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console.py
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import sys, os, time, subprocess, random
import paramiko
import threading
from config import *
from multiprocessing import Process
LOCK_NUM = 1000000
CLIENT_NUM = 2
CONTENTION_DEGREE = 1
SYNCHRONOUS = "s"
ASYNCHRONOUS = "a"
MICROBENCHMARK_SHARED = "s"
MICROBENCHMARK_EXCLUSIVE = "x"
ZIPFBENCHAMRK = 'z'
UNIFORMBENCHMARK = 'u'
TPCCBENCHMARK = 't'
TPCC_UNIFORMBENCHMARK = 'v'
INTERVAL = 5
WPKTS_SEND_LIMIT_MS = 10000
NUM_RCV_CORES = 6
MEM_BIN_PACK = "bin"
MEM_RAND_WEIGHT = "r_weight"
MEM_RAND_12 = "r_12"
MEM_RAND_200 = "r_20"
MAX_SLOT_NUM = 130000
def prRed(skk): print("\033[91m {}\033[00m" .format(skk))
class NetLockConsole(object):
def to_hostname(self, client_name):
return id_to_hostname_dict[client_name]
def to_username(self, client_name):
return id_to_username_dict[client_name]
def to_passwd(self, client_name):
return id_to_passwd_dict[client_name]
def __init__(self, client_names, client_names_2, server_names, switch_name):
self.num_of_cores_ls = 8
self.batch_size = 1
self.timeout_slot = 400
self.server_node_num = 1
self.client_node_num = 10
self.warehouse = 10
self.think_time = 0
self.task_id = 's'
self.slot_num = MAX_SLOT_NUM
self.memory_manage = MEM_BIN_PACK
self.lock_num = LOCK_NUM
self.client_num = CLIENT_NUM
self.contention_degree = CONTENTION_DEGREE
self.data_transfer_mode = ASYNCHRONOUS
self.benchmark = ZIPFBENCHAMRK
# self.benchmark = MICROBENCHMARK_EXCLUSIVE
self.n_rcv_cores = NUM_RCV_CORES
self.wpkts_send_limit_ms_client = WPKTS_SEND_LIMIT_MS
self.wpkts_send_limit_ms_server = WPKTS_SEND_LIMIT_MS
self.interval = INTERVAL
self.mem_dict = {MEM_BIN_PACK:"b", MEM_RAND_WEIGHT:"w", MEM_RAND_12:"1", MEM_RAND_200:"2"}
self.program_name = "netlock"
self.netchain_name = "netchain"
self.server_names = server_names
self.client_names = client_names
self.client_names_2 = client_names_2
self.switch_name = switch_name
self.passwd = {}
for client_name in client_names:
self.passwd[client_name] = id_to_passwd_dict[client_name]
for client_name in client_names_2:
self.passwd[client_name] = id_to_passwd_dict[client_name]
for client_name in server_names:
self.passwd[client_name] = id_to_passwd_dict[client_name]
self.switch_pw = id_to_passwd_dict[switch_name]
self.clients = []
for client_name in client_names:
client = paramiko.SSHClient()
# client.set_missing_host_key_policy(paramiko.AutoAddPolicy())
client.load_system_host_keys()
client.connect(hostname = self.to_hostname(client_name), username = self.to_username(client_name), password = self.passwd[client_name])
self.clients.append((client_name, client))
self.clients_2 = []
for client_name in client_names_2:
client = paramiko.SSHClient()
# client.set_missing_host_key_policy(paramiko.AutoAddPolicy())
client.load_system_host_keys()
client.connect(hostname = self.to_hostname(client_name), username = self.to_username(client_name), password = self.passwd[client_name])
self.clients_2.append((client_name, client))
self.servers = []
for server_name in server_names:
client = paramiko.SSHClient()
# client.set_missing_host_key_policy(paramiko.AutoAddPolicy())
client.load_system_host_keys()
client.connect(hostname = self.to_hostname(server_name), username = self.to_username(server_name), password = self.passwd[server_name])
