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Demonstration 4
Demonstration 3 brought ETCE into the EMANE domain. We focused on the structure of an ETCE Test Directory and the way that file naming and placement interacts with test execution steps.
While the directory layout of Demonstration 3 is easy to digest, the large number of files and, especially, files with only minor text differences makes such a layout impractical. Small test changes may require manual edits to many files, which is error prone. Replicate this over many tests and things quickly become unmaintainable.
Demonstration 4 repeats demo 3 but reduces the number of Test
Directory files to a more manageable set by exploiting the
configuration redundancy. The new files are standalone template files
or are organized into entire template directories and use mako
in a very similar way to what we've seen previously in the
LXC Plan File. The new format requires an expanded test.xml
file that
indicates templates to ETCE and provides the template variable values
for publishing the Test Directory to its final form.
Here is our Demonstration 4 Test Directory:
[etceuser@host]$ tree 04.templates
04.templates
|__ doc
| |__ hostfile
| |__ lxcplan.xml
|__ helper
| |__ eelgenerator.xml
| |__ eventservice.xml
| |__ otestpoint-broker.xml
| |__ scenario.eel
|__ node.tpl
| |__ emaneshsnapshot.flag
| |__ eventdaemon.xml
| |__ gpsd.flag
| |__ gpsdlocationagent.xml
| |__ ieee80211abgmac.xml
| |__ ieee80211abgnem.xml
| |__ ieee80211pcr.xml
| |__ mgen.script
| |__ olsrd.conf
| |__ otestpointd.xml
| |__ otestpoint-recorder.xml
| |__ platform.xml
| |__ probe-emane-ieee80211abg.xml
| |__ probe-emane-physicallayer.xml
| |__ probe-emane-virtualtransport.xml
| |__ transvirtual.xml
|__ steps.xml
|__ test.xml
The main change we see from the previous demo is that the ten node
directories in 03.emane
are replaced by one directory node.tpl
.
The tpl
suffix indicates that node.tpl
is a Template
Directory. ETCE will treat every file in node.tpl
as a file
containing mako template strings that require values for publishing.
Let's also the list the test summary to look for changes:
[etceuser@host]$ etce-test list -v 04.templates
------------
04.templates
------------
location:
04.templates
description:
emane-tutorial demonstration 3 in ETCE Test Directory format
and using templates.
overlays:
etce_hostname
etce_index
etce_log_path
eventservicedevice
mgen_flow
rtsthreshold
The important difference from the last demo is the expanded overlays
section. In addition to the etce_log_path
variable we saw there, we
have five new ones: etce_hostname
, etce_index
,
eventservicedevice
, mgen_flow
and rtsthreshold
.
ETCE generates the overlays summary listing by searching through the
Test Directory files to find mako template strings. Recall these are
Python code snippets enclosed by a leading dollar sign and squiggly
braces - ${some Python code here}
. ETCE examines each template for
variable names that will require values to convert the file into
usable form - to change the mako templates into text. These are
the names listed in the summary.
Where do we specify variable values? In test.xml
. Here is
04.templates/test.xml
:
<test>
<name>04.templates</name>
<description>
emane-tutorial demonstration 3 in ETCE Test Directory format
and using templates.
</description>
<overlays>
<overlay name="eventservicedevice" value="backchan0"/>
</overlays>
<templates indices="1-10">
<directory name="node">
<overlay name="rtsthreshold" value="0"/>
<overlaylist name="mgen_flow" values="1,2,3,4,5,6,7,8,9,10"/>
</directory>
</templates>
</test>
The new file adds an overlays
and templates
section to what we've
seen previously. And we see three of our variables listed there.
The overlays
and templates
sections are independent - one can
exist without the other. overlays
strictly contains one or more
overlay
elements, each of which assigns a value to the named
variable. Template variables defined here are visible to every file in
the Test Directory. In our current example, an eventservicedevice
mako template can be found in both the helper and node.tpl
directories:
[etceuser@host]$ grep -R eventservicedevice 04.templates/*
04.templates/helper/eventservice.xml: <param name="eventservicedevice" value="${eventservicedevice}"/>
04.templates/node.tpl/platform.xml: <param name="eventservicedevice" value="${eventservicedevice}"/>
04.templates/node.tpl/eventdaemon.xml: <param name="eventservicedevice" value="${eventservicedevice}"/>
04.templates/test.xml: <overlay name="eventservicedevice" value="backchan0"/>
When the test is run, these will be replaced with the overlay value
backchan0
.
templates
needs more explanation. The templates
element
requires a value for its indices
attribute. indices
is a list of
one or more numbers separated by ',' or '-'. indices
defines the
list of values that the reserved variable etce_index
will take when
publishing the test. Some examples:
indices |
etce_index values |
---|---|
1 | 1 |
1-10 | 1,2,3,4,5,6,7,8,9,10 |
1-4,7 | 1,2,3,4,7 |
1,4,7 | 1,4,7 |
1-4,5,6-10 | 1,2,3,4,5,6,7,8,9,10 |
The templates
element may contain one or more file
or directory
children. In this case we have one directory
element which points to
our template directory node.tpl
- the name
attribute value does
not include the tpl
suffix, it is implied.
