octavia/tools/create_flow_docs.py
Michael Johnson d5fe092a3e Update amphora v2 for the failover refactor
This patch will update the amphora v2 code for the failover refactor[1].

[1] https://review.opendev.org/705317

Change-Id: I43803d0b750e8ca4722ababe296f2725148da405
2020-09-03 11:48:14 +04:00

205 lines
9.4 KiB
Python
Executable File

#!/usr/bin/env python
# Copyright 2016 Hewlett Packard Enterprise Development Company LP
#
# 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.
#
import argparse
import importlib
import os
import graphviz
from taskflow import engines
from octavia.api.drivers import utils
from octavia.common import constants
from octavia.tests.common import data_model_helpers as dmh
def main():
arg_parser = argparse.ArgumentParser(
description='Generate graphviz representations of the '
'Octavia TaskFlow flows.')
arg_parser.add_argument('-f', '--flow-list', required=True,
help='Path to flow list file')
arg_parser.add_argument('-o', '--output-directory', required=True,
help='Path to flow list file')
args = arg_parser.parse_args()
generate(args.flow_list, args.output_directory)
def generate(flow_list, output_directory):
# Create the diagrams
base_path = os.path.join(os.path.dirname(os.path.realpath(__file__)),
os.path.pardir)
diagram_list = []
with open(os.path.join(base_path, flow_list), 'r') as flowlist:
for row in flowlist:
if row.startswith('#'):
continue
current_tuple = tuple(row.strip().split(' '))
current_class = getattr(importlib.import_module(current_tuple[0]),
current_tuple[1])
current_instance = current_class()
get_flow_method = getattr(current_instance, current_tuple[2])
if (current_tuple[1] == 'AmphoraFlows' and
current_tuple[2] == 'get_failover_amphora_flow'):
amp1 = dmh.generate_amphora()
amp2 = dmh.generate_amphora()
lb = dmh.generate_load_balancer(amphorae=[amp1, amp2])
if 'v2' in current_tuple[0]:
lb = utils.lb_dict_to_provider_dict(lb.to_dict())
amp1 = amp1.to_dict()
current_engine = engines.load(
get_flow_method(amp1, 2))
elif (current_tuple[1] == 'LoadBalancerFlows' and
current_tuple[2] == 'get_create_load_balancer_flow'):
current_engine = engines.load(
get_flow_method(
constants.TOPOLOGY_ACTIVE_STANDBY))
elif (current_tuple[1] == 'LoadBalancerFlows' and
current_tuple[2] == 'get_delete_load_balancer_flow'):
lb = dmh.generate_load_balancer()
if 'v2' in current_tuple[0]:
lb = utils.lb_dict_to_provider_dict(lb.to_dict())
delete_flow = get_flow_method(lb)
else:
delete_flow, store = get_flow_method(lb)
current_engine = engines.load(delete_flow)
elif (current_tuple[1] == 'LoadBalancerFlows' and
current_tuple[2] == 'get_cascade_delete_load_balancer_flow'):
listeners = [{constants.LISTENER_ID:
'368dffc7-7440-4ee0-aca5-11052d001b05'},
{constants.LISTENER_ID:
'd9c45ec4-9dbe-491b-9f21-6886562348bf'}]
pools = [{constants.POOL_ID:
'6886a40b-1f2a-41a3-9ece-5c51845a7ac4'},
{constants.POOL_ID:
'08ada7a2-3eff-42c6-bdd8-b6f2ecd73358'}]
lb = dmh.generate_load_balancer()
if 'v2' in current_tuple[0]:
lb = utils.lb_dict_to_provider_dict(lb.to_dict())
delete_flow = get_flow_method(lb, listeners, pools)
else:
delete_flow, store = get_flow_method(lb)
current_engine = engines.load(delete_flow)
elif (current_tuple[1] == 'LoadBalancerFlows' and
current_tuple[2] == 'get_failover_LB_flow'):
amp1 = dmh.generate_amphora()
amp2 = dmh.generate_amphora()
lb = dmh.generate_load_balancer(
amphorae=[amp1, amp2],
topology=constants.TOPOLOGY_ACTIVE_STANDBY)
