On Tue, 2 Jun 2020 14:19:08 +0200 Philippe Mathieu-Daudé <phi...@redhat.com> wrote:
> +Cleber/Wainer
>
> On 5/11/20 2:27 PM, Lukas Straub wrote:
> > Add high-level test relying on the colo resource-agent to test
> > all failover cases while checking guest network connectivity.
> >
> > Signed-off-by: Lukas Straub <lukasstra...@web.de>
> > ---
> > scripts/colo-resource-agent/crm_master | 44 ++
> > scripts/colo-resource-agent/crm_resource | 12 +
> > tests/acceptance/colo.py | 689 +++++++++++++++++++++++
> > 3 files changed, 745 insertions(+)
> > create mode 100755 scripts/colo-resource-agent/crm_master
> > create mode 100755 scripts/colo-resource-agent/crm_resource
> > create mode 100644 tests/acceptance/colo.py
> >
> > diff --git a/scripts/colo-resource-agent/crm_master
> > b/scripts/colo-resource-agent/crm_master
> > new file mode 100755
> > index 0000000000..886f523bda
> > --- /dev/null
> > +++ b/scripts/colo-resource-agent/crm_master
> > @@ -0,0 +1,44 @@
> > +#!/bin/bash
> > +
> > +# Fake crm_master for COLO testing
> > +#
> > +# Copyright (c) Lukas Straub <lukasstra...@web.de>
> > +#
> > +# This work is licensed under the terms of the GNU GPL, version 2 or
> > +# later. See the COPYING file in the top-level directory.
> > +
> > +TMPDIR="$HA_RSCTMP"
> > +score=0
> > +query=0
> > +
> > +OPTIND=1
> > +while getopts 'Qql:Dv:N:G' opt; do
> > + case "$opt" in
> > + Q|q)
> > + # Noop
> > + ;;
> > + "l")
> > + # Noop
> > + ;;
> > + "D")
> > + score=0
> > + ;;
> > + "v")
> > + score=$OPTARG
> > + ;;
> > + "N")
> > + TMPDIR="$COLO_TEST_REMOTE_TMP"
> > + ;;
> > + "G")
> > + query=1
> > + ;;
> > + esac
> > +done
> > +
> > +if (( query )); then
> > + cat "${TMPDIR}/master_score" || exit 1
> > +else
> > + echo $score > "${TMPDIR}/master_score" || exit 1
> > +fi
> > +
> > +exit 0
> > diff --git a/scripts/colo-resource-agent/crm_resource
> > b/scripts/colo-resource-agent/crm_resource
> > new file mode 100755
> > index 0000000000..ad69ff3c6b
> > --- /dev/null
> > +++ b/scripts/colo-resource-agent/crm_resource
> > @@ -0,0 +1,12 @@
> > +#!/bin/sh
> > +
> > +# Fake crm_resource for COLO testing
> > +#
> > +# Copyright (c) Lukas Straub <lukasstra...@web.de>
> > +#
> > +# This work is licensed under the terms of the GNU GPL, version 2 or
> > +# later. See the COPYING file in the top-level directory.
> > +
> > +# Noop
> > +
> > +exit 0
> > diff --git a/tests/acceptance/colo.py b/tests/acceptance/colo.py
> > new file mode 100644
> > index 0000000000..465513fb6c
> > --- /dev/null
> > +++ b/tests/acceptance/colo.py
> > @@ -0,0 +1,689 @@
> > +# High-level test suite for qemu COLO testing all failover cases while
> > checking
> > +# guest network connectivity
> > +#
> > +# Copyright (c) Lukas Straub <lukasstra...@web.de>
> > +#
> > +# This work is licensed under the terms of the GNU GPL, version 2 or
> > +# later. See the COPYING file in the top-level directory.
> > +
> > +# HOWTO:
> > +#
> > +# This test has the following parameters:
> > +# bridge_name: name of the bridge interface to connect qemu to
> > +# host_address: ip address of the bridge interface
> > +# guest_address: ip address that the guest gets from the dhcp server
> > +# bridge_helper: path to the brige helper
> > +# (default: /usr/lib/qemu/qemu-bridge-helper)
> > +# install_cmd: command to run to install iperf3 and memtester in the guest
> > +# (default: "sudo -n dnf -q -y install iperf3 memtester")
> > +#
> > +# To run the network tests, you have to specify the parameters.
> > +#
> > +# Example for running the colo tests:
> > +# make check-acceptance FEDORA_31_ARCHES="x86_64" AVOCADO_TAGS="-t colo \
> > +# -p bridge_name=br0 -p host_address=192.168.220.1 \
> > +# -p guest_address=192.168.220.222"
> > +#
> > +# The colo tests currently only use x86_64 test vm images. With the
> > +# FEDORA_31_ARCHES make variable as in the example, only the x86_64 images
> > will
> > +# be downloaded.
> > +#
> > +# If you're running the network tests as an unprivileged user, you need to
> > set
> > +# the suid bit on the bridge helper (chmod +s <bridge-helper>).
> > +#
> > +# The dhcp server should assign a static ip to the guest, else the test
> > may be
> > +# unreliable. The Mac address for the guest is always 52:54:00:12:34:56.
> > +
> > +
> > +import select
> > +import sys
> > +import subprocess
> > +import shutil
> > +import os
> > +import signal
> > +import os.path
> > +import time
> > +import tempfile
> > +
> > +from avocado import Test
> > +from avocado import skipUnless
> > +from avocado.utils import network
> > +from avocado.utils import vmimage
> > +from avocado.utils import cloudinit
> > +from avocado.utils import ssh
> > +from avocado.utils.path import find_command
> > +
> > +from avocado_qemu import pick_default_qemu_bin, BUILD_DIR, SOURCE_DIR
> > +from qemu.qmp import QEMUMonitorProtocol
> > +
> > +def iperf3_available():
> > + try:
> > + find_command("iperf3")
> > + except CmdNotFoundError:
> > + return False
> > + return True
> > +
> > +class ColoTest(Test):
> > +
> > + # Constants
> > + OCF_SUCCESS = 0
> > + OCF_ERR_GENERIC = 1
> > + OCF_ERR_ARGS = 2
> > + OCF_ERR_UNIMPLEMENTED = 3
> > + OCF_ERR_PERM = 4
> > + OCF_ERR_INSTALLED = 5
> > + OCF_ERR_CONFIGURED = 6
> > + OCF_NOT_RUNNING = 7
> > + OCF_RUNNING_MASTER = 8
> > + OCF_FAILED_MASTER = 9
> > +
> > + HOSTA = 10
> > + HOSTB = 11
> > +
> > + QEMU_OPTIONS = (" -display none -vga none -enable-kvm"
> > + " -smp 2 -cpu host -m 768"
> > + " -device e1000,mac=52:54:00:12:34:56,netdev=hn0"
> > + " -device virtio-blk,drive=colo-disk0")
> > +
> > + FEDORA_VERSION = "31"
> > + IMAGE_CHECKSUM =
> > "e3c1b309d9203604922d6e255c2c5d098a309c2d46215d8fc026954f3c5c27a0"
> > + IMAGE_SIZE = "4294967296b"
> > +
> > + hang_qemu = False
> > + checkpoint_failover = False
> > + traffic_procs = []
> > +
> > + def get_image(self, temp_dir):
> > + try:
> > + return vmimage.get(
> > + "fedora", arch="x86_64", version=self.FEDORA_VERSION,
> > + checksum=self.IMAGE_CHECKSUM, algorithm="sha256",
> > + cache_dir=self.cache_dirs[0],
> > + snapshot_dir=temp_dir)
> > + except:
> > + self.cancel("Failed to download/prepare image")
> > +
> > + @skipUnless(ssh.SSH_CLIENT_BINARY, "No SSH client available")
> > + def setUp(self):
> > + # Qemu and qemu-img binary
> > + default_qemu_bin = pick_default_qemu_bin()
> > + self.QEMU_BINARY = self.params.get("qemu_bin",
> > default=default_qemu_bin)
> > +
> > + # If qemu-img has been built, use it, otherwise the system wide one
> > + # will be used. If none is available, the test will cancel.
> > + qemu_img = os.path.join(BUILD_DIR, "qemu-img")
> > + if not os.path.exists(qemu_img):
> > + qemu_img = find_command("qemu-img", False)
> > + if qemu_img is False:
> > + self.cancel("Could not find \"qemu-img\", which is required to
> > "
> > + "create the bootable image")
> > + self.QEMU_IMG_BINARY = qemu_img
>
> Probably worth refactoring that as re-usable pick_qemuimg_bin() or
> better named?
>
> Similarly with BRIDGE_HELPER... We need a generic class to get binaries
> from environment or build dir.
Agreed, I think a new function pick_qemu_util similar to this code in
tests/acceptance/avocado_qemu/__init__.py should suffice.
> > + vmimage.QEMU_IMG = qemu_img
> > +
> > + self.RESOURCE_AGENT = os.path.join(SOURCE_DIR,
> > +
> > "scripts/colo-resource-agent/colo")
> > + self.ADD_PATH = os.path.join(SOURCE_DIR,
> > "scripts/colo-resource-agent")
> > +
> > + # Logs
> > + self.RA_LOG = os.path.join(self.outputdir, "resource-agent.log")
> > + self.HOSTA_LOGDIR = os.path.join(self.outputdir, "hosta")
> > + self.HOSTB_LOGDIR = os.path.join(self.outputdir, "hostb")
> > + os.makedirs(self.HOSTA_LOGDIR)
> > + os.makedirs(self.HOSTB_LOGDIR)
> > +
> > + # Temporary directories
> > + # We don't use self.workdir because of unix socket path length
> > + # limitations
> > + self.TMPDIR = tempfile.mkdtemp()
> > + self.TMPA = os.path.join(self.TMPDIR, "hosta")
> > + self.TMPB = os.path.join(self.TMPDIR, "hostb")
> > + os.makedirs(self.TMPA)
> > + os.makedirs(self.TMPB)
> > +
> > + # Network
> > + self.BRIDGE_NAME = self.params.get("bridge_name")
> > + if self.BRIDGE_NAME:
> > + self.HOST_ADDRESS = self.params.get("host_address")
> > + self.GUEST_ADDRESS = self.params.get("guest_address")
> > + self.BRIDGE_HELPER = self.params.get("bridge_helper",
> > +
> > default="/usr/lib/qemu/qemu-bridge-helper")
> > + self.SSH_PORT = 22
> > + else:
> > + # QEMU's hard coded usermode router address
> > + self.HOST_ADDRESS = "10.0.2.2"
> > + self.GUEST_ADDRESS = "127.0.0.1"
> > + self.BRIDGE_HOSTA_PORT =
> > network.find_free_port(address="127.0.0.1")
> > + self.BRIDGE_HOSTB_PORT =
> > network.find_free_port(address="127.0.0.1")
> > + self.SSH_PORT = network.find_free_port(address="127.0.0.1")
> > +
> > + self.CLOUDINIT_HOME_PORT = network.find_free_port()
> > +
> > + # Find free port range
> > + base_port = 1024
> > + while True:
> > + base_port = network.find_free_port(start_port=base_port,
> > + address="127.0.0.1")
> > + if base_port == None:
> > + self.cancel("Failed to find a free port")
> > + for n in range(base_port, base_port +4):
> > + if n > 65535:
> > + break
> > + if not network.is_port_free(n, "127.0.0.1"):
> > + break
> > + else:
> > + # for loop above didn't break
> > + break
> > +
> > + self.BASE_PORT = base_port
> > +
> > + # Disk images
> > + self.log.info("Downloading/preparing boot image")
> > + self.HOSTA_IMAGE = self.get_image(self.TMPA).path
> > + self.HOSTB_IMAGE = self.get_image(self.TMPB).path
> > + self.CLOUDINIT_ISO = os.path.join(self.TMPDIR, "cloudinit.iso")
> > +
> > + self.log.info("Preparing cloudinit image")
> > + try:
> > + cloudinit.iso(self.CLOUDINIT_ISO, self.name,
> > + username="test", password="password",
> > + phone_home_host=self.HOST_ADDRESS,
> > + phone_home_port=self.CLOUDINIT_HOME_PORT)
> > + except Exception as e:
> > + self.cancel("Failed to prepare cloudinit image")
> > +
> > + self.QEMU_OPTIONS += " -cdrom %s" % self.CLOUDINIT_ISO
> > +
> > + # Network bridge
> > + if not self.BRIDGE_NAME:
> > + self.BRIDGE_PIDFILE = os.path.join(self.TMPDIR, "bridge.pid")
> > + self.run_command(("'%s' -pidfile '%s'"
> > + " -M none -display none -daemonize"
> > + " -netdev user,id=host,hostfwd=tcp:127.0.0.1:%s-:22"
> > + " -netdev socket,id=hosta,listen=127.0.0.1:%s"
> > + " -netdev socket,id=hostb,listen=127.0.0.1:%s"
> > + " -netdev hubport,id=hostport,hubid=0,netdev=host"
> > + " -netdev hubport,id=porta,hubid=0,netdev=hosta"
> > + " -netdev hubport,id=portb,hubid=0,netdev=hostb")
> > + % (self.QEMU_BINARY, self.BRIDGE_PIDFILE, self.SSH_PORT,
> > + self.BRIDGE_HOSTA_PORT, self.BRIDGE_HOSTB_PORT), 0)
> > +
> > + def tearDown(self):
> > + try:
> > + pid = self.read_pidfile(self.BRIDGE_PIDFILE)
> > + if pid and self.check_pid(pid):
> > + os.kill(pid, signal.SIGKILL)
> > + except Exception as e:
> > + pass
> > +
> > + try:
> > + self.ra_stop(self.HOSTA)
> > + except Exception as e:
> > + pass
> > +
> > + try:
> > + self.ra_stop(self.HOSTB)
> > + except Exception as e:
> > + pass
> > +
> > + try:
> > + self.ssh_close()
> > + except Exception as e:
> > + pass
> > +
> > + for proc in self.traffic_procs:
> > + try:
> > + os.killpg(proc.pid, signal.SIGTERM)
> > + except Exception as e:
> > + pass
> > +
> > + shutil.rmtree(self.TMPDIR)
> > +
> > + def run_command(self, cmdline, expected_status, env=None):
> > + proc = subprocess.Popen(cmdline, shell=True,
> > stdout=subprocess.PIPE,
> > + stderr=subprocess.STDOUT,
> > + universal_newlines=True, env=env)
> > + stdout, stderr = proc.communicate()
> > + if proc.returncode != expected_status:
> > + self.fail("command \"%s\" failed with code %s:\n%s"
> > + % (cmdline, proc.returncode, stdout))
> > +
> > + return proc.returncode
> > +
> > + def cat_line(self, path):
> > + line=""
> > + try:
> > + fd = open(path, "r")
> > + line = str.strip(fd.readline())
> > + fd.close()
> > + except:
> > + pass
> > + return line
> > +
> > + def read_pidfile(self, pidfile):
> > + try:
> > + pid = int(self.cat_line(pidfile))
> > + except ValueError:
> > + return None
> > + else:
> > + return pid
> > +
> > + def check_pid(self, pid):
> > + try:
> > + os.kill(pid, 0)
> > + except OSError:
> > + return False
> > + else:
> > + return True
> > +
> > + def ssh_open(self):
> > + self.ssh_conn = ssh.Session(self.GUEST_ADDRESS, self.SSH_PORT,
> > + user="test", password="password")
> > + self.ssh_conn.DEFAULT_OPTIONS += (("UserKnownHostsFile",
> > "/dev/null"),)
> > + for i in range(10):
> > + try:
> > + if self.ssh_conn.connect():
> > + return
> > + except Exception as e:
> > + pass
> > + time.sleep(4)
> > + self.fail("sshd timeout")
> > +
> > + def ssh_ping(self):
> > + if self.ssh_conn.cmd("echo ping").stdout != b"ping\n":
> > + self.fail("ssh ping failed")
> > +
> > + def ssh_close(self):
> > + self.ssh_conn.quit()
> > +
> > + def setup_base_env(self, host):
> > + PATH = os.getenv("PATH", "")
> > + env = { "PATH": "%s:%s" % (self.ADD_PATH, PATH),
> > + "HA_LOGFILE": self.RA_LOG,
> > + "OCF_RESOURCE_INSTANCE": "colo-test",
> > + "OCF_RESKEY_CRM_meta_clone_max": "2",
> > + "OCF_RESKEY_CRM_meta_notify": "true",
> > + "OCF_RESKEY_CRM_meta_timeout": "30000",
> > + "OCF_RESKEY_qemu_binary": self.QEMU_BINARY,
> > + "OCF_RESKEY_qemu_img_binary": self.QEMU_IMG_BINARY,
> > + "OCF_RESKEY_disk_size": str(self.IMAGE_SIZE),
>
> We can remove IMAGE_SIZE and use a runtime filesize(HOSTA_IMAGE) instead.
I will change the resource-agent so it doesn't need OCF_RESKEY_disk_size.
> > + "OCF_RESKEY_checkpoint_interval": "10000",
> > + "OCF_RESKEY_base_port": str(self.BASE_PORT),
> > + "OCF_RESKEY_debug": "2"}
> > +
> > + if host == self.HOSTA:
> > + env.update({"OCF_RESKEY_options":
> > + ("%s -qmp unix:%s,server,nowait"
> > + " -drive if=none,id=parent0,file='%s'")
> > + % (self.QEMU_OPTIONS, self.get_qmp_sock(host),
> > + self.HOSTA_IMAGE),
> > + "OCF_RESKEY_active_hidden_dir": self.TMPA,
> > + "OCF_RESKEY_listen_address": "127.0.0.1",
> > + "OCF_RESKEY_log_dir": self.HOSTA_LOGDIR,
> > + "OCF_RESKEY_CRM_meta_on_node": "127.0.0.1",
> > + "HA_RSCTMP": self.TMPA,
> > + "COLO_TEST_REMOTE_TMP": self.TMPB})
> > +
> > + else:
> > + env.update({"OCF_RESKEY_options":
> > + ("%s -qmp unix:%s,server,nowait"
> > + " -drive if=none,id=parent0,file='%s'")
> > + % (self.QEMU_OPTIONS, self.get_qmp_sock(host),
> > + self.HOSTB_IMAGE),
> > + "OCF_RESKEY_active_hidden_dir": self.TMPB,
> > + "OCF_RESKEY_listen_address": "127.0.0.2",
> > + "OCF_RESKEY_log_dir": self.HOSTB_LOGDIR,
> > + "OCF_RESKEY_CRM_meta_on_node": "127.0.0.2",
> > + "HA_RSCTMP": self.TMPB,
> > + "COLO_TEST_REMOTE_TMP": self.TMPA})
> > +
> > + if self.BRIDGE_NAME:
> > + env["OCF_RESKEY_options"] += \
> > + " -netdev bridge,id=hn0,br=%s,helper='%s'" \
> > + % (self.BRIDGE_NAME, self.BRIDGE_HELPER)
> > + else:
> > + if host == self.HOSTA:
> > + env["OCF_RESKEY_options"] += \
> > + " -netdev socket,id=hn0,connect=127.0.0.1:%s" \
> > + % self.BRIDGE_HOSTA_PORT
> > + else:
> > + env["OCF_RESKEY_options"] += \
> > + " -netdev socket,id=hn0,connect=127.0.0.1:%s" \
> > + % self.BRIDGE_HOSTB_PORT
> > + return env
> > +
> > + def ra_start(self, host):
> > + env = self.setup_base_env(host)
> > + self.run_command(self.RESOURCE_AGENT + " start", self.OCF_SUCCESS,
> > env)
> > +
> > + def ra_stop(self, host):
> > + env = self.setup_base_env(host)
> > + self.run_command(self.RESOURCE_AGENT + " stop", self.OCF_SUCCESS,
> > env)
> > +
> > + def ra_monitor(self, host, expected_status):
> > + env = self.setup_base_env(host)
> > + self.run_command(self.RESOURCE_AGENT + " monitor",
> > expected_status, env)
> > +
> > + def ra_promote(self, host):
> > + env = self.setup_base_env(host)
> > + self.run_command(self.RESOURCE_AGENT + " promote",
> > self.OCF_SUCCESS,env)
> > +
> > + def ra_notify_start(self, host):
> > + env = self.setup_base_env(host)
> > +
> > + env.update({"OCF_RESKEY_CRM_meta_notify_type": "post",
> > + "OCF_RESKEY_CRM_meta_notify_operation": "start"})
> > +
> > + if host == self.HOSTA:
> > + env.update({"OCF_RESKEY_CRM_meta_notify_master_uname":
> > "127.0.0.1",
> > + "OCF_RESKEY_CRM_meta_notify_start_uname":
> > "127.0.0.2"})
> > + else:
> > + env.update({"OCF_RESKEY_CRM_meta_notify_master_uname":
> > "127.0.0.2",
> > + "OCF_RESKEY_CRM_meta_notify_start_uname":
> > "127.0.0.1"})
> > +
> > + self.run_command(self.RESOURCE_AGENT + " notify",
> > self.OCF_SUCCESS, env)
> > +
> > + def ra_notify_stop(self, host):
> > + env = self.setup_base_env(host)
> > +
> > + env.update({"OCF_RESKEY_CRM_meta_notify_type": "pre",
> > + "OCF_RESKEY_CRM_meta_notify_operation": "stop"})
> > +
> > + if host == self.HOSTA:
