Taverna 2 Server Interaction Gem¶ ↑
BSD (See LICENCE or www.opensource.org/licenses/bsd-license.php)
© 2010-2015 The University of Manchester, UK
This is a Ruby library to interface with the Taverna 2 Server REST API.
Simply install as you would any other gem:
[sudo] gem install t2-server
Or use Bundler, with
gem 't2-server', '~> 1.0'
Gemfile, for example.
In case of problems with the above the gem is available for download here: rubygems.org/gems/t2-server
You can also download the source code from here: github.com/myGrid/t2-server-gem
This gem uses Semantic Versioning.
Taverna Server¶ ↑
Versions 0.9.x of this library are compatible with Taverna Server 2.3 and 2.4. It is not compatible with any earlier version of Taverna Server due to breaking changes in its REST interface.
From version 1.0.0 this library is not guaranteed to be compatible with Taverna Server 2.3. It might work but it is not supported, and may stop working at any time.
Version 1.0.0 of this library saw the removal of older methods that were previously deprecated. If your code no longer works with this version then please re-test it with version 0.9.3 and check for deprecation messages before reporting bugs.
We strongly encourage all users to upgrade to the current version of Taverna Server, but if that is not possible right now then these are the recommended version pairings:
pre Taverna Server 2.3, use version 0.6.1 of the gem
2.3, use version 0.9.3
2.4, use version 1.0.0 and up.
2.5 and up, use version 1.2.0 and up.
This library is known to work with the following versions of Ruby:
rbx 2.2 +
Those marked with an asterisk (*) are fully supported and bugs found against them will be fixed. Other versions may work but are not tested or supported.
Those marked with a plus (+) are tested in https://travis-ci.org/myGrid/t2-server-gem.
Ruby 1.8.7 is no longer supported as it reached its end of life at the end of June 2013.
There are two entry points for the T2Server API:
T2Server::Run - Use this for running single jobs on a server.
T2Server::Server - Use this if you are providing a web interface to one or more Taverna 2 Server instances.
In both cases the gem should be initialized by requiring the top level ruby file:
Configuring a Server connection¶ ↑
Setting up a connection to a secure server can be quite tricky and a secure Taverna Server is no different. To make things slightly easier this library provides some short cuts to providing various parameters for different types of connection.
Connection configuration settings are passed in to various methods using
ConnectionParameters class. Parameters that can be set
:ca_file- A file to use as a Certificate Authority (CA) for self-signed server certificates.
:ca_path- Path or list of paths to directories of CA certificates.
:verify_peer- Use a CA to verify that the Taverna Server you are connecting to has a valid server certificate and that it is the correct one.
:client_certificate- A certificate to use for client certificate authentication.
:client_password- The password to unlock the private key of the client certificate.
:ssl_version- The TLS/SSL version to use (
:open_timeout- The number of seconds to wait while opening a connection.
:read_timeout- The number of seconds to wait while reading from a connection.
And can be set like this for a standard https connection:
conn_params = ConnectionParameters.new conn_params[:verify_peer] = true
This will ensure that the identity of the Taverna Server you are connecting
to will be verified using the default set of certificates for your
:ca_path can also be set to a list of paths if
required. You do not need to include your platform’s default certificate
paths as these are included automatically.
For convenience a number of standard sets of parameters have been defined.
The above example is available as
Others available are:
InsecureSSLConnectionParameters- to ignore SSL checks. Not recommended!
CustomCASSLConnectionParameters- for custom (self-signed) CAs.
ClientAuthSSLConnectionParameters- for client certificate authentication.
SSL3ConnectionParameters- uses SSLv3 as the default transport layer.
See the rdoc for more details on these classes.
Authenticating to a Taverna Server¶ ↑
Some calls to a server require that a set of user credentials are provided. These are simple to set up:
credentials = T2Server::HttpBasic.new("username", "password")
Server API example¶ ↑
The Server constructor can yield the newly created object. Simply supply a URI and a set of connection parameters to connect to a server:
T2Server::Server.new(uri, conn_params) do |server| ... end
Note that credentials are not required by default to simply connect to a Taverna Server. Further operations (such as creating and starting runs) may require authorization depending on how your server has been set up.
To create a Run on a Server simply pass the workflow you wish to run and your credentials:
server.create_run(workflow, credentials) do |run| ... end
workflow parameter can be the workflow itself, a filename
or a File or IO object.
An individual run can be deleted with its own
(see below) but all runs on a server can be deleted in one go:
Note that you can only delete runs for which your credentials have delete authorization. See later for details.
Run API example¶ ↑
You can bypass the Server API if you know you are only going to be dealing with a couple of runs directly:
T2Server::Run.create(uri, workflow, credentials, conn_params) do |run| ... end
As before, the
workflow parameter can be the workflow itself,
a filename or a File or IO object.
Setting an input port to a run is very easy:
run.input_port("port_name").value = 1 run.input_port("port_name").value = "Hello!" run.input_port("port_name").value = ["list", "of", "values"]
Or you can use a local file as input:
run.input_port("port_name").file = filename
Once all the inputs have been set the run can be started:
And monitored to see if it has finished:
Or just wait until the run has finished:
While a workflow is running it might produce notifications via the Interaction Service. These can be polled with:
If there are any new notifications that have not been responded to they will be returned in a list to be processed. Notifications take the form of a Web page to be displayed and the notification objects returned from the above call hold a URI to that page. The following code prints those URIs to the console:
run.notifications.each do |i| puts i.uri end
When the workflow has finished executing then the outputs can be collected into memory or saved to a file:
result = run.output_port("port_name").value run.output_port("port_name").write_value_to_file("/path/to/value.txt")
Outputs can be queried as to their type, size (in bytes) or if they contain an error message:
run.output_port("port_name").type run.output_port("port_name").size run.output_port("port_name").error?
