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
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
|
..
Copyright (c) 2019 Cisco and/or its affiliates.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at:
..
http://www.apache.org/licenses/LICENSE-2.0
..
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
AUTOMATING VPP-API FLAG DAY IN CSIT
===================================
**ABSTRACT**
This document is intended to provide a solution to the problem of
automating the detection of VPP API changes which are not backwards
compatible with existing CSIT tests and to automate the "Flag Day"
process of deploying a new set of CSIT tests which are compatible
with the new version of the VPP API without causing a halt to the
normal VPP/CSIT operational CI process. This shall initially be
limited to changes in \*.api files contained in the vpp repo.
Eventually the detection algorithm could be extended to include
other integration points such as "directory" structure of stats
segment or PAPI python library dependencies.
**VPP API FLAG DAY ALGORITHM USE CASE**
The following steps describe the use case of the proposed
implementation for automating the VPP API "Flag Day" algorithm:
#. A VPP patch with VPP API changes is submitted to
gerrit for review
#. CSIT verify job detects the VPP API change(s).
Note: This requires a new CSIT test described below in the
section "CSIT VPP API CHANGE DETECTION TEST".
#. CSIT verify job fails before starting to run any tests and
an email with the appropriate reason is sent to the VPP patch
submitter and vpp-api-dev@lists.fd.io including the VPP patch
information and API change(s) that were detected.
#. The VPP patch developer and CSIT team create a CSIT JIRA ticket
to identify the work required to support the new VPP API version.
#. CSIT developer creates a patch to existing CSIT tests to support
the new VPP API version and new features in the VPP patch as required.
#. CSIT developer runs CI verification tests for the CSIT patch against
the VPP patch (aka "Patch-On-Patch verification).
This process verifies support for the new VPP API, associated VPP
features and CSIT tests. Both developers iterate until the
verification passes.
#. CSIT committer updates the supported API signature(s) such that
all signatures included in the CSIT branch are supported by the
current version of the CSIT tests. See "API FLAG DAY SCENERIOS" below
for examples.
#. CSIT committer merges CSIT patch and creates a new operational
branch in the CSIT repo.
#. VPP developer issues a recheck on the VPP patch and a VPP
Committer merges the patch.
#. Recheck of existing VPP patches in gerrit may cause the "VPP
API Incompatible Change Test" to send an email to the patch
submitter to rebase the patch to pick up the compatible VPP API
version files.
**FEATURES REQUIRED FOR IMPLEMENTATION**
**VPP API SIGNATURE GENERATION**
The VPP PAPI generation already produces the complete set of
signatures in JSON format for all api files and includes them in the
vpp-api-python.deb package. Upon installation all of the \*.api.json
files are installed in the /usr/share/vpp/api directory. Each record
in the .api.json file contains the name of the api message, the fields
and their data types, and a CRC of the json object.
**VPP API CLIENT SIGNATURES**
In each CSIT branch, all of the VPP API client signatures that are supported
by the CSIT tests in that branch are contained in separate directories
under the .../csit/resources/api/vpp directory. The CSIT VPP API
client signature directory structure is the same as the one published in
/usr/share/vpp/api as generated by vppapigen.
The granularity of the CSIT VPP API client signature support
will initially be on a per VPP API JSON file. In the future, a per VPP
api message level of granularity may be added. If CSIT is capable of
supporting more than one version of a VPP API JSON file, then a new
CSIT VPP api client signature directory will be created containing
all of the supported VPP API JSON files. Typically this will be identical
to the previous version with the exception of the VPP API JSON files
which have been changed in the VPP patch which triggered the VPP API FLAG
day algorithm.
See https://gerrit.fd.io/r/19027 for the baseline implementation.
**VPP API CHANGES FILE INCLUDED in VPP PACKAGE**
The VPP build system shall add a file in the /usr/share/vpp/api
directory of the vpp package which is the same directory in which
the api JSON files are published. This file will include the list of
VPP api files which were included in the patch to be verified.
See https://gerrit.fd.io/r/19479 for the baseline implementation.
**CSIT VPP API CHANGE DETECTION TEST**
The set of VPP api signatures which are supported by the CSIT tests in
a given CSIT branch shall be stored in .../csit/resources/api/vpp which
mirrors the same directory structure as the API signature directory
generated by vppapigen (e.g. /usr/share/api/vpp/core &
/usr/share/api/vpp/plugins).
The test compares the VPP patch's API signature directory with each of
the CSIT VPP API signabture directory and determine the following state:
- No Change
- Changed
- Rebase or Merge Parent VPP Patch [0]
[0] The Rebase or Merge Parent VPP Patch result occurs when there is no valid API
signature found in .../csit/resources/api/vpp AND there are no VPP API changes
included in the patch. This could be the result of a patch whose parent does not
include the API changes merged in another VPP patch and supported by the new CSIT
oper branch. This case would be resolved by rebasing the patch to HEAD. The other
possibility is that the patch is a descendent of a patch with an incompatible API
change that has not been merged yet. This case is resolved by completing the API
Flag Day algorithm on the parent patch such that the latest CSIT oper branch supports
the API in the parent. This importance of the detection of this state is to provide
direct feedback to the VPP patch author about how to resolve the issue in a timely
manner.
