1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
|
Using gatekeepers
=================
The decentralized with human gatekeeper workflow
------------------------------------------------
In this workflow, one developer (the gatekeeper) has commit rights
to the main branch while other developers have read-only access.
All developers make their changes in task branches.
.. image:: images/workflows_gatekeeper.png
When a developer wants their work merged, they ask the gatekeeper
to review their change and merge it if acceptable. If a change fails
review, further development proceeds in the relevant task branch
until it is good to go.
Note that a key aspect of this approach is the inversion of control
that is implied: developers no longer decide when to "commit/push"
changes into the central branch: the code base evolves by gatekeepers
"merging/pulling" changes in a controlled manner. It's perfectly
acceptable, indeed common, to have multiple central branches with
different gatekeepers, e.g. one branch for the current production
release and another for the next release. In this case, a task branch
holding a bug fix will most likely be advertized to both gatekeepers.
One of the great things about this workflow is that it is hugely
scalable. Large projects can be broken into teams and each
team can have a *local master branch* managed by a gatekeeper.
Someone can be appointed as the primary gatekeeper to merge
changes from the team master branches into the primary master
branch when team leaders request it.
The decentralized with automatic gatekeeper workflow
----------------------------------------------------
To obtain even higher quality, all developers can be required to
submit changes to an automated gatekeeper that only merges and
commits a change if it passes a regression test suite. One
such gatekeeper is a software tool called PQM.
.. image:: images/workflows_pqm.png
For further information on PQM, see https://launchpad.net/pqm.
|