> > + env.update({"OCF_RESKEY_CRM_meta_notify_master_uname":
> > "127.0.0.1",
> > + "OCF_RESKEY_CRM_meta_notify_stop_uname":
> > "127.0.0.2"})
> > + else:
> > + env.update({"OCF_RESKEY_CRM_meta_notify_master_uname":
> > "127.0.0.2",
> > + "OCF_RESKEY_CRM_meta_notify_stop_uname":
> > "127.0.0.1"})
> > +
> > + self.run_command(self.RESOURCE_AGENT + " notify",
> > self.OCF_SUCCESS, env)
> > +
> > + def get_pid(self, host):
> > + if host == self.HOSTA:
> > + return self.read_pidfile(os.path.join(self.TMPA,
> > + "colo-test-qemu.pid"))
> > + else:
> > + return self.read_pidfile(os.path.join(self.TMPB,
> > + "colo-test-qemu.pid"))
> > +
> > + def get_master_score(self, host):
> > + if host == self.HOSTA:
> > + return int(self.cat_line(os.path.join(self.TMPA,
> > "master_score")))
> > + else:
> > + return int(self.cat_line(os.path.join(self.TMPB,
> > "master_score")))
> > +
> > + def get_qmp_sock(self, host):
> > + if host == self.HOSTA:
> > + return os.path.join(self.TMPA, "my-qmp.sock")
> > + else:
> > + return os.path.join(self.TMPB, "my-qmp.sock")
> > +
> > +
> > + def kill_qemu_pre(self, host):
> > + pid = self.get_pid(host)
> > +
> > + qmp_sock = self.get_qmp_sock(host)
> > +
> > + if self.checkpoint_failover:
> > + qmp_conn = QEMUMonitorProtocol(qmp_sock)
> > + qmp_conn.settimeout(10)
> > + qmp_conn.connect()
> > + while True:
> > + event = qmp_conn.pull_event(wait=True)
> > + if event["event"] == "STOP":
> > + break
> > + qmp_conn.close()
> > +
> > +
> > + if pid and self.check_pid(pid):
> > + if self.hang_qemu:
> > + os.kill(pid, signal.SIGSTOP)
> > + else:
> > + os.kill(pid, signal.SIGKILL)
> > + while self.check_pid(pid):
> > + time.sleep(1)
> > +
> > + def kill_qemu_post(self, host):
> > + pid = self.get_pid(host)
> > +
> > + if self.hang_qemu and pid and self.check_pid(pid):
> > + os.kill(pid, signal.SIGKILL)
> > + while self.check_pid(pid):
> > + time.sleep(1)
> > +
> > + def prepare_guest(self):
> > + pass
> > +
> > + def cycle_start(self, cycle):
> > + pass
> > +
> > + def active_section(self):
> > + return False
> > +
> > + def cycle_end(self, cycle):
> > + pass
> > +
> > + def check_connection(self):
> > + self.ssh_ping()
> > + for proc in self.traffic_procs:
> > + if proc.poll() != None:
> > + self.fail("Traffic process died")
> > +
> > + def _test_colo(self, loop=1):
> > + loop = max(loop, 1)
> > + self.log.info("Will put logs in %s" % self.outputdir)
> > +
> > + self.ra_stop(self.HOSTA)
> > + self.ra_stop(self.HOSTB)
> > +
> > + self.log.info("*** Startup ***")
> > + self.ra_start(self.HOSTA)
> > + self.ra_start(self.HOSTB)
> > +
> > + self.ra_monitor(self.HOSTA, self.OCF_SUCCESS)
> > + self.ra_monitor(self.HOSTB, self.OCF_SUCCESS)
> > +
> > + self.log.info("*** Promoting ***")
> > + self.ra_promote(self.HOSTA)
> > + cloudinit.wait_for_phone_home(("0.0.0.0",
> > self.CLOUDINIT_HOME_PORT),
> > + self.name)
> > + self.ssh_open()
> > + self.prepare_guest()
> > +
> > + self.ra_notify_start(self.HOSTA)
> > +
> > + while self.get_master_score(self.HOSTB) != 100:
> > + self.ra_monitor(self.HOSTA, self.OCF_RUNNING_MASTER)
> > + self.ra_monitor(self.HOSTB, self.OCF_SUCCESS)
> > + time.sleep(1)
> > +
> > + self.log.info("*** Replication started ***")
> > +
> > + self.check_connection()
> > +
> > + primary = self.HOSTA
> > + secondary = self.HOSTB
> > +
> > + for n in range(loop):
> > + self.cycle_start(n)
> > + self.log.info("*** Secondary failover ***")
> > + self.kill_qemu_pre(primary)
> > + self.ra_notify_stop(secondary)
> > + self.ra_monitor(secondary, self.OCF_SUCCESS)
> > + self.ra_promote(secondary)
> > + self.ra_monitor(secondary, self.OCF_RUNNING_MASTER)
> > + self.kill_qemu_post(primary)
> > +
> > + self.check_connection()
> > +
> > + tmp = primary
> > + primary = secondary
> > + secondary = tmp
> > +
> > + self.log.info("*** Secondary continue replication ***")
> > + self.ra_start(secondary)
> > + self.ra_notify_start(primary)
> > +
> > + self.check_connection()
> > +
> > + # Wait for resync
> > + while self.get_master_score(secondary) != 100:
> > + self.ra_monitor(primary, self.OCF_RUNNING_MASTER)
> > + self.ra_monitor(secondary, self.OCF_SUCCESS)
> > + time.sleep(1)
> > +
> > + self.log.info("*** Replication started ***")
> > +
> > + self.check_connection()
> > +
> > + if self.active_section():
> > + break
> > +
> > + self.log.info("*** Primary failover ***")
> > + self.kill_qemu_pre(secondary)
> > + self.ra_monitor(primary, self.OCF_RUNNING_MASTER)
> > + self.ra_notify_stop(primary)
> > + self.ra_monitor(primary, self.OCF_RUNNING_MASTER)
> > + self.kill_qemu_post(secondary)
> > +
> > + self.check_connection()
> > +
> > + self.log.info("*** Primary continue replication ***")
> > + self.ra_start(secondary)
> > + self.ra_notify_start(primary)
> > +
> > + self.check_connection()
> > +
> > + # Wait for resync
> > + while self.get_master_score(secondary) != 100:
> > + self.ra_monitor(primary, self.OCF_RUNNING_MASTER)
> > + self.ra_monitor(secondary, self.OCF_SUCCESS)
> > + time.sleep(1)
> > +
> > + self.log.info("*** Replication started ***")
> > +
> > + self.check_connection()
> > +
> > + self.cycle_end(n)
>
> Interesting test :)
>
> > +
> > + self.ssh_close()
> > +
> > + self.ra_stop(self.HOSTA)
> > + self.ra_stop(self.HOSTB)
> > +
> > + self.ra_monitor(self.HOSTA, self.OCF_NOT_RUNNING)
> > + self.ra_monitor(self.HOSTB, self.OCF_NOT_RUNNING)
> > + self.log.info("*** all ok ***")
> > +
> > +
> > +class ColoQuickTest(ColoTest):
> > + """
> > + :avocado: tags=colo
> > + :avocado: tags=quick
> > + :avocado: tags=arch:x86_64
> > + """
> > +
> > + timeout = 300
> > +
> > + def cycle_end(self, cycle):
> > + self.log.info("Testing with peer qemu hanging"
> > + " and failover during checkpoint")
> > + self.hang_qemu = True
> > +
> > + def test_quick(self):
> > + self.checkpoint_failover = True
> > + self.log.info("Testing with peer qemu crashing"
> > + " and failover during checkpoint")
> > + self._test_colo(loop=2)
> > +
> > +
> > +class ColoNetworkTest(ColoTest):
> > +
> > + def prepare_guest(self):
> > + install_cmd = self.params.get("install_cmd", default=
> > + "sudo -n dnf -q -y install iperf3
> > memtester")
> > + self.ssh_conn.cmd(install_cmd)
> > + # Use two instances to work around a bug in iperf3
> > + self.ssh_conn.cmd("iperf3 -sD; iperf3 -sD -p 5202")
> > +
> > + def _cycle_start(self, cycle):
> > + pass
> > +
> > + def cycle_start(self, cycle):
> > + self._cycle_start(cycle)
> > + tests = [("", "client-to-server tcp"), ("-R", "server-to-client
> > tcp")]
> > +
> > + self.log.info("Testing iperf %s" % tests[cycle % 2][1])
> > + iperf_cmd = "iperf3 %s -t 60 -i 60 --connect-timeout 30000 -c %s" \
> > + % (tests[cycle % 2][0], self.GUEST_ADDRESS)
> > + proc = subprocess.Popen("while %s && %s; do sleep 1; done >>'%s'
> > 2>&1"
> > + % (iperf_cmd, iperf_cmd + " -p 5202",
> > + os.path.join(self.outputdir, "iperf.log")),
> > + shell=True, preexec_fn=os.setsid,
> > stdin=subprocess.DEVNULL,
> > + stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
>
> So this run on the host, require the host to be Linux + iperf3
> installed. Don't we need to be privileged to run it?
Not for iperf3, but the bridge helper needs the setuid bit to be set if the
test runs unprivileged.
> > + self.traffic_procs.append(proc)
> > + time.sleep(5) # Wait for iperf to get up to speed
> > +
> > + def cycle_end(self, cycle):
> > + for proc in self.traffic_procs:
> > + try:
> > + os.killpg(proc.pid, signal.SIGTERM)
> > + proc.wait()
> > + except Exception as e:
> > + pass
> > + self.traffic_procs.clear()
> > + time.sleep(20)
> > +
> > +class ColoRealNetworkTest(ColoNetworkTest):
> > + """
> > + :avocado: tags=colo
> > + :avocado: tags=slow
> > + :avocado: tags=network_test
> > + :avocado: tags=arch:x86_64
> > + """
> > +
> > + timeout = 900
> > +
> > + def active_section(self):
> > + time.sleep(300)
> > + return False
> > +
> > + @skipUnless(iperf3_available(), "iperf3 not available")
> > + def test_network(self):
> > + if not self.BRIDGE_NAME:
> > + self.cancel("bridge options not given, will skip network test")
> > + self.log.info("Testing with peer qemu crashing and network load")
> > + self._test_colo(loop=2)
> > +
> > +class ColoStressTest(ColoNetworkTest):
> > + """
> > + :avocado: tags=colo
> > + :avocado: tags=slow
> > + :avocado: tags=stress_test
> > + :avocado: tags=arch:x86_64
> > + """
> > +
> > + timeout = 1800
>
> How long does this test take on your hw (what CPU, to compare)?
The CPU is an Intel i7-5600U and M.2 SATA SSD (during resync the whole image is
copied), here are the runtimes:
Quick test: ~200s
Network test: ~800s
Stress test: ~1300s
> > +
> > + def _cycle_start(self, cycle):
> > + if cycle == 4:
> > + self.log.info("Stresstest with peer qemu hanging, network load"
> > + " and failover during checkpoint")
> > + self.checkpoint_failover = True
> > + self.hang_qemu = True
> > + elif cycle == 8:
> > + self.log.info("Stresstest with peer qemu crashing and network
> > load")
> > + self.checkpoint_failover = False
> > + self.hang_qemu = False
> > + elif cycle == 12:
> > + self.log.info("Stresstest with peer qemu hanging and network
> > load")
> > + self.checkpoint_failover = False
> > + self.hang_qemu = True
> > +
> > + @skipUnless(iperf3_available(), "iperf3 not available")
> > + def test_stress(self):
> > + if not self.BRIDGE_NAME:
> > + self.cancel("bridge options not given, will skip network test")
> > + self.log.info("Stresstest with peer qemu crashing, network load"
> > + " and failover during checkpoint")
> > + self.checkpoint_failover = True
> > + self._test_colo(loop=16)
> >
>
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