If the output does hold an error then it can be found in the value of the output as normal.
If you have a lot of output you can grab the whole lot in a zip archive. This can be downloaded into memory or saved directly to a file.
zip_data = run.zip_output # download to memory run.zip_output("/path/to/output.zip") # save to a file
Using baclava documents for setting inputs and collecting outputs is also supported:
run.baclava_input = filename
But make sure you request baclava output before starting the run. Baclava output can be downloaded into memory or saved directly to a file.
run.generate_baclava_output run.start run.wait output = run.baclava_output # download to memory run.baclava_output("/path/to/output.baclava") # save to a file
Later versions of Taverna Server can generate a complete provenance log of a workflow run in Taverna-PROV format. The generation of provenance data must be requested before starting the run.
run.generate_provenance run.start ... provenance = run.provenance # download to memory run.provenance("/path/to/provenance.zip") # save to a file
The resultant provenance bundle is a zip file containing all input, output and intermediate values as separate files, along with the provenance of the workflow run. The bundle is based on the Research Object Bundle specification, and complies with the W3C PROV-O provenance specification.
The log from Taverna Server can be downloaded in a similar way to zip files or Baclava documents.
log = run.log # download to memory run.log("/path/to/log.txt") # save to a file
When downloading outputs the underlying stream can be accessed by supplying a block to the value, zip_output, provenance, baclava_output or log methods:
run.output_port("port_name").value do |data| print data end
A run can be deleted when no longer needed, like so:
See the rdoc for more information. Many methods and classes have much more functionality than the defaults described above. Please note that anything which does not appear in the documentation is not intended to be part of the public API. Use of undocumented classes and methods is entirely at your own risk! Such things might not have consistent behaviour and might be removed at any time.
Example scripts¶ ↑
As well as rdoc there are also a couple of example scripts which
demonstrate good use of the T2Server API. These
are available in the
bin directory but are also installed with
the library code when the gem is installed:
Running any of these scripts with a
switch will show how to use them, e.g.:
Interacting with secure Web Services¶ ↑
This library can be used to run workflows that contain secure services. Such services may be secured in a number of ways depending on how the credentials are passed and whether they are REST, SOAP or Rshell services.
Running workflows that contain secure services requires that you pass your credentials to Taverna Server so that it can authenticate itself as you on your behalf.
It is essential that you trust the Taverna Server that you are using!
Ideally, you should only pass sensitive information, such as passwords, via https so that you can be sure that it is not being read in transit.
Username and password credentials¶ ↑
REST services are commonly secured via HTTP Basic or HTTP Digest authentication and Taverna treats these two schemes in the same way. Simply pass in your username and password with the host name of the server on which the service is running:
run.add_password_credential("https://example.com:8443/", "username", "password")
The above example shows a https server running on port 8443. If the service is on port 80 for http or port 443 for https then you don’t need to specify the port.
If there are services on the same host that require different credentials then you will need to specify the realm for which each set of credentials applies. This is done by adding the name of the realm to the end of the host name with a # separating them:
run.add_password_credential("https://example.com:8443/#realm", "username", "password")
SOAP services are commonly secured via WS-Security. Simply pass in the WSDL address of the service with your username and password:
run.add_password_credential("https://example.com:8443/services/MyService?wsdl", "username", "password")
R Servers (via Rshells)¶ ↑
You can authenticate to R Servers in almost exactly the same way as for
REST services - only the protocol scheme is different. So instead of
https it is
run.add_password_credential("rserve://example.com:6311", "username", "password")
Keypair (certificate-based) credentials¶ ↑
Some https servers authenticate clients using certificates. If you have services that require this type of authentication you can upload a keypair:
run.add_keypair_credential("https://example.com:8443/", "certificate.p12", "password")
Trusts (peer verification)¶ ↑
If the services in your workflows are on a https server then Taverna requires that it can verify that the server is the one you expect it to be. This is done by peer verification. In most cases this happens automatically and transparently but if the remote server has a non-standard or “self-signed” certificate then you will need to provide Taverna with the corresponding public key for verification to take place:
Interacting with other Taverna Server users¶ ↑
Taverna Server is a multi-user system and as such insulates users from one another as much as possible. Each run that a user creates can only be accessed by that user by default. If you want to give another user permission to perform certain actions on a run then you can do so:
Available permissions are:
:none- No permissions.
:read- Read the state of the run and get its outputs.
:update- Set the state of the run (e.g. start it).
:destroy- Delete the run.
Permissions are accumulative so giving a user the
permission also allows that user to read and set the run’s state. Note that
there is no way for any user other than the owner of a run to perform any
security related actions on it. This means that only the owner may grant,
query and revoke permissions and only the owner may add, query and delete
trusts and credentials.
You can revoke a user’s permission:
You can get a list of the permissions you have granted for a run:
And also see what permission you have granted a particular user:
Please email email@example.com for any questions relating to this Ruby gem.
- Taverna 2 Server
- REST API Documentation