This is the important part - for each value of etce_index
, ETCE will
replicate the node.tpl
directory and its contents filling in the
mako fields based on the set values. Here is the nitty gritty
for template directories. For each etce_index
:
- ETCE builds a second variable,
etce_hostname
, by taking the root of the directory name (node
) and appending theetce_index
as a three character field. In the present case,node-001
,node-002
and so on. - In the destination directory, ETCE creates a subdirectory with the
etce_hostname
value. This becomes the target directory for the following steps. - For each file in
node.tpl
, ETCE copies the file to the target directory replacing the mako template strings with text based on the available variable values. These are the reserved variablesetce_index
,etce_hostname
andetce_log_path
, the values specified in theoverlays
section oftest.xml
and the values specified as childoverlay
andoverlaylist
values to thedirectory
element.
Here is the directory
snippet of test.xml
once more:
<directory name="node">
<overlay name="rtsthreshold" value="0"/>
<overlaylist name="mgen_flow" values="1,2,3,4,5,6,7,8,9,10"/>
</directory>
rtsthreshold
and mgen_flow
variables are only visible to the
node.tpl
directory - they would not be available for substitution
for a second template directory unless repeated as children of that
directory
element. Other than this restricted visibility,
rtsthreshold
behaves the same as for values from the overlays
section - it has a fixed value of 0
for all the directories
generated from node.tpl
. mgen_flow
is an overlaylist
which
behaves much like an array in programming. The multiple values,
separated by ',', align one-to-one with the values taken by
etce_index
. The number of values for both must agree.
Taken together - when etce-test
executes 04.templates
, it first
publishes the test to /tmp/etce/current_test
generating all of the
files as described here. The output looks very much like the
03.emane
demonstration directory with eleven host subdirectories,
helper
and node-001
through node-010
. Based on our description
of overlay variable values specified in test.xml
and the built-in
etce
variables, here are the collection of values used to generate
each target host subdirectory and its contents:
Target Subdir | etce_index |
etce_hostname |
etce_log_path |
eventservicedevice |
rtsthreshold |
mgen_flow |
---|---|---|---|---|---|---|
helper | n/a | n/a | OUTDIR/helper | backchan0 | n/a | n/a |
node-001 | 1 | node-001 | OUTDIR/node-001 | backchan0 | 0 | 1 |
node-002 | 2 | node-002 | OUTDIR/node-002 | backchan0 | 0 | 2 |
node-003 | 3 | node-003 | OUTDIR/node-003 | backchan0 | 0 | 3 |
node-004 | 4 | node-004 | OUTDIR/node-004 | backchan0 | 0 | 4 |
node-005 | 5 | node-005 | OUTDIR/node-005 | backchan0 | 0 | 5 |
node-006 | 6 | node-006 | OUTDIR/node-006 | backchan0 | 0 | 6 |
node-007 | 7 | node-007 | OUTDIR/node-007 | backchan0 | 0 | 7 |
node-008 | 8 | node-008 | OUTDIR/node-008 | backchan0 | 0 | 8 |
node-009 | 9 | node-009 | OUTDIR/node-009 | backchan0 | 0 | 9 |
node-010 | 10 | node-010 | OUTDIR/node-010 | backchan0 | 0 | 10 |
A couple comments:
-
etce_index
andetce_hostname
are not available when publishing thehelper
host directory becausehelper
is not included withintemplates
and is not associated with any index. - Likewise,
rtsthreshold
andmgen_flow
are not available tohelper
because these are defined with visibility restricted tonode.tpl
. -
OUTDIR is a placeholder for the output directory name generated at
runtime (by default, under
/tmp/etce/data
) and discussed in 01.hello_etce. -
etce_index
andmgen_flow
take the same values for each row. Themgen_flow
variable was added here to illustrate the use of anoverlaylist
. In practiceetce_index
would probably be used in its place. Keep in mind that mako template fields enclose Python code. Its typical to run into configuration situations where a text field can be related back toetce_index
by a formula. In that case, the mako template can enclose the formula directly. As a simple example, in our present case, a mako template${(2 * etce_index) - 1}
appearing in one of thenode.tpl
files would generate the sequence of odd numbers from 1 to 19 within the ten generated files.
So far we've used the etce-test
commands list
and run
. There is
also publish
which performs the ETCE Test Directory translation
we've been describing here, apart from running the Test. It can be
helpful as an intermediate step during test development or as a check
when reducing an existing test to use templates. It's also sometimes
useful for transferring test configuration in a more suitable format
to someone not using ETCE.