##chan = client.get_transport().open_session()
##chan.get_pty()
self.servers.append((server_name, client))
switch = paramiko.SSHClient()
switch.load_system_host_keys()
switch.connect(hostname = self.to_hostname(self.switch_name), username = self.to_username(switch_name), password = self.switch_pw)
self.switch = (self.switch_name, switch)
self.local_home_dir = local_home_dir
self.local_main_dir = self.local_home_dir + "NetLock/"
self.local_p4_dir = self.local_home_dir + "NetLock/switch_code/netlock/p4src/"
self.local_ptf_dir = self.local_home_dir + "NetLock/switch_code/netlock/controller_init/"
self.local_res_dir = self.local_home_dir + "NetLock/results/"
self.local_host_dir = self.local_home_dir + "NetLock/dpdk_code/"
self.local_client_dir = self.local_home_dir + "NetLock/dpdk_code/client_code/"
self.local_server_dir = self.local_home_dir + "NetLock/dpdk_code/lock_server_code/"
self.local_trace_dir = self.local_home_dir + "NetLock/traces/"
self.local_netchain_dir = self.local_home_dir + "NetLock/switch_code/netchain/"
self.local_netchain_p4_dir = self.local_home_dir + "NetLock/switch_code/netchain/p4src/"
self.local_netchain_ptf_dir = self.local_home_dir + "NetLock/switch_code/netchain/controller/"
self.remote_server_home_dir = remote_server_home_dir
self.remote_server_main_dir = self.remote_server_home_dir + "NetLock/"
self.remote_server_host_dir = self.remote_server_home_dir + "NetLock/dpdk_code/"
self.remote_server_client_dir = self.remote_server_home_dir + "NetLock/dpdk_code/client_code"
self.remote_server_server_dir = self.remote_server_home_dir + "NetLock/dpdk_code/lock_server_code"
self.remote_server_log_dir = self.remote_server_home_dir + "NetLock/logs/"
self.remote_server_res_dir = self.remote_server_home_dir + "NetLock/results/"
self.remote_server_trace_dir = self.remote_server_home_dir + "NetLock/traces/"
self.remote_server_ptf_dir = self.remote_server_home_dir + "NetLock/switch_code/netlock/controller_init/"
self.remote_server_netchain_client_dir = self.remote_server_client_dir
# self.remote_server_netchain_dir = self.remote_server_home_dir + "NetLock/netchain/"
self.remote_switch_home_dir = remote_switch_home_dir
self.remote_switch_main_dir = self.remote_switch_home_dir + "NetLock/"
self.remote_switch_p4_dir = self.remote_switch_home_dir + "NetLock/switch_code/netlock/p4src/"
self.remote_switch_ptf_dir = self.remote_switch_home_dir + "NetLock/switch_code/netlock/controller_init/"
self.remote_switch_log_dir = self.remote_switch_home_dir + "NetLock/logs/"
self.remote_switch_netchain_p4_dir = self.remote_switch_home_dir + "NetLock/switch_code/netchain/p4src/"
self.remote_switch_netchain_ptf_dir = self.remote_switch_home_dir + "NetLock/switch_code/netchain/controller/"
self.remote_switch_sde_dir = remote_switch_sde_dir
print "========init completed========"
# ********************************
# fundamental functions
# ********************************
def exe(self, client, cmd, with_print=False):
(client_name, client_shell) = client
stdin, stdout, stderr = client_shell.exec_command(cmd)
# print client_name
if with_print:
# stdout.read()
print client_name, ":", stdout.read(), stderr.read()
def sudo_exe(self, client, cmd, with_print=False):
