It's a core repository of Zerocrat.
It contains our persistence layer (com.zerocracy.farm
),
a collection of Java stakeholders (com.zerocracy.stk
),
and interface layer for the integration with Slack, GitHub, Telegram,
and so on (com.stakeholder.radars
).
The data model (XML, XSD, XSL documents) is in zerocracy/datum repository. They are released separately and have different versions.
The central point of control in the project is
claims.xml
file, which
stores all requests for actions, so called "claims." Say, someone wants
to add a new job to the WBS, either a user or a software module. This
claim has to be added:
<claim id="5">
<type>Add job to WBS</type>
<created>2016-12-29T09:03:21.684Z</created>
<author>yegor256</author>
<token>slack;C43789437;yegor256</token>
<params>
<param name="job">gh:test/test#1</param>
</params>
</claim>
Stakeholder is a software module that replies to a claim. All stakeholders
are Groovy scripts from com.zerocracy.stk
package.
Here, type
is a unique type of the claim, which will be used by
"stakeholders," to decide which claim to process or to ignore. The
author
is the optional GitHub login of the person who submitted the claim;
it's empty if the claim is coming from a software module or another
stakeholder. The token
is the location of the place where the response
is expected; in this example the response is expected in Slack channel
C43789437
and has to be addressed to @yegor256
. The params
is just
an associative array of parameters.
One of the stakeholders will find that claim and reply to it. To read the
claim we use com.zerocracy.pm.ClaimIn
, which helps proceeding the XML. To
generate a claim we use com.zerocracy.pm.ClaimOut
.
There are a number of params, which are typical for many claim types:
-
cause
is the ID of the claim that was preceeding the current one; -
flow
is a semi-colon separated list of all claim types seen before the current claim; -
job
is the unique name of the job, for examplegh:test/test#1
; -
login
is the GitHub login of the user who the claim should deal with; -
reason
is a free text explanation of the reason.
A farm is collection of projects. A project is a collection of items. An item is just a file, in most cases in XML format.
For example, in order to assign a DEV
role to @yegor256 in C63314D6Z
, we
should do this (provided, we already have the farm
):
Project project = farm.find("@id='C63314D6Z'").get(0);
try (Item item = project.acq("roles.xml")) {
new Xocument(item).modify(
new Directives()
.xpath("/roles/people[@id='yegor256']")
.add("role")
.set("DEV")
);
}
Here, we use find()
in order to retrieve a list of projects by the
provided XPath term @id='C63314D6Z'
. They will be found inside people.xml
and returned, if found. If a project is not found, it will be created
by find()
.
Then, we use acq()
to find and lock the file roles.xml
in the project.
Until item.close()
is called, no other thread will be able to acquire
any file in the project.
Then, we modify the file using Xocument
, which is a helper created
exactly for XML reading and modifications of items. We provide it a list
of Xembly directives and it
applies them to the XML document. It takes care about versioning and XSD
validation.
PMO (project management office) is a project with a special status. It has
its own set of items, own XSD schemas, everything on its own. We keep
system information there, like list of all users (people.xml
),
list of all projects (catalog.xml
), user awards (awards/<uid>.xml
), etc.
The best way to get access to PMO is through class Pmo
, having an instance
of a farm. For example, in a Groovy stakeholder:
Farm farm = binding.variables.farm
Project pmo = new Pmo(farm)
A stakeholder is a software module (object of interface Stakeholder
)
that consumes claims. As soon
as a new claims shows up in claims.xml
, the classes from
com.zerocracy.farm.reactive
try to send it to all known stakeholders. We
write them in Groovy and keep in
com.zerocracy.stk
package. For example, this stakeholder may react to
a claim that requests to assign a new role to a user in a project:
def exec(Project project, XML xml) {
new Assume(project, xml).notPmo()
new Assume(project, xml).type('Assign role')
new Assume(project, xml).roles('ARC', 'PO')
ClaimIn claim = new ClaimIn(xml)
String login = claim.param('login')
String role = claim.param('role')
new Roles(project).bootstrap().assign(login, role)
claim.copy()
.type('Role was assigned')
.postTo(project)
claim.reply(
new Par('Role %s was assigned to @%s').say(role, login)
).postTo(project)
}
First, we use Assume
in order to filter out incoming claims that we don't
need. Remember, each stakeholder receives all claims in a project. This
particular stakeholder needs just one claim of type "Assign role"
. We
also allow only the architect (ARC
) and the product owner (PO
) to send
those role-assigning claims.
