names on, but any individual may easily obtain the full dataset and revision history to edit, contribute to, and republish under the terms of license.
While XML encoding has many advantages, users inexperienced with its use may find its syntax difficult or verbose. It is still desirable to harness the expertise of these users in other areas and ease their ability to add content to the system, while retaining the semantically explicit nature of XML markup. To do this, we have used XSugar to allow the definition of a “tagless” syntax for EpiDoc XML, which resembles that of the traditional printed Leiden conventions for epigraphic and papyrological texts where possible. Structures which are semantically ambiguous or undefined in Leiden but available in EpiDoc (e.g. markup of numbers and their corresponding value) have been given additional text markup, referred to comprehensively as Leiden+. XSugar enables the definition of this syntax in a single, bidirectional grammar file which defines all components of both Leiden+ and EpiDoc XML as correspondences, which can be statically checked for reversibility and validity. This provides much more rigorous guarantees of these properties than alternatives such as using separate XSLT stylesheets for each direction of the transform, as well as encoding the relation between the components of each syntax in a single location.
Due to institutional requirements, the DDbDP and HGV datasets needed separate editorial control and publishing mechanisms. In addition, their control over different types of content necessitated different editing mechanisms for each component. These requirements informed the design of how SoSOL interacts with data under its control and how this design is repurposable for use in other projects. The two high-level abstractions of data made by SoSOL are “publications” and “identifiers”. Identifiers are unique strings which can be mapped to a specific file path in the repository, while publications are arbitrary aggregations of identifiers. By defining an identifier superclass which defines common functionality for interacting with the data repository, we can then subclass this to provide functionality specific to a given category of data. The SoSOL implementation for IDP2, for example, provides identifier subclasses for DDbDP transcriptions, HGV metadata, and HGV translations. Editorial boards consequently have editorial control for only certain subclasses of identifiers. Publications in turn allow representation and aggregation of the complex many-to-many relationships these components can have (for example, a document with two sides that may have one transcription and two metadata components). Packaging these related elements together both allows the user to switch between them and editorial boards to check related data which they may not have editorial control over but still require to make informed decisions about validity and approval. SoSOL can thus be integrated into other systems by implementing the identifier subclasses necessary for the given dataset as well as coherent means for aggregating these components into publications.
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Initialize with:
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git clone –bare git://github.com/papyri/idp.data.git CANONICAL_REPOSITORY
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where CANONICAL_REPOSITORY is the path defined in config/environment.rb, defaulting to REPOSITORY_ROOT/canonical.git. For WAR-based deploy will want to change REPOSITORY_ROOT to an absolute path as noted.
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Data now also mirrored [github.com/papyri/idp.data on GitHub]
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“jruby -S bundle exec rails -e production” should give you a console for the production environment (keep in mind things like DB/Git access, you’ll need to run this from a location that can access those resources, the source, and the correct configs for your production environment)
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from here you can give users admin privileges by e.g.:
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me = User.find_by_name(‘rfbaumann’)
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me.admin = true
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me.save!
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can completely reset the database with “jruby -S bundle exec rake RAILS_ENV=production db:reset”
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note that this ”won’t” run AR callbacks, so you need to clear user/board git repos:
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if you plan on ”‘keeping”’ canonical (aka repo 3) i.e. not deleting it and recloning from the Git SVN copy, you need to first ensure that it has all finalized objects and remove the user repos you’ll delete from its alternates file:
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cd REPOSITORY_ROOT/canonical.git && git repack && echo “” > objects/info/alternates
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can check integrity afterwards with “git fsck”
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rm -rf REPOSITORY_ROOT/boards/*.git REPOSITORY_ROOT/users/*.git
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can also delete every model instance from the console with e.g. User.all.each{|u| u.destroy} but this can be tedious if there are loose instances of other models that aren’t dependent-destroyed
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to start a local XSugar standalone server:
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in vendor/plugins/rxsugar/src/standalone run mvn:install and mvn:jetty run
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jruby -S rake RAILS_ENV=production db:migrate
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jruby -S rake RAILS_ENV=production db:structure:dump
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CREATE DATABASE sosol
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GRANT all on database sosol to ‘sosoladmin’@‘localhost’ identified by ‘s0s0ladm1n’
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GRANT all on database sosol to ‘sosoladmin’@‘%’ identified by ‘s0s0ladm1n’
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cat production_structure.sql | mysql -u sosoladmin -p sosol