(client_name, client_shell) = client
cmdheader = "echo '%s' | sudo -S " %(self.passwd[client_name])
cmd = cmdheader + cmd
stdin, stdout, stderr = client_shell.exec_command(cmd)
if with_print:
# stdout.read()
print client_name, ":", stdout.read(), stderr.read()
stdout.flush()
stderr.flush()
def kill_host(self):
for client in self.clients:
self.sudo_exe(client, "pkill client")
for server in self.servers:
self.sudo_exe(server, "pkill server")
def kill_switch(self):
self.exe(self.switch, "ps -ef | grep switchd | grep -v grep | " \
"awk '{print $2}' | xargs kill -9")
self.exe(self.switch, "ps -ef | grep run_p4_test | grep -v grep | " \
"awk '{print $2}' | xargs kill -9")
self.exe(self.switch, "ps -ef | grep tofino | grep -v grep | " \
"awk '{print $2}' | xargs kill -9")
def kill_all(self):
self.kill_host()
self.kill_switch()
def init_sync_host(self):
for client in self.client_names + self.client_names_2 + self.server_names:
cmd = "scp -r %s %s@%s:%s" % (self.local_main_dir, self.to_username(client), self.to_hostname(client), self.remote_server_home_dir)
print cmd
subprocess.call(cmd, shell = True)
def init_sync_switch(self):
cmd = "scp -r %s %s@%s:%s" % (self.local_main_dir, self.to_username(self.switch_name), self.to_hostname(self.switch_name), self.remote_switch_home_dir)
print cmd
subprocess.call(cmd, shell = True)
def sync_host(self):
for client in self.client_names:
cmd = "rsync -r %s %s@%s:%s" % (self.local_client_dir, self.to_username(client), self.to_hostname(client), self.remote_server_client_dir)
print cmd
subprocess.call(cmd, shell = True)
# cmd = "rsync -r %s %s@%s:%s" % (self.local_netchain_dir, self.to_username(client), self.to_hostname(client), self.remote_server_netchain_dir)
# print cmd
# subprocess.call(cmd, shell = True)
cmd = "rsync -r %s %s@%s:%s" % (self.local_ptf_dir, self.to_username(client), self.to_hostname(client), self.remote_server_ptf_dir)
print cmd
subprocess.call(cmd, shell = True)
for client in self.client_names_2:
cmd = "rsync -r %s %s@%s:%s" % (self.local_client_dir, self.to_username(client), self.to_hostname(client), self.remote_server_client_dir)
print cmd
subprocess.call(cmd, shell = True)
# cmd = "rsync -r %s %s@%s:%s" % (self.local_netchain_dir, self.to_username(client), self.to_hostname(client), self.remote_server_netchain_dir)
# print cmd
# subprocess.call(cmd, shell = True)
cmd = "rsync -r %s %s@%s:%s" % (self.local_ptf_dir, self.to_username(client), self.to_hostname(client), self.remote_server_ptf_dir)
print cmd
subprocess.call(cmd, shell = True)
for server in self.server_names:
cmd = "rsync -r %s %s@%s:%s" % (self.local_server_dir, self.to_username(server), self.to_hostname(server), self.remote_server_server_dir)
print cmd
subprocess.call(cmd, shell = True)
# cmd = "rsync -r %s %s@%s:%s" % (self.local_netchain_dir, self.to_username(server), self.to_hostname(server), self.remote_server_netchain_dir)
# print cmd
# subprocess.call(cmd, shell = True)
cmd = "rsync -r %s %s@%s:%s" % (self.local_ptf_dir, self.to_username(server), self.to_hostname(server), self.remote_server_ptf_dir)
print cmd
subprocess.call(cmd, shell = True)
return
def sync_trace(self):
for client in self.client_names:
cmd = "rsync -r %s %s@%s:%s" % (self.local_trace_dir, self.to_username(client), self.to_hostname(client), self.remote_server_trace_dir)