The basic form of publish
takes an input Test Directory and an
output directory to place the translated results. publish
also has
an optional logdirectory
argument to use for the node independent
part of the etce_log_path
variable during translation. The
auto-generated path containing the timestamp doesn't usually make
sense when publishing by hand. Let's publish the current demo
directory and peak at the result:
[etceuser@host]$ etce-test publish 04.templates /tmp/04.templates
Publishing 04.templates to /tmp/04.templates
Processing template directory "node.tpl" for etce_index=1 and destination=/tmp/04.templates/node-001
Processing template directory "node.tpl" for etce_index=2 and destination=/tmp/04.templates/node-002
Processing template directory "node.tpl" for etce_index=3 and destination=/tmp/04.templates/node-003
Processing template directory "node.tpl" for etce_index=4 and destination=/tmp/04.templates/node-004
Processing template directory "node.tpl" for etce_index=5 and destination=/tmp/04.templates/node-005
Processing template directory "node.tpl" for etce_index=6 and destination=/tmp/04.templates/node-006
Processing template directory "node.tpl" for etce_index=7 and destination=/tmp/04.templates/node-007
Processing template directory "node.tpl" for etce_index=8 and destination=/tmp/04.templates/node-008
Processing template directory "node.tpl" for etce_index=9 and destination=/tmp/04.templates/node-009
Processing template directory "node.tpl" for etce_index=10 and destination=/tmp/04.templates/node-010
[etceuser@host]$ tree -L 1 /tmp/04.templates
/tmp/04.templates
|__ helper
|__ node-001
|__ node-002
|__ node-003
|__ node-004
|__ node-005
|__ node-006
|__ node-007
|__ node-008
|__ node-009
|__ node-010
|__ steps.xml
|__ test.xml
11 directories, 2 files
The output has the generated host subdirectories we expect.
Let's also look at test.xml
in the output:
[etceuser@host]$ cat /tmp/04.templates/test.xml
<test><name>04.templates</name>
<description>
emane-tutorial demonstration 3 in ETCE Test Directory format
and using templates.
</description>
</test>
It's a minor point, but, the overlays
and templates
section doesn't
appear in the published test.xml
- they've been consumed.
This insures the result directory is still a valid ETCE Test Directory:
[etceuser@host]$ etce-test list -v /tmp/04.templates
------------
04.templates
------------
location:
/tmp/04.templates
description:
emane-tutorial demonstration 3 in ETCE Test Directory format
and using templates.
overlays:
Recall that our current demo is the same as 03.emane but rewritten to take advantage of templates. To be certain we've pared down the original correctly, let's publish it too and compare the results:
[etceuser@host]$ etce-test publish --logdirectory /tmp 03.emane /tmp/03.emane
Publishing 03.emane to /tmp/03.emane
[etceuser@host]$ diff -rq /tmp/03.emane /tmp/04.templates
Files /tmp/03.emane/test.xml and /tmp/04.templates/test.xml differ
[etceuser@host]$ diff /tmp/03.emane/test.xml /tmp/04.templates/test.xml
1c1
< <test><name>03.emane</name>
---
> <test><name>04.templates</name>
4c4,5
< emane-tutorial demonstration 3 in ETCE Test Directory format.
---
> emane-tutorial demonstration 3 in ETCE Test Directory format
> and using templates.
7c8
< </test>
---
> </test>
The first diff is recursive and only lists the files that differ -
test.xml
is the only one. Diffing those two files shows that the
name
and description
are the only differences. The published
tests are identical otherwise.
Although our example test.xml
file has grown from previous
demonstrations, it still does not contain every available attribute or
capture every possible element ordering. Here we collect a few
items worth knowing:
-
overlay
andoverlaylist
elements may be placed as direct descendants of thetemplates
element where they are visible to all of the directories and files generated from indices. This makes sense when the values are shared by more than onedirectory
orfile
element. - The
directory
andfile
elements beneathtemplates
both have an optional indices attribute whose value must be a subset of the templatesindices
attribute value. The associated directory or file is only generated using the restricted subset. As an example - if the directory element above contained the attributeindices="1-4"
then only the output subdirectoriesnode-001
throughnode-004
are generated. Theoverlaylist
child formgen_flow
would need to be adjusted accordingly to have only four values. -
directory
andfile
elements have an optionalhostname_format
attribute. This attribute overrides the defaultetce_hostname
format we saw in our example, where the index value is appended to the template directory name as a three digit field.hostname_format
is usually a mako string that containsetce_index
and formats it into an alternate name.hostname_format="node-${'%02d' % etce_index}"
would generate the same names we had here, but with the index field changed to two characters:node-01
,node-02
, etc. -
overlay
andoverlaylist
elements have an optionaltype
attribute that must be one ofstring
,bool
,int
orfloat
. Whentype
is not specified, ETCE tries to infer the value type by converting the string to a more restrictive type. It attempts this in orderint
,float
,bool
and finallystring
.bool
will be chosen when the value istrue
orfalse
regardless of capitalization. Thetype
field is useful when the inference doesn't work as expected. For example, an overlay value of000346
that represents a fixed width integer string will be converted to an integer and lose the desired formatting.type="string"
will prevent this. -
overlaylist
has an optionalseparator
attribute that sets the character used to delineate the multiple items invalues
. The default is,
. Use this to separate values that contain a comma.
As shown above, our current demo publishes to the identical form as the previous one (save for comments). Feel free to run it and check that the results are the same.
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