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Overlay Generation in split format

Overlay generation refers to the process of converting overlay files into an expanded test script. This allows for board files and base test scripts to override functions and variables in the base fuego system with customized versions. This implements a weak form of an object-oriented system.
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Overlay generation refers to the process of converting overlay files
into an expanded test script.  This allows for board files and base
test scripts to override functions and variables in the base fuego system 
with customized versions.  This implements a weak form of an object-oriented
system.
At run time, the base test script is sourced. This in turn sources the fuego test system. During that 'source' operation, environment variables (BOARD_OVERLAY and DISTRIB) are used to select the .board and .dist files for the target. These files, in turn, can inherit and include definitions of variables and functions from other files (called "overlay" or "class" files).
At run time, the base test script is sourced.  This in turn sources the fuego
test system.  During that 'source' operation, environment variables (BOARD_OVERLAY and DISTRIB) are used to select the .board and .dist files
for the target.  These files, in turn, can inherit and include definitions
of variables and functions from other files (called "overlay" or "class" files).
The program ovgen.py is called to read the .board and .dist files, and to combine the information in these with the overlay files, and finally to also add information from the testplans and test spec files, to create a single unified 'prolog' script. This script is sourced into the running script, to provide final definitions for functions and variables used during test execution.
The program ovgen.py is called to read the .board and .dist files, and to combine the information in these with the overlay files, and finally to
also add information from the testplans
and test spec files, to create a single unified 'prolog' script.
This script is sourced into the running script, to provide final
definitions for functions and variables used during test execution.
The call to ovgen.py looks like this: * $OF_OVGEN $OF_CLASSDIR_ARGS $OF_OVFILES_ARGS $OF_TESTPLAN_ARGS $OF_SPECDIR_ARGS $OF_OUTPUT_FILE_ARGS
The call to ovgen.py looks like this:
 * $OF_OVGEN $OF_CLASSDIR_ARGS $OF_OVFILES_ARGS $OF_TESTPLAN_ARGS $OF_SPECDIR_ARGS $OF_OUTPUT_FILE_ARGS
Which expands to something like: {{{ /fuego-core/engine/scripts/ovgen/ovgen.py \ --classdir /fuego-core/engine/overlays//base \ --ovfiles /fuego-core/engine/overlays//distribs/nologger.dist \ /fuego-core/engine/overlays//boards/qemu-arm.board \ --testplan /fuego-core/engine/overlays//testplans/testplan_default.json \ --output /fuego-rw/work/qemu-test-arm_prolog.sh }}}
Which expands to something like:
{{{
 /fuego-core/engine/scripts/ovgen/ovgen.py \
   --classdir /fuego-core/engine/overlays//base \
   --ovfiles /fuego-core/engine/overlays//distribs/nologger.dist \
             /fuego-core/engine/overlays//boards/qemu-arm.board \
   --testplan /fuego-core/engine/overlays//testplans/testplan_default.json \
   --output /fuego-rw/work/qemu-test-arm_prolog.sh
}}}
This says to take the 2 ovfiles mentioned: nologger.dist and qemu-arm.board, and process them using the indicated classdir, testplan and specdir, to product the output qemu-test-arm_prolog.sh.
This says to take the 2 ovfiles mentioned: nologger.dist and qemu-arm.board,
and process them using the indicated classdir, testplan and specdir, to
product the output qemu-test-arm_prolog.sh.
The result will be a single file containing all the functions and variables defined in the combined files, taking into account any overrides encountered.
The result will be a single file containing all the functions and variables
defined in the combined files, taking into account any overrides encountered.
The classdir defines where base 'fuegoclass' files are located, which can be included or inherited into the environment space.
The classdir defines where base 'fuegoclass' files are located, which can
be included or inherited into the environment space.
The testplan and specdir are used to augment the environment space with variables for the indicated testplan.
The testplan and specdir are used to augment the environment space with
variables for the indicated testplan.

inheritance, inclusion and overrides [edit section]

= inheritance, inclusion and overrides =
The system implements a weak form of object-oriented behavior (specifically function and variable polymorphism), by allowing functions and variables from
the base fuego system to be overridden during execution of the program.
A 'class' file has the same syntax as a shell script, but the extension ".fuegoclass'. To include the material from a class file into another file, you use either the 'inherit' keyword or the 'include' keyword.
A 'class' file has the same syntax as a shell script, but the extension ".fuegoclass'.  To include the material from a class file into another
file, you use either the 'inherit' keyword or the 'include' keyword.
If you 'inherit' a class file, then the variables and functions in the file may be overridden by local definitions in your shell script.
If you 'inherit' a class file, then the variables and functions in the file
may be overridden by local definitions in your shell script.
The functions which are intended to be overridable start with the prefix ov_ (usually), and reside in the 'class' files in the classdir. Variables can also be overridden. These have no special identifying prefix.
The functions which are intended to be overridable
start with the prefix ov_ (usually), and
reside in the 'class' files in the classdir.  Variables can also
be overridden.  These have no special identifying prefix.
If you 'include' a class file, then the variables and functions in that file may NOT be overridden by local definitions in your shell script.
If you 'include' a class file, then the variables and functions in that file
may NOT be overridden by local definitions in your shell script.
It is presumed that the places where these overrides will be specified is in the .board and .dist files. = nologread.dist = One example of an override is provided in the system already, in the form of nologread.dist. Every target node defined in the system (in the Jenkins interface) defines both a board file and a dist file. These are intended to define parameters and functions for accessing the board, and for executing certain functions based on the type of distribution on the board (e.g. poky vs debian).
It is presumed that the places where these overrides will be specified 
is in the .board and .dist files.
= nologread.dist =
One example of an override is provided in the system already, in the form
of nologread.dist.  Every target node defined in the system (in the Jenkins
interface) defines both a board file and a dist file.  These are intended
to define parameters and functions for accessing the board, and for executing
certain functions based on the type of distribution on the board (e.g. poky vs debian).
The base.dist file is the default .dist file used by targets, and it does not override any functions or variables provided by the fuego system. It merely inherits all pre-defined functions from base-distrib.fuegoclass.
The base.dist file is the default .dist file used by targets, and it
does not override any functions or variables provided by the fuego system.
It merely inherits all pre-defined functions from base-distrib.fuegoclass.
However, the nologger.dist file is intended for use when there is no command 'logread' provided on the target. It uses 'cat' instead to retrieve the log information during the test. It inherits the pre-defined functions from base-distrib.fuegoclass, but then overrides the function ov_rootfs_logread.
However, the nologger.dist file is intended for use when there is no
command 'logread' provided on the target.  It uses 'cat' instead to 
retrieve the log information during the test.
It inherits the pre-defined functions from base-distrib.fuegoclass, but
then overrides the function ov_rootfs_logread.
Here is a list of overridable functions: From base-board.fuegoclass: * ov_transport_get * ov_transport_put * ov_transport_cmd
Here is a list of overridable functions:
From base-board.fuegoclass:
 * ov_transport_get
 * ov_transport_put
 * ov_transport_cmd
From base-distrib.fuegoclass: * ov_get_firmware * ov_rootfs_reboot * ov_rootfs_state * ov_logger * ov_rootfs_sync * ov_rootfs_drop_caches * ov_rootfs_oom * ov_rootfs_kill * ov_rootfs_logread
From base-distrib.fuegoclass:
 * ov_get_firmware
 * ov_rootfs_reboot
 * ov_rootfs_state
 * ov_logger
 * ov_rootfs_sync
 * ov_rootfs_drop_caches
 * ov_rootfs_oom
 * ov_rootfs_kill
 * ov_rootfs_logread
From base-funcs.fuegoclass: * default_target_route_setup
From base-funcs.fuegoclass:
 * default_target_route_setup
The following variables can be overriden:
The following variables can be overriden:
From base-params.fuegoclass: * DEVICE * PATH * SSH * SCP
From base-params.fuegoclass:
 * DEVICE
 * PATH
 * SSH
 * SCP

outline of ovgen operation [edit section]

= outline of ovgen operation =
Here is an outline of ovgen operation:
 * run
   * parse command line arguments
   * parse test specs, if specdir is specified on command line
   * parse test plans, if testplan is specified on command line
   * parse all the base fuegoclass files (from classdir directory)
   * parse classes out of the override file
     * this processes inherited values and overrides during the parse
   * generate the prolog from the data read

Note: testplans and testspecs are simple maps internally (in ovgen.py). However, parseBaseDir() and parseOverrideFile() return class objects that are put in a list.

''Note: testplans and testspecs are simple maps internally (in ovgen.py).
However, parseBaseDir() and parseOverrideFile() return class objects
that are put in a list.''

how to use the override/class system [edit section]

= how to use the override/class system =
Board and distribution files are referenced in the Jenkins definition
for a test node (target).  These files are interpreted by Fuego as overlay files, which can use values and functions from other files (fuegoclass
files), and override them if necessary for a particular board.

inheriting and including other variables [edit section]

== inheriting and including other variables ==
An overlay file (board or distribution file) defined variables and functions
from other base class files in the system using the 'inherit' and 'include'
directives.
The inherit directive is used to read items from a fuegoclass file that can be overridden.
The inherit directive is used to read items from a fuegoclass file
that can be overridden.
Items that are read from a fuegoclass file using the 'include' directive cannot be overridden in the overlay file.
Items that are read from a fuegoclass file using the 'include' directive
cannot be overridden in the overlay file.
For example, a board file usually uses the following directives: * inherit "base-board" * include "base-params"
For example, a board file usually uses the following directives:
 * inherit "base-board"
 * include "base-params"
This means that the functions and variables declared in the base-board.fuegoclass file can be overridden in the board file. However, the functions and variables declared in the base-params.fuegoclass file can not be overridden in the board file.
This means that the functions and variables declared in the base-board.fuegoclass file can be overridden in the board file.  However,
the functions and variables declared in the base-params.fuegoclass file
can not be overridden in the board file.

Syntax for overriding variables and functions [edit section]

== Syntax for overriding variables and functions ==
To override a variable that is defined in another file, you re-declare
the variable in the board or distrib file
using the normal syntax (NAME="value"), but put an "override" prefix on the
line, like so:
{{{#!YellowBox
override NAME="value"
}}}
To override a function, use the syntax as follows:
To override a function, use the syntax as follows:
{{{#!YellowBox
override-func func_name() {
    function commands...
}
}}}
The syntax must be precise, including the number of spaces in the first line and the brace placement (on same line as function name for the opening brace, and at the first of the line for the closing brace)
The syntax must be precise, including the number of spaces in the first line
and the brace placement (on same line as function name for the opening brace,
and at the first of the line for the closing brace)
See ovgen feature notes
See [[ovgen feature notes]]
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