print cmd
subprocess.call(cmd, shell = True)
return
def sync_switch(self):
cmd = "scp -r %s %s@%s:%s" % (self.local_netchain_dir, self.to_username(self.switch_name), self.to_hostname(self.switch_name), self.remote_switch_main_dir)
print cmd
subprocess.call(cmd, shell = True)
cmd = "scp -r %s %s@%s:%s" % (self.local_p4_dir, self.to_username(self.switch_name), self.to_hostname(self.switch_name), self.remote_switch_main_dir)
print cmd
subprocess.call(cmd, shell = True)
cmd = "scp -r %s %s@%s:%s" % (self.local_ptf_dir, self.to_username(self.switch_name), self.to_hostname(self.switch_name), self.remote_switch_main_dir)
print cmd
subprocess.call(cmd, shell = True)
return
def sync_all(self):
self.sync_switch()
self.sync_host()
return
def compile_host(self):
# dpdk_dir = self.remote_server_client_dir
cmd_client = "source ~/.bash_profile;cd %s; make > %s/client_compile.log 2>&1 &" % (self.remote_server_client_dir, self.remote_server_log_dir)
cmd_server = "source ~/.bash_profile;cd %s; make > %s/server_compile.log 2>&1 &" % (self.remote_server_server_dir, self.remote_server_log_dir)
for client in self.clients + self.clients_2 + self.servers:
print "%s compile client: %s" % (client[0], cmd_client)
self.exe(client, cmd_client, True)
print "%s compile server: %s" % (client[0], cmd_server)
self.exe(client, cmd_server, True)
return
def compile_netchain(self):
sde_dir = self.remote_switch_sde_dir
p4_build = sde_dir + "p4_build.sh"
p4_program = self.remote_switch_netchain_p4_dir + self.netchain_name + ".p4"
cmd = "cd %s;source ./set_sde.bash;%s %s > %s/netchain_compile.log 2>&1 &" % (sde_dir, p4_build,
p4_program, self.remote_switch_log_dir)
print cmd
self.exe(self.switch, cmd, True)
return
def compile_switch(self):
sde_dir = self.remote_switch_sde_dir
p4_build = sde_dir + "p4_build.sh"
p4_program = self.remote_switch_p4_dir + self.program_name + ".p4"
cmd = "cd %s;source ./set_sde.bash;%s %s > %s/p4_compile.log 2>&1 &" % (sde_dir, p4_build,
p4_program, self.remote_switch_log_dir)
print cmd
self.exe(self.switch, cmd, True)
return
def compile_all(self):
self.compile_host()
self.compile_switch()
return
def run_client(self):
dpdk_dir = self.remote_server_client_dir
for client in self.clients:
client_id = client[0].strip("netx")
cmd = "cd %s;source ~/.bash_profile; echo '%s' | sudo -S %s/build/client --lcores 0@0,1@1,2@2,3@3,4@4,5@5,6@6,7@7 -- -m%s -s%s -w%d -i%s -n%s -b%s -r%s -c%s -z90 -e%s -k%s -o%s -l%d -a%s -T%d -C%d -S%d -O%d -g%d -N%d" %\
(self.remote_server_client_dir, self.passwd[client[0]], dpdk_dir, self.data_transfer_mode, self.wpkts_send_limit_ms_client, self.warehouse, self.interval, client_id, self.benchmark, self.n_rcv_cores, self.contention_degree,
self.client_num, self.lock_num, self.mem_dict[self.memory_manage], self.slot_num, self.task_id, self.think_time, self.client_node_num, self.server_node_num, self.timeout_slot, self.batch_size, self.num_of_cores_ls) + " > %s/client_run_even_%s.log 2>&1 &" % (self.remote_server_res_dir, client_id)
print "%s run client_dpdk: %s" % (client[0], cmd)
self.exe(client, cmd, True)
return
def run_client_2(self):
dpdk_dir = self.remote_server_client_dir
for client in self.clients_2:
client_id = client[0].strip("netx")
