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History

H. Peter Anvin 07cef15235 travis: update the warning message in hle.stderr Nothing wrong, but the text of the warning message has changed after subordinating it to another warning. Signed-off-by: H. Peter Anvin <hpa@zytor.com>		2023-10-13 20:54:56 -07:00
..
test	travis: update the warning message in hle.stderr	2023-10-13 20:54:56 -07:00
nasm-t.py	nasm-t: do not strip newlines from output	2020-09-18 01:07:53 +03:00
README.md	test: nasm-t -- Add more details into README	2018-12-20 14:28:31 +03:00
t.json	test: nasm-t -- Add json template	2018-11-11 21:43:45 +03:00

README.md

Testing NASM

We use Travis CI service to execute NASM tests, which basically prepares the environment and runs our nasm-t.py script.

The script scans a testing directory for *.json test descriptor files and runs test by descriptor content.

Test engine

nasm-t.py script is a simple test engine written by Python3 language which allows either execute a single test or run them all in a sequence.

A typical test case processed by the following steps:

a test descriptor get parsed to figure out which arguments are to be provided into the NASM command line;
invoke the NASM with arguments;
compare generated files with precompiled templates.

nasm-t.py supports the following commands:

list: to list all test cases
run: to run test cases
update: to update precompiled templates

Use nasm-t.py -h command to get the detailed description of every option.

Test unit structure

Each test consists at least of three files:

a test descriptor in with *.json extension;
a source file to compile;
a target file to compare result with, it is assumed to have the same name as output generated during the pass file but with *.t extension; thus if a test generates *.bin file the appropriate target should have *.bin.t name.

Running tests

To run all currently available tests simply type the following

python3 travis/nasm-t.py run

By default the nasm-t.py scans test subdirectory for *.json files and consider each as a test descriptor. Then every test is executed sequentially. If the descriptor can not be parsed it silently ignored.

To run a particular test provide the test name, for example

python3 travis/nasm-t.py list
...
./travis/test/utf                Test __utf__ helpers
./travis/test/utf                Test errors in __utf__ helpers
...
python3 travis/nasm-t.py run -t ./travis/test/utf

Test name duplicates in the listing above means that the descriptor carries several tests with same name but different options.

Test descriptor file

A descriptor file should provide enough information how to run the NASM itself and which output files or streams to compare with predefined ones. We use JSON format with the following fields:

description: a short description of a test which is shown to a user when tests are being listed;
id: descriptor internal name to use with ref field;
ref: a reference to id from where settings should be copied, it is convenient when say only option is different while the rest of the fields are the same;
format: NASM output format to use (bin,elf and etc);
source: is a source file name to compile, this file must be shipped together with descriptor file itself;
option: an additional option passed to the command line;
update: a trigger to skip updating targets when running an update procedure;
target: an array of targets which the test engine should check once compilation finished:
- stderr: a file containing stderr stream output to check;
- stdout: a file containing stdout stream output to check;
- output: a file containing compiled result to check, in other words it is a name passed as -o option to the compiler;
error: an error handler, can be either over to ignore any error happened, or expected to make sure the test is failing.

Examples

A simple test where no additional options are used, simply compile absolute.asm file with bin format for output, then compare produced absolute.bin file with precompiled absolute.bin.t.

{
	"description": "Check absolute addressing",
	"format": "bin",
	"source": "absolute.asm",
	"target": [
		{ "output": "absolute.bin" }
	]
}

Note the output target is named as absolute.bin where absolute.bin.t should be already precompiled (we will talk about it in update action) and present on disk.

A slightly complex example: compile one source file with different optimization options and all results must be the same. To not write three descriptors we assign id to the first one and use ref term to copy settings. Also, it is expected that stderr stream will not be empty but carry some warnings to compare.

[
	{
		"description": "Check 64-bit addressing (-Ox)",
		"id": "addr64x",
		"format": "bin",
		"source": "addr64x.asm",
		"option": "-Ox",
		"target": [
			{ "output": "addr64x.bin" },
			{ "stderr": "addr64x.stderr" }
		]
	},
	{
		"description": "Check 64-bit addressing (-O1)",
		"ref": "addr64x",
		"option": "-O1",
		"update": "false"
	},
	{
		"description": "Check 64-bit addressing (-O0)",
		"ref": "addr64x",
		"option": "-O0",
		"update": "false"
	}
]

Updating tests

If during development some of the targets are expected to change the tests will start to fail so the should be updated. Thus new precompiled results will be treated as templates to compare with.

To update all tests in one pass run

python3 travis/nasm-t.py update
...
=== Updating ./travis/test/xcrypt ===
	Processing ./travis/test/xcrypt
	Executing ./nasm -f bin -o ./travis/test/xcrypt.bin ./travis/test/xcrypt.asm
	Moving ./travis/test/xcrypt.bin to ./travis/test/xcrypt.bin.t
=== Test ./travis/test/xcrypt UPDATED ===
...

and commit the results. To update a particular test provide its name with -t option.