if 'v2' in current_tuple[0]:
lb = utils.lb_dict_to_provider_dict(lb.to_dict())
flavor = {constants.LOADBALANCER_TOPOLOGY:
constants.TOPOLOGY_ACTIVE_STANDBY}
lb[constants.FLAVOR] = flavor
amp1 = amp1.to_dict()
amp2 = amp2.to_dict()
current_engine = engines.load(
get_flow_method([amp1, amp2], lb))
elif (current_tuple[1] == 'MemberFlows' and
current_tuple[2] == 'get_batch_update_members_flow'):
current_engine = engines.load(
get_flow_method([], [], []))
else:
current_engine = engines.load(get_flow_method())
current_engine.compile()
# We need to render svg and not dot here so we can scale
# the image in the restructured text page
src = graphviz.Source(current_engine.compilation.
execution_graph.export_to_dot())
src.format = 'svg'
src.render(filename=current_tuple[1] + '-' + current_tuple[2],
directory=os.path.join(base_path, output_directory),
cleanup=True)
diagram_list.append((current_tuple[1], current_tuple[2]))
# Create the class docs
diagram_list = sorted(diagram_list, key=getDiagKey)
class_tracker = None
current_doc_file = None
for doc_tuple in diagram_list:
# If we are still working on the same class, append
if doc_tuple[0] == class_tracker:
current_doc_file.write('\n')
current_doc_file.write(doc_tuple[1] + '\n')
current_doc_file.write('-' * len(doc_tuple[1]) + '\n')
current_doc_file.write('\n')
current_doc_file.write('.. only:: html\n')
current_doc_file.write('\n')
current_doc_file.write(' .. image:: ' + doc_tuple[0] +
'-' + doc_tuple[1] + '.svg\n')
current_doc_file.write(' :width: 660px\n')
current_doc_file.write(' :target: ../../../_images/' +
doc_tuple[0] +
'-' + doc_tuple[1] + '.svg\n')
current_doc_file.write('\n')
current_doc_file.write('.. only:: latex\n')
current_doc_file.write('\n')
current_doc_file.write(' .. image:: ' + doc_tuple[0] +
'-' + doc_tuple[1] + '.svg\n')
current_doc_file.write(' :width: 660px\n')
# First or new class, create the file
else:
if current_doc_file is not None:
current_doc_file.close()
current_doc_file = open(os.path.join(
base_path, output_directory, doc_tuple[0] + '.rst'), 'w+')
class_tracker = doc_tuple[0]
file_title = constants.FLOW_DOC_TITLES.get(doc_tuple[0],
'Unknown Flows')
current_doc_file.write('=' * len(file_title) + '\n')
current_doc_file.write(file_title + '\n')
current_doc_file.write('=' * len(file_title) + '\n')
current_doc_file.write('\n')
current_doc_file.write('.. contents::\n')
current_doc_file.write(' :depth: 2\n')
current_doc_file.write(' :backlinks: top\n')
current_doc_file.write('\n')
current_doc_file.write('.. only:: html\n')
current_doc_file.write('\n')
current_doc_file.write(' Click on any flow to view full size.\n')
current_doc_file.write('\n')
current_doc_file.write(doc_tuple[1] + '\n')
current_doc_file.write('-' * len(doc_tuple[1]) + '\n')
current_doc_file.write('\n')
current_doc_file.write('.. only:: html\n')
current_doc_file.write('\n')
current_doc_file.write(' .. image:: ' + doc_tuple[0] +
'-' + doc_tuple[1] + '.svg\n')
current_doc_file.write(' :width: 660px\n')
current_doc_file.write(' :target: ../../../_images/' +
doc_tuple[0] +
'-' + doc_tuple[1] + '.svg\n')
current_doc_file.write('\n')
current_doc_file.write('.. only:: latex\n')
current_doc_file.write('\n')
current_doc_file.write(' .. image:: ' + doc_tuple[0] +
'-' + doc_tuple[1] + '.svg\n')
current_doc_file.write(' :width: 660px\n')
current_doc_file.close()
def getDiagKey(item):
return item[0] + '-' + item[1]
if __name__ == "__main__":
main()