def stringify_resource(res):
"""Print a ResourceGroup instance."""
s = ""
s += "\tName: {}\n".format(Colors.ok_blue(Colors.bold(res.name)))
s += "\tType: {}\n".format(res.type)
s += "\tId: {}\n".format(res.id)
s += "\tLocation: {}\n".format(res.location)
s += "\tTags: {}\n".format(res.tags)
s += Deployer.stringify_properties(res.properties)
return s
def start_experiment(self,
results_dir,
update_and_install=False,
experiment_runtime = 5, # minutes
runtime_buffer = 1, # minutes
stats_frequency ="30s",
num_threads_in_pool = 5,
replication_factor = 1,
memaslap_workload = "smallvalue.cfg",
memaslap_window_size = "10k",
hibernate_at_end = True,
ssh_username = "******",
num_memaslaps = 1,
num_memcacheds = 1,
concurrency = 64,
is_first_run=True
):
experiment_runtime_string = "{}m".format(experiment_runtime)
with fabric.api.settings(warn_only=True):
fabric.api.local("rm -r {}/*".format(results_dir))
fabric.api.local("mkdir -p {}".format(results_dir))
fabric.api.local("mkdir {}/graphs".format(results_dir))
# region ---- Parameters ----
TOTAL_MACHINE_COUNT = 11 # this is fixed by the template
resource_group_name = 'template11vms'
my_pub_ssh_key_path = '~/.ssh/id_rsa_asl.pub'
template_path = "azure-templates/template11vms.json"
pub_ssh_key_path = os.path.expanduser(my_pub_ssh_key_path)
with open(pub_ssh_key_path, 'r') as pub_ssh_file_fd:
pub_ssh_key = pub_ssh_file_fd.read().strip()
parameters = {
"virtualMachines_name": "foraslvms",
"virtualMachines_adminPassword": "******",
"networkInterfaces_name": "MyNetworkInterface",
"virtualNetworks_testeth_vnet_name": "MyVNet",
"key": pub_ssh_key,
"uniquedns": "pungast"
}
# endregion
# Initialize the deployer class
if is_first_run:
self.deployer = Deployer(resource_group_name, template_path, parameters)
self.deployer.deploy_wait()
# region ---- Extract VMs' IPs and other information ----
vms = self.deployer.compute_client.virtual_machines.list(resource_group_name)
vm_names = []
vm_types = []
public_hostnames = []
private_hostnames = []
for vm in vms:
vm_type = vm.hardware_profile.vm_size
vm_types.append(vm_type)
vm_names.append(vm.name)
self.log.info("VM {} [{}]".format(Colors.ok_blue(vm.name), vm_type))
# Get machine's public address that we can use for SSH-ing
public_ip = self.deployer.network_client.public_ip_addresses.get(resource_group_name, vm.name)
public_host_address = public_ip.dns_settings.fqdn
public_hostnames.append(public_host_address)
#self.log.info("Public host name: {}".format(Colors.ok_green(public_host_address)))
# Get machine's private IP address
network_interface_id = vm.network_profile.network_interfaces[0].id
network_interface_name = network_interface_id.split("/")[-1]
network_interface = self.deployer.network_client.network_interfaces.get(resource_group_name, network_interface_name)
private_host_address = network_interface.ip_configurations[0].private_ip_address
private_hostnames.append(private_host_address)
#self.log.info("Private host name: {}".format(Colors.ok_green(private_host_address)))
# endregion
# region ---- Set up all machines ----
index_a4 = vm_types.index("Basic_A4")
indices_smallmachines = list(range(TOTAL_MACHINE_COUNT))
indices_smallmachines.remove(index_a4)
memcached_machines = [vm_names.index("foraslvms" + str(x)) for x in Experiment.default_memcached_machines()]
memcached_machines = memcached_machines[0:num_memcacheds]
memaslap_machines = [vm_names.index("foraslvms" + str(x)) for x in Experiment.default_memaslap_machines()]
memaslap_machines = memaslap_machines[0:num_memaslaps]
self.log.info("A4 machine: " + str(index_a4))
self.log.info("A2 machines: " + str(indices_smallmachines))
self.log.info("Memcached machines: " + str(memcached_machines))
self.log.info("Memaslap machines: " + str(memaslap_machines))
# Wait for all servers to be responsive
if is_first_run:
aslutil.wait_for_servers(ssh_username, public_hostnames, "~/.ssh/id_rsa_asl", self.log, check_every_n_sec=10)
# Set up memcached servers
memcached_port = 11211
mc_servers = []
mc_server_string_list = []
for i in memcached_machines:
self.log.info("Setting up memcached on machine {} ({}).".format(i, vm_names[i]))
mc_server = Memcached(memcached_port, public_hostnames[i], ssh_username=ssh_username,
id_number=int(aslutil.server_name_to_number(vm_names[i])))
mc_servers.append(mc_server)
mc_server_string_list.append("{}:{}".format(private_hostnames[i], memcached_port))
if update_and_install:
mc_server.update_and_install()
for s in mc_servers:
s.start()
sleep_for = 15
self.log.info("Sleeping for {} seconds so memcached servers can start...".format(sleep_for))
time.sleep(sleep_for)
# Set up middleware server
middleware_port = 11212
self.log.info("Setting up middleware on machine {} ({}).".format(index_a4, vm_names[index_a4]))
mw_server = Middleware(public_hostnames[index_a4], private_hostnames[index_a4], middleware_port,
num_threads_in_pool, replication_factor, mc_server_string_list, ssh_username=ssh_username)
if update_and_install:
mw_server.update_and_install()
if is_first_run:
mw_server.upload_jar()
mw_server.clear_logs()
mw_server.start()
# Sleep a bit so middleware has time to start
while not mw_server.is_running():
sleep_for = 5
self.log.info("Sleeping for {} seconds so middleware can start...".format(sleep_for))
time.sleep(sleep_for)
time.sleep(10)
# Set up memaslap servers
ms_servers = []
first_memaslap = True
for i in memaslap_machines:
self.log.info("Setting up memaslap on machine {} ({}).".format(i, vm_names[i]))
ms_server = Memaslap(public_hostnames[i], private_hostnames[index_a4], middleware_port, ssh_username=ssh_username,
id_number=int(aslutil.server_name_to_number(vm_names[i]))) # i is zero-indexed
ms_servers.append(ms_server)
if is_first_run:
ms_server.upload_resources()
if update_and_install:
if not first_memaslap:
ms_server.upload_built_files()
ms_server.update_and_install()
if first_memaslap:
ms_server.download_built_files()
first_memaslap = False
for s in ms_servers:
s.clear_logs()
s.start(runtime=experiment_runtime_string, log_filename="memaslap{}.out".format(s.id_number),
stats_freq=stats_frequency, workload_filename=memaslap_workload, concurrency=concurrency,
window_size=memaslap_window_size)
# endregion
sleep_time = experiment_runtime + runtime_buffer
self.log.info("Waiting for the experiment to finish, sleeping for up to {} minutes.".format(sleep_time))
already_slept = 0
while True:
sleep_interval = 30
time.sleep(sleep_interval)
already_slept += sleep_interval
num_running_memaslaps = sum([s.is_running() for s in ms_servers])
self.log.info("Waiting for the experiment to finish (total {} minutes), {:.0f}/{} minutes elapsed ({:.0f}%), {} memaslaps running."
.format(sleep_time,
already_slept / 60, experiment_runtime,
100 * already_slept / 60.0 / experiment_runtime,
num_running_memaslaps))
if already_slept >= sleep_time * 60:
self.log.info("Stopping because of time limit.")
break
if num_running_memaslaps == 0:
self.log.info("Stopping because no memaslaps are left.")
break
# region ---- Kill everyone ----
# Memaslap
for ms_server in ms_servers:
ms_server.stop()
# Middleware
mw_server.stop()
# Memcached
for mc_server in mc_servers:
mc_server.stop()
# endregion
# region ---- Download logs, extract data, plot ----
mw_server.download_logs(local_path=results_dir)
for ms_server in ms_servers:
ms_server.download_logs(local_path=results_dir)
# endregion
if hibernate_at_end:
self.deployer.hibernate_wait()
self.log.info("Done.")
"uniquedns": dns_label_prefix
}
# endregion
# Initialize the deployer class
deployer = Deployer(resource_group_name, template_path, parameters)
deployer.deploy_wait()
# region ---- Extract VMs' IPs ----
vms = deployer.compute_client.virtual_machines.list(resource_group_name)
vm_names = []
public_hostnames = []
private_hostnames = []
for vm in vms:
log.info("VM {}".format(Colors.ok_blue(vm.name)))
# Get machine's public address that we can use for SSH-ing
public_ip = deployer.network_client.public_ip_addresses.get(resource_group_name, vm.name)
public_host_address = public_ip.dns_settings.fqdn
public_hostnames.append(public_host_address)
log.info("Public host name: {}".format(Colors.ok_green(public_host_address)))
# Get machine's private IP address
network_interface_id = vm.network_profile.network_interfaces[0].id
network_interface_name = network_interface_id.split("/")[-1]
network_interface = deployer.network_client.network_interfaces.get(resource_group_name, network_interface_name)
private_host_address = network_interface.ip_configurations[0].private_ip_address
private_hostnames.append(private_host_address)
log.info("Private host name: {}".format(Colors.ok_green(private_host_address)))
# endregion
# Initialize the deployer class
deployer = Deployer(resource_group_name, template_path, parameters)
deployer.deploy_wait()
# region ---- Extract VMs' IPs and other information ----
vms = deployer.compute_client.virtual_machines.list(resource_group_name)
vm_names = []
vm_types = []
public_hostnames = []
private_hostnames = []
for vm in vms:
vm_type = vm.hardware_profile.vm_size
vm_types.append(vm_type)
vm_names.append(vm.name)
log.info("VM {} [{}]".format(Colors.ok_blue(vm.name), vm_type))
# Get machine's public address that we can use for SSH-ing
public_ip = deployer.network_client.public_ip_addresses.get(
resource_group_name, vm.name)
public_host_address = public_ip.dns_settings.fqdn
public_hostnames.append(public_host_address)
log.info("Public host name: {}".format(
Colors.ok_green(public_host_address)))
# Get machine's private IP address
network_interface_id = vm.network_profile.network_interfaces[0].id
network_interface_name = network_interface_id.split("/")[-1]
network_interface = deployer.network_client.network_interfaces.get(
resource_group_name, network_interface_name)
private_host_address = network_interface.ip_configurations[
