# # Migration test scenario comparison mapping # # Copyright (c) 2016 Red Hat, Inc. # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, see . # from guestperf.scenario import Scenario class Comparison(object): def __init__(self, name, scenarios): self._name = name self._scenarios = scenarios COMPARISONS = [ # Looking at effect of pausing guest during migration # at various stages of iteration over RAM Comparison("pause-iters", scenarios = [ Scenario("pause-iters-0", pause=True, pause_iters=0), Scenario("pause-iters-1", pause=True, pause_iters=1), Scenario("pause-iters-5", pause=True, pause_iters=5), Scenario("pause-iters-20", pause=True, pause_iters=20), ]), # Looking at use of post-copy in relation to bandwidth # available for migration Comparison("post-copy-bandwidth", scenarios = [ Scenario("post-copy-bw-100mbs", post_copy=True, bandwidth=12), Scenario("post-copy-bw-300mbs", post_copy=True, bandwidth=37), Scenario("post-copy-bw-1gbs", post_copy=True, bandwidth=125), Scenario("post-copy-bw-10gbs", post_copy=True, bandwidth=1250), Scenario("post-copy-bw-100gbs", post_copy=True, bandwidth=12500), ]), # Looking at effect of starting post-copy at different # stages of the migration Comparison("post-copy-iters", scenarios = [ Scenario("post-copy-iters-0", post_copy=True, post_copy_iters=0), Scenario("post-copy-iters-1", post_copy=True, post_copy_iters=1), Scenario("post-copy-iters-5", post_copy=True, post_copy_iters=5), Scenario("post-copy-iters-20", post_copy=True, post_copy_iters=20), ]), # Looking at effect of auto-converge with different # throttling percentage step rates Comparison("auto-converge-iters", scenarios = [ Scenario("auto-converge-step-5", auto_converge=True, auto_converge_step=5), Scenario("auto-converge-step-10", auto_converge=True, auto_converge_step=10), Scenario("auto-converge-step-20", auto_converge=True, auto_converge_step=20), ]), # Looking at use of auto-converge in relation to bandwidth # available for migration Comparison("auto-converge-bandwidth", scenarios = [ Scenario("auto-converge-bw-100mbs", auto_converge=True, bandwidth=12), Scenario("auto-converge-bw-300mbs", auto_converge=True, bandwidth=37), Scenario("auto-converge-bw-1gbs", auto_converge=True, bandwidth=125), Scenario("auto-converge-bw-10gbs", auto_converge=True, bandwidth=1250), Scenario("auto-converge-bw-100gbs", auto_converge=True, bandwidth=12500), ]), # Looking at effect of multi-thread compression with # varying numbers of threads Comparison("compr-mt", scenarios = [ Scenario("compr-mt-threads-1", compression_mt=True, compression_mt_threads=1), Scenario("compr-mt-threads-2", compression_mt=True, compression_mt_threads=2), Scenario("compr-mt-threads-4", compression_mt=True, compression_mt_threads=4), ]), # Looking at effect of xbzrle compression with varying # cache sizes Comparison("compr-xbzrle", scenarios = [ Scenario("compr-xbzrle-cache-5", compression_xbzrle=True, compression_xbzrle_cache=5), Scenario("compr-xbzrle-cache-10", compression_xbzrle=True, compression_xbzrle_cache=10), Scenario("compr-xbzrle-cache-20", compression_xbzrle=True, compression_xbzrle_cache=10), Scenario("compr-xbzrle-cache-50", compression_xbzrle=True, compression_xbzrle_cache=50), ]), ]