cmd = "cd %s;source ~/.bash_profile; echo '%s' | sudo -S %s/build/client --lcores 0@0,1@1,2@2,3@3,4@4,5@5,6@6,7@7 -- -m%s -s%s -w%d -i%s -n%s -b%s -r%s -c%s -z90 -e%s -k%s -o%s -l%d -a%s -T%d -C%d -S%d -O%d -g%d -N%d" %\
(self.remote_server_client_dir, self.passwd[client[0]], dpdk_dir, self.data_transfer_mode, self.wpkts_send_limit_ms_client, self.warehouse, self.interval, client_id, self.benchmark, self.n_rcv_cores, self.contention_degree,
self.client_num, self.lock_num, self.mem_dict[self.memory_manage], self.slot_num, self.task_id, self.think_time, self.client_node_num, self.server_node_num, self.timeout_slot, self.batch_size, self.num_of_cores_ls) + " > %s/client_run_even_%s.log 2>&1 &" % (self.remote_server_res_dir, client_id)
print "%s run client_dpdk: %s" % (client[0], cmd)
self.exe(client, cmd, True)
return
def run_server(self):
dpdk_dir = self.remote_server_server_dir
core_spec = ["0@0", "0@0", "0@0,1@1", "0@0,1@1,2@2", "0@0,1@1,2@2,3@3", "0@0,1@1,2@2,3@3,4@4", "0@0,1@1,2@2,3@3,4@4,5@5", "0@0,1@1,2@2,3@3,4@4,5@5,6@6", "0@0,1@1,2@2,3@3,4@4,5@5,6@6,7@7"]
for server in self.servers:
server_id = server[0].strip("netx")
cmd = "cd %s;source ~/.bash_profile; echo '%s' | sudo -S %s/build/server --lcores %s -- -m%s -tf -s%s -w%d -i%s -n%s -b%s -r8 -c%s -z90 -e%s -k%s -o%s -l%d -a%s -T%d -C%d -S%d -O%d -g%d -N%d -P%s> %s/server_run_%d.log 2>&1 &" % (self.remote_server_server_dir, self.passwd[server[0]], dpdk_dir, core_spec[self.num_of_cores_ls], self.data_transfer_mode, 10000, self.warehouse, self.interval, server_id, self.benchmark, self.contention_degree, self.client_num, self.lock_num, self.mem_dict[self.memory_manage], self.slot_num, self.task_id, self.think_time, self.client_node_num, self.server_node_num, self.timeout_slot, self.batch_size, self.num_of_cores_ls, self.remote_server_main_dir, self.remote_server_res_dir, self.num_of_cores_ls)
print "%s run server_dpdk: %s" % (server[0], cmd)
self.exe(server, cmd, True)
return
def run_host(self):
self.run_server()
self.run_client()
def run_netlock(self):
sde_dir = self.remote_switch_sde_dir
## run switch
run_netlockd = sde_dir + "run_switchd.sh"
cmd = "cd %s;source ./set_sde.bash;%s -p %s > %s/run_switchd.log 2>&1 &" % (sde_dir, run_netlockd,
self.program_name, self.remote_switch_log_dir)
print cmd
self.exe(self.switch, cmd, True)
## run ptf_test
run_ptf_test = sde_dir + "run_p4_tests.sh"
ports_map = self.remote_switch_ptf_dir + "ports.json"
target_mode = "hw"
cmd = "cd %s;source ./set_sde.bash;%s -t %s -p %s -f %s --target %s --test-params=\"bm=\'%s\';lk=\'%s\';memn=\'%s\';slot=\'%s\';client_node_num=\'%d\';warehouse=\'%d\';server_node_num=\'%d\';task_id=\'%s\';batch_size=\'%d\';main_dir=\'%s\'\" > %s/run_ptf_test.log 2>&1 &" % (sde_dir, run_ptf_test,
self.remote_switch_ptf_dir, self.program_name, ports_map, target_mode, self.benchmark, self.lock_num, self.memory_manage, self.slot_num, self.client_node_num, self.warehouse, self.server_node_num, self.task_id, self.batch_size, self.remote_switch_main_dir, self.remote_switch_log_dir)
print cmd
self.exe(self.switch, cmd, True)
return
def run_all(self):
self.kill_all()
time.sleep(10)
self.run_netlock()
time.sleep(180)
self.run_server()
time.sleep(10)
self.run_client()
time.sleep(30)
self.grab_result()