Then, we create a very convenient helper class ClaimIn
, which is designed
to simplify our work with the incoming XML claim.
Then, we take login
and role
out of the claim. They are the parameters
of the claim.
Then, we do the actual work of assigning the role to the user. Pay attention
to the .bootstrap()
call on Roles
. It is important to always call
those boostrap()
methods on all data-representing objects, in order to ensure
that the XML documents they represent are fully ready.
Next, we create a new claim and post back to the project. We use .copy()
in order to copy the incoming claim entirely. The outcoming claim of
type "Role was assigned"
will contain the same set of parameters as the
incoming one had.
Then, we reply to the original claim with a user-friendly message. If the incoming claim had an author (a real user), that user will receive a message, either in Telegram, or Slack or wherever that claim was submitted.
Pay attention to the class Par
we are using in order to format the message.
This class is supposed to be used everywhere, since it formats the text
correctly for all possible output devices and messengers.
"Data-representing" objects stay in com.zerocracy.pm
and com.zerocracy.pmo
packages. They mostly represent XML documents from the storage, one class
per document, e.g.
Boosts
for boosts.xml
or
Roles
for roles.xml
.
They all are pretty straight-forward XML manipulators, where
jcabi-xml is used for XML reading
and Xembly for XML modifications.
Validations are also supposed to happen inside these objects. The majority of data problems will be filtered out by XSD Schemas, but not all of them. Sometimes we need Java to do the work of data validating. If it's needed, we try to validate the data in data-representing objects.
In order to integrate and test the entire system we have a collection of
"bundles" in com.zerocracy.bundles
package,
which are simulators of real projects. Each bundle is a collection
of files, which we place into a fake project and run claims dispatcher,
just like it would happen in a real project. BundlesTest
does this.
In order to create a new bundle you just copy an existing one and edit
its files. The key file, of course, is the claims.xml
, which contains
the list of claims to be dispatched. There are also a few supplementary files:
-
_before.groovy
is a stakeholder that is called right before all claims are dispatched; obviously, it doesn't receive anything meaningful as an XML input. -
_after.groovy
is a stakeholder that is called right after all claims are dispatched. -
_setup.xml
is a configuration file with information forBundlesTest
; setting/setup/pmo
totrue
will make sure that dispatching happens with a PMO project, not a regular one.
More details you can find in the Javadoc section of BundlesTest
.
You can skip BundlesTest's execution by specifying -DskipBundlesTest
:
$mvn clean install -Pqulice -DskipBundlesTest
There are a number of entry points, where users can communicate with our
chat bots, they are all implemented in com.zerocracy.radars.*
packages. Each
bot has its own implementation details, because systems are very different
(Telegram, Slack, GitHub, etc.). The common part is the Question
class,
that parses the questions and translates them to claims.
We try to keep radars lightweight and logic-free. It's not their job to make decisions about jobs, orders, roles, rates, etc. Their job is to translate the incoming information into claims. The rest will be done by stakeholders.
There are a number of constants in the application, which affect the business
logic. For example, the amount of reputation points a programmer pays when
a job is delayed, or the amount of money a client pays in order to publish
an RfP, an so on. All of them are defined in our
Policy
as HTML <span>
elements with certain id
attributes
(see the source code of the page). Then, we have a class com.zerocracy.Policy
,
which helps us fetch the values from the policy:
int days = new Policy().get("18.days", 90);
Here, "18.days"
is the HTML id
attribute and 90
is the default value to
be used during unit testing. You must always use class Policy
in your code
and never hard-code any business constants.
We don't mix different Java Time APIs and we have chosen the new java.time.* classes instead of the old Date and Calendar classes. Old classes can be used only in cases where external libraries require or return them.
When considering which of the new classes to use, it is best to first try
Instant
, if more formatting or manipulation of the date/time is needed then
ZonedDateTime
with ZoneOffset.UTC. LocalDateTime/LocalDate/LocalTime should
be used as a last resort (as it is e.g. problematic during the switch to
daylight saving).
Just fork it, make changes, run mvn clean install -Pqulice,codenarc
,
and submit a pull request. Read
this, if lost.
Copyright (c) 2016-2018 Zerocracy
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to read the Software only. Permissions is hereby NOT GRANTED to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.