Any condition other than "No Change" shall cause an email to be sent
to the VPP patch submitter. If the condition is "Changed" then
vpp-api-dev@lists.fd.io shall also be copied on the notification email.
**RUN CSIT VERIFY JOB AGAINST A SPECIFIC VPP PATCH IN GERRIT REVIEW BRANCH**
This is the "Patch-On-Patch" methodology documented in [TBD]?
**VPP API FLAG DAY SCENARIOS**
In the beginning, let's assume there is a single VPP API Client signature
directory in the current oper branch called vpp-api-client.sig.1 which
contains core/vpe.api.json and plugin/acl.api.json which are supported
by the CSIT tests.
**VPP PATCH CONTAINS INCOMPATIBLE API CHANGES**
Next, a VPP developer modifies vpe.api with a whole set of
new type definitions. When the patch is submitted to gerrit.fd.io, the
"CSIT VPP API CHANGE DETECTION TEST" detects the changed api file and
votes Verified -1. Once CSIT has been updated to support the new type
definitions and verified against the VPP patch,
vpp-api-client.sig.1/core/vpe.api.json is replaced with the vpe.api.json
file from the patch. The CSIT changes are committed into CSIT master and a
new oper branch is created. The VPP patch is then rechecked and merged
into VPP master as soon as practicable. All existing VPP patches and any
new patches not including the VPP api change patch will fail verification
with a "Rebase or Merge Parent" notification upon recheck or initial
submission to gerrit. Rebasing is then required in order to pass
verification of the new api changes.
**VPP PATCH CONTAINS BACKWARDS COMPATIBLE CHANGES**
The next day, a VPP developer finds a need to add a new
attribute to an api message in vpe.api with a default value defined.
This is a backwards compatible change for CSIT. Since the "CSIT VPP
API CHANGE DETECTION TEST" only works on a per api file level of granularity,
the change is flagged with Verified -1. However, in this case, the
CSIT developer can resolve the verify failure by adding a second VPP API
client signature directory, vpp-api-client.sig.2 which is a copy of
vpp-api-client.sig.1 with the vpe.api.json file updated with the contents
of the copy from the VPP patch. After the CSIT changes are merged and a new
CSIT oper branch is created, the VPP patch will pass verification upon recheck.
All other patches will continue to pass verification upon recheck or initial
submission to gerrit by matching the signature in vpp-api-client.sig.1 --
life is good.
**CSIT REMOVES SUPPORT FOR A VPP API VERSION**
Since it is not desirable to maintain a bazillion CSIT VPP API client
signatures, after a reasonable period of time (let's say a week), a
CSIT developer deletes vpp-api-client.sig.1 and renames
vpp-api-client.sig.2 to vpp-api-client.sig.1, merges to CSIT master,
and creates a new oper branch. At this point, VPP patches that do not
contain the new vpe.api file will fail verification upon recheck or initial
submission to gerrit with a "Rebase or Merge Parent" notification and
will require rebasing to pass verification.
**CSIT ADDS SUPPORT FOR A NEW FEATURE API PRIOR TO VPP**
A VPP developer has lots of ideas and decides to add a new
plugin and api which supports the "Super-Duper Feature" to VPP in
a new plugin called the "Super-Duper Plugin" and associated super_duper.api
VPP binary APi message definition file. Being a thoughtful and
helpful developer, the VPP developer notifies the CSIT team providing
them with the super_duper.api.json file. A CSIT developer
quickly produces the Super-Duper Feature CSIT test suite and updates the VPP
API Client signature with vpe-api-client.sig.1/plugin/super_duper.api.json.
In the meantime, the VPP developer pushes the Super-Duper VPP patch which
fails the CSIT VPP API CHANGE DETECTION TEST. Both developers then work
together to verify both CSIT and the VPP patch. The CSIT developer
then merges the CSIT code into master and creates a new oper branch. Our
VPP developer is very pleased when the VPP patch containing
the Super-Duper Plugin verifies upon recheck. All other VPP patches without
api file changes continue to pass the CSIT VPP API CHANGE DETECTION TEST
before and after the Super-Duper VPP patch is merged.
**VPP PATCH CONTAINS A NEW FEATURE API BEFORE CSIT SUPPORT**
Now let's assume that the VPP developer was having a bad day
and forgot to notify the CSIT team about the new Super-Duper Plugin.
Upon pushing the VPP patch to gerrit, the VPP developer is pleased that
there is no nastygram email from the CSIT VPP API CHANGE DETECTION TEST.
All VPP patches without api file changes continue to pass the CSIT VPP
API CHANGE DETECTION TEST. Eventually a Super-Duper Plugin test suite is
added to CSIT along with vpe-api-client.sig.1/plugin/super_duper.api.json
and release in a new CSIT oper branch. All VPP patches that are do not contain
api changes and are verified via recheck or initial submission, continue to
pass the CSIT VPP API CHANGE DETECTION TEST.
|