return
def setup_dpdk(self):
dpdk_dir = self.remote_server_client_dir
cmd_eth_down = "ifconfig enp5s0f0 down > %s/eth_down.log 2>&1 &" % (self.remote_server_log_dir)
for client in self.clients:
cmd_setup_dpdk = "export passwd=%s;source ~/.bash_profile;echo $RTE_SDK;sh %s/tools.sh setup_dpdk > %s/setup_dpdk.log 2>&1 &" % (self.passwd[client[0]], dpdk_dir, self.remote_server_log_dir)
print "%s run eth_down: %s" % (client[0], cmd_eth_down)
self.sudo_exe(client, cmd_eth_down, True)
print "%s run setup_dpdk: %s" % (client[0], cmd_setup_dpdk)
self.exe(client, cmd_setup_dpdk, True)
for client in self.clients_2:
cmd_setup_dpdk = "export passwd=%s;source ~/.bash_profile;echo $RTE_SDK;sh %s/tools.sh setup_dpdk > %s/setup_dpdk.log 2>&1 &" % (self.passwd[client[0]], dpdk_dir, self.remote_server_log_dir)
print "%s run eth_down: %s" % (client[0], cmd_eth_down)
self.sudo_exe(client, cmd_eth_down, True)
print "%s run setup_dpdk: %s" % (client[0], cmd_setup_dpdk)
self.exe(client, cmd_setup_dpdk, True)
for server in self.servers:
cmd_setup_dpdk = "export passwd=%s;source ~/.bash_profile;echo $RTE_SDK;sh %s/tools.sh setup_dpdk > %s/setup_dpdk.log 2>&1 &" % (self.passwd[server[0]], dpdk_dir, self.remote_server_log_dir)
print "%s run eth_down: %s" % (server[0], cmd_eth_down)
self.sudo_exe(server, cmd_eth_down, True)
print "%s run setup_dpdk: %s" % (server[0], cmd_setup_dpdk)
self.exe(server, cmd_setup_dpdk, True)
return
def reboot_host(self):
cmd = "reboot > %s/reboot.log 2>&1 &" % (self.remote_server_log_dir)
for client in self.clients:
print "%s run eth_down: %s" % (client[0], cmd)
self.sudo_exe(client, cmd, True)
for client in self.clients_2:
print "%s run eth_down: %s" % (client[0], cmd)
self.sudo_exe(client, cmd, True)
for server in self.servers:
print "%s run eth_down: %s" % (server[0], cmd)
self.sudo_exe(server, cmd, True)
def grab_result(self):
for client in self.client_names:
cmd = "rsync -r %s@%s:%s %s" % (self.to_username(client), self.to_hostname(client), self.remote_server_res_dir, self.local_res_dir)
print cmd
subprocess.call(cmd, shell = True)
for client in self.client_names_2:
cmd = "rsync -r %s@%s:%s %s" % (self.to_username(client), self.to_hostname(client), self.remote_server_res_dir, self.local_res_dir)
print cmd
subprocess.call(cmd, shell = True)
for server in self.server_names:
cmd = "rsync -r %s@%s:%s %s" % (self.to_username(server), self.to_hostname(server), self.remote_server_res_dir, self.local_res_dir)
print cmd
subprocess.call(cmd, shell = True)
return
def clean_result(self):
if ("NetLock" in self.remote_server_res_dir):
cmd = "rm -rf %s/* > /dev/null 2>&1 & " % (self.remote_server_res_dir)
for client in self.clients:
print "%s deleting the result files: %s" % (client[0], cmd)
self.sudo_exe(client, cmd, True)
for client in self.clients_2:
print "%s deleting the result files: %s" % (client[0], cmd)
self.sudo_exe(client, cmd, True)
for server in self.servers:
print "%s deleting the result files: %s" % (server[0], cmd)
self.sudo_exe(server, cmd, True)
return
def run_netchain_switch(self):
sde_dir = self.remote_switch_sde_dir
## run switch
run_netlockd = sde_dir + "run_switchd.sh"
cmd = "cd %s;source ./set_sde.bash;%s -p %s > %s/run_netchain_switchd.log 2>&1 &" % (sde_dir, run_netlockd,
self.netchain_name, self.remote_switch_log_dir)
print cmd
self.exe(self.switch, cmd, True)
## run ptf_test
run_ptf_test = sde_dir + "run_p4_tests.sh"
ports_map = self.remote_switch_netchain_ptf_dir + "ports.json"
target_mode = "hw"
cmd = "cd %s;source ./set_sde.bash;%s -t %s -p %s -f %s --target %s --test-params=\"bm=\'%s\';lk=\'%s\';memn=\'%s\';slot=\'%s\';client_node_num=\'%d\';warehouse=\'%d\';server_node_num=\'%d\';task_id=\'%s\';batch_size=\'%d\'\" > %s/run_netchain_ptf_test.log 2>&1 &" % (sde_dir, run_ptf_test,
self.remote_switch_netchain_ptf_dir, self.netchain_name, ports_map, target_mode, self.benchmark, self.lock_num, self.memory_manage, self.slot_num, self.client_node_num, self.warehouse, self.server_node_num, self.task_id, self.batch_size, self.remote_switch_log_dir)
print cmd
self.exe(self.switch, cmd, True)
return
# def run_netchain_server(self):
# dpdk_dir = self.remote_server_netchain_client_dir
# for server in self.servers:
# server_id = server[0].strip("netx")
# cmd = "cd %s;source ~/.bash_profile; echo '%s' | sudo -S %s/build/client --lcores 0@0,1@1,2@2,3@3,4@4,5@5,6@6,7@7 -- -m%s -tf -s%s -w%d -i%s -n%s -b%s -r8 -c%s -z90 -e%s -k%s -o%s -l%d -a%s -T%d -C%d -S%d -O%d -g%d> %s/netchain_server_run.log 2>&1 &" %\
# (self.remote_server_netchain_client_dir, self.passwd[server[0]], dpdk_dir, self.data_transfer_mode, self.wpkts_send_limit_ms_server, self.warehouse, self.interval, server_id, self.benchmark, self.contention_degree, self.client_num, self.lock_num, self.mem_dict[self.memory_manage],
# self.slot_num, self.task_id, self.think_time, self.client_node_num, self.server_node_num, self.timeout_slot, self.batch_size, self.remote_server_log_dir)
# print "%s run server_dpdk: %s" % (server[0], cmd)
# self.exe(server, cmd, True)
# return
def compile_netchain_host(self):
dpdk_dir = self.remote_server_netchain_client_dir
cmd = "source ~/.bash_profile;cd %s; make > %s/netchain_compile.log 2>&1 &" % (dpdk_dir, self.remote_server_log_dir)
for client in self.clients:
print "%s compile client_dpdk: %s" % (client[0], cmd)
self.exe(client, cmd, True)
for client in self.clients_2:
print "%s compile client_dpdk: %s" % (client[0], cmd)
self.exe(client, cmd, True)
for server in self.servers:
print "%s compile server_dpdk: %s" % (server[0], cmd)
self.exe(server, cmd, True)
return
def run_netchain_client(self):
dpdk_dir = self.remote_server_netchain_client_dir
for client in self.clients:
client_id = client[0].strip("netx")
cmd = "cd %s;source ~/.bash_profile; echo '%s' | sudo -S %s/build/client --lcores 0@0,1@1,2@2,3@3,4@4,5@5,6@6,7@7 -- -m%s -s%s -w%d -i%s -n%s -b%s -r%s -c%s -z90 -e%s -k%s -o%s -l%d -a%s -T%d -C%d -S%d -O%d -g%d" %\
(self.remote_server_netchain_client_dir, self.passwd[client[0]], dpdk_dir, self.data_transfer_mode, self.wpkts_send_limit_ms_client, self.warehouse, self.interval, client_id, self.benchmark, self.n_rcv_cores, self.contention_degree,
self.client_num, self.lock_num, self.mem_dict[self.memory_manage], self.slot_num, self.task_id, self.think_time, self.client_node_num, self.server_node_num, self.timeout_slot, self.batch_size) + " > %s/netchain_run_even_%s.log 2>&1 &" % (self.remote_server_res_dir, client_id)
print "%s run client_dpdk: %s" % (client[0], cmd)
self.exe(client, cmd, True)
return
## fig. 8(a)
def micro_bm_s(self):
self.task_id = 's'
self.benchmark = MICROBENCHMARK_SHARED
self.lock_num = 12
self.client_node_num = 12
self.server_node_num = 0
self.client_num = 2
self.n_rcv_cores = 6
send_limit_list = [5000]
for i in send_limit_list:
self.wpkts_send_limit_ms_client = i
self.run_all()
## fig. 8(b)
def micro_bm_x(self):
self.task_id = 'x'
self.benchmark = MICROBENCHMARK_EXCLUSIVE
self.lock_num = 55000
send_limit_list = [5000]
self.client_node_num = 12
self.server_node_num = 0
self.client_num = 2
self.n_rcv_cores = 6
self.data_transfer_mode = SYNCHRONOUS
for i in send_limit_list:
self.wpkts_send_limit_ms_client = i
self.run_all()
## fig. 8(c)(d)
def micro_bm_cont(self):
self.server_node_num = 0
self.client_node_num = 12
self.task_id = 'c'
self.benchmark = MICROBENCHMARK_EXCLUSIVE
self.wpkts_send_limit_ms_client = 5000
self.contention_degree = 12
self.client_num = 2
self.n_rcv_cores = 6
self.data_transfer_mode = SYNCHRONOUS
lk_num_list = [500, 1000, 1500, 2000, 3000, 4000, 5000, 6000, 7000, 8000, 9000, 10000]
for i in lk_num_list:
self.lock_num = i
self.run_all()
return
## fig. 13(a)
def mem_management(self):
self.think_time = 0
self.task_id = 'm'
self.benchmark = TPCCBENCHMARK
self.wpkts_send_limit_ms_client = 10000
self.client_num = 4
self.n_rcv_cores = 4
self.data_transfer_mode = ASYNCHRONOUS
self.client_node_num = 10
self.server_node_num = 2
self.warehouse = 10
self.interval = 10
self.lock_num = 700000 * self.warehouse
self.slot_num = 130000
self.timeout_slot = 600
for sn in [130000]:
self.timeout_slot = 4000 - sn / 100
self.slot_num = sn
for mm in [MEM_BIN_PACK, MEM_RAND_WEIGHT]:
self.memory_manage = mm
if (self.memory_manage == MEM_RAND_WEIGHT):
self.wpkts_send_limit_ms_client = 3000
self.kill_all()
time.sleep(10)
self.run_netlock()
time.sleep(180)
self.run_server()
self.run_client()
time.sleep(45)
self.grab_result()
return
## fig. 14(b)
def mem_size(self):
self.task_id = 'S'
self.think_time = 0
self.client_num = 4
self.n_rcv_cores = 4
self.data_transfer_mode = ASYNCHRONOUS
self.client_node_num = 10
self.server_node_num = 2
self.warehouse = 10
self.interval = 15
self.wpkts_send_limit_ms_client = 1000
self.client_num = 4
self.lock_num = 700000 * self.warehouse
self.memory_manage = MEM_BIN_PACK
# for bm in [ZIPFBENCHAMRK]:
for bm in [TPCC_UNIFORMBENCHMARK]:
for sn in [2000, 3000, 4000, 5000, 10000, 20000]:
self.slot_num = sn
self.benchmark = bm
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(180)
self.run_server()
self.run_client()
time.sleep(50)
self.grab_result()
return
## fig. 14(a)
def run_think_time(self):
self.task_id = 't'
self.wpkts_send_limit_ms_client = 10000
self.client_num = 4
self.n_rcv_cores = 4
self.benchmark = TPCCBENCHMARK
self.contention_degree = 12
self.memory_manage = MEM_BIN_PACK
self.slot_num = 130000
self.data_transfer_mode = ASYNCHRONOUS
self.client_node_num = 10
self.server_node_num = 2
self.warehouse = 10
self.interval = 8
self.lock_num = 700000 * self.warehouse
send_rate_dic = {0: 10000, 1: 10000, 10:10000, 100:10000, 1000:5000, 10000: 1500, 100000: 1500}
percent_dic = {4000: 0.3716185416666667, 6000: 0.3976164583333333, 90000: 0.597170625, 130000: 0.6281872916666666, 70000: 0.576940625, 8000: 0.41656604166666666, 100000: 0.6059195833333333, 80000: 