#!/bin/python3 """This is an openQA template loader/converter for FIF, the Fedora Intermediate Format. It reads from one or more files expected to contain FIF JSON-formatted template data; read on for details on this format as it compares to the upstream format. It produces data in the upstream format; it can write this data to a JSON file and/or call the upstream loader on it directly, depending on the command-line arguments specified. The input data must contain definitions of Machines, Products, TestSuites, and Profiles. The input data *may* contain JobTemplates, but does not have to and is expected to contain none or only a few oddballs. The format for Machines, Products and TestSuites is based on the upstream format but with various quality-of-life improvements. Upstream, each of these is a list-of-dicts, each dict containing a 'name' key. This loader expects each to be a dict-of-dicts, with the names as keys (this is both easier to read and easier to access). In the upstream format, each Machine, Product and TestSuite dict can contain an entry with the key 'settings' which defines variables. The value (for some reason...) is a list of dicts, each dict of the format {"key": keyname, "value": value}. This loader expects a more obvious and simple format where the value of the 'settings' key is simply a dict of keys and values. The expected format of the Profiles dict is a dict-of-dicts. For each entry, the key is a unique name, and the value is a dict with keys 'machine' and 'product', each value being a valid name from the Machines or Products dict respectively. The name of each profile can be anything as long as it's unique. For TestSuites, this loader then expects an additional 'profiles' key in each dict, whose value is a dict indicating the Profiles from which we should generate one or more job templates for that test suite. For each entry in the dict, the key is a profile name from the Profiles dict, and the value is the priority to give the generated job template. This loader will generate JobTemplates from the combination of TestSuites and Profiles. It means that, for instance, if you want to add a new test suite and run it on the same set of images and arches as several other tests are already run, you do not need to do a large amount of copying and pasting to create a bunch of JobTemplates that look a lot like other existing JobTemplates but with a different test_suite value; you can just specify an appropriate profiles dict, which is much shorter and easier and less error-prone. Thus specifying JobTemplates directly is not usually needed and is expected to be used only for some oddball case which the generation system does not handle. The loader will automatically set the group_name for each job template based on Fedora-specific logic which we previously followed manually when creating job templates (e.g. it is set to 'Fedora PowerPC' for compose tests run on the PowerPC arch); thus this loader is not really generic but specific to Fedora conventions. This could possibly be changed (e.g. by allowing the logic for deciding group names to be configurable) if anyone else wants to use it. Multiple input files will be combined. Mostly this involves simply updating dicts, but there is special handling for TestSuites to allow multiple input files to each include entries for 'the same' test suite, but with different profile dicts. So for instance one input file may contain a complete TestSuite definition, with the value of its `profiles` key as `{'foo': 10}`. Another input file may contain a TestSuite entry with the same key (name) as the complete definition in the other file, and the value as a dict with only a `profiles` key (with the value `{'bar': 20}`). This loader will combine those into a single complete TestSuite entry with the `profiles` value `{'foo': 10, 'bar': 20}`. """ import argparse import json import subprocess import sys def merge_inputs(inputs): """Merge multiple input files. Expects JSON file names. Returns a 5-tuple of machines, products, profiles, testsuites and jobtemplates (the first four as dicts, the fifth as a list). """ machines = {} products = {} profiles = {} testsuites = {} jobtemplates = [] for input in inputs: try: with open(input, 'r') as inputfh: data = json.load(inputfh) except err: print("Reading input file {} failed!".format(input)) sys.exit(str(err)) # simple merges for all these for (datatype, tgt) in ( ('Machines', machines), ('Products', products), ('Profiles', profiles), ('JobTemplates', jobtemplates), ): if datatype in data: if datatype == 'JobTemplates': tgt.extend(data[datatype]) else: tgt.update(data[datatype]) # special testsuite merging as described in the docstring if 'TestSuites' in data: for (name, newsuite) in data['TestSuites'].items(): try: existing = testsuites[name] # combine and stash the profiles existing['profiles'].update(newsuite['profiles']) combinedprofiles = existing['profiles'] # now update the existing suite with the new one, this # will overwrite the profiles existing.update(newsuite) # now restore the combined profiles existing['profiles'] = combinedprofiles except KeyError: testsuites[name] = newsuite return (machines, products, profiles, testsuites, jobtemplates) def generate_job_templates(machines, products, profiles, testsuites): """Given machines, products, profiles and testsuites (after merging, but still in intermediate format), generates job templates and returns them as a list. """ jobtemplates = [] for (name, suite) in testsuites.items(): if 'profiles' not in suite: print("Warning: no profiles for test suite {}".format(name)) continue for (profile, prio) in suite['profiles'].items(): jobtemplate = {'test_suite': {'name': name}, 'prio': prio} # x86_64 compose jobtemplate['group_name'] = 'fedora' jobtemplate['machine'] = {'name': profiles[profile]['machine']} product = products[profiles[profile]['product']] jobtemplate['product'] = { 'arch': product['arch'], 'flavor': product['flavor'], 'distri': product['distri'], 'version': product['version'] } if jobtemplate['machine']['name'] == 'ppc64le': if 'updates' in product['flavor']: jobtemplate['group_name'] = "Fedora PowerPC Updates" else: jobtemplate['group_name'] = "Fedora PowerPC" elif jobtemplate['machine']['name'] == 'aarch64': if 'updates' in product['flavor']: jobtemplate['group_name'] = "Fedora AArch64 Updates" else: jobtemplate['group_name'] = "Fedora AArch64" elif 'updates' in product['flavor']: # x86_64 updates jobtemplate['group_name'] = "Fedora Updates" jobtemplates.append(jobtemplate) return jobtemplates def reverse_qol(machines, products, testsuites): """Reverse all our quality-of-life improvements in Machines, Products and TestSuites. We don't do profiles as only this loader uses them, upstream loader does not. We don't do jobtemplates as we don't do any QOL stuff for that. Returns the same tuple it's passed. """ # first, some nested convenience functions def to_list_of_dicts(datadict): """Convert our nice dicts to upstream's stupid list-of-dicts-with -name-keys. """ converted = [] for (name, item) in datadict.items(): item['name'] = name converted.append(item) return converted def dumb_settings(settdict): """Convert our sensible settings dicts to upstream's weird-ass list-of-dicts format. """ converted = [] for (key, value) in settdict.items(): converted.append({'key': key, 'value': value}) return converted machines = to_list_of_dicts(machines) products = to_list_of_dicts(products) testsuites = to_list_of_dicts(testsuites) for datatype in (machines, products, testsuites): for item in datatype: item['settings'] = dumb_settings(item['settings']) if 'profiles' in item: # this is only part of the intermediate format, should # not be in the final output del item['profiles'] return (machines, products, testsuites) def parse_args(): """Parse arguments with argparse.""" parser = argparse.ArgumentParser(description=( "Alternative openQA template loader/generator, using a more " "convenient input format. See docstring for details. ")) parser.add_argument( '-l', '--load', help="Load the generated templates into openQA.", action='store_true') parser.add_argument( '--loader', help="Loader to use with --load", default="/usr/share/openqa/script/load_templates") parser.add_argument( '-w', '--write', help="Write the generated templates in JSON " "format.", action='store_true') parser.add_argument( '--filename', help="Filename to write with --write", default="generated.json") parser.add_argument( '--host', help="If specified with --load, gives a host " "to load the templates to. Is passed unmodified to upstream " "loader.") parser.add_argument( '-c', '--clean', help="If specified with --load, passed to " "upstream loader and behaves as documented there.", action='store_true') parser.add_argument( '-u', '--update', help="If specified with --load, passed to " "upstream loader and behaves as documented there.", action='store_true') parser.add_argument( 'files', help="Input JSON files", nargs='+') return parser.parse_args() def run(): """Read in arguments and run the appropriate steps.""" args = parse_args() if not args.write and not args.load: sys.exit("Neither --write nor --load specified! Doing nothing.") (machines, products, profiles, testsuites, jobtemplates) = merge_inputs(args.files) jobtemplates.extend(generate_job_templates(machines, products, profiles, testsuites)) (machines, products, testsuites) = reverse_qol(machines, products, testsuites) # now produce the output in upstream-compatible format out = { 'JobTemplates': jobtemplates, 'Machines': machines, 'Products': products, 'TestSuites': testsuites } if args.write: # write generated output to given filename with open(args.filename, 'w') as outfh: json.dump(out, outfh, indent=4) if args.load: # load generated output with given loader (defaults to # /usr/share/openqa/script/load_templates) loadargs = [args.loader] if args.host: loadargs.extend(['--host', args.host]) if args.clean: loadargs.append('--clean') if args.update: loadargs.append('--update') loadargs.append('-') subprocess.run(loadargs, input=json.dumps(out), text=True) def main(): """Main loop.""" try: run() except KeyboardInterrupt: sys.stderr.write("Interrupted, exiting...\n") sys.exit(1) if __name__ == '__main__': main() # vim: set textwidth=100 ts=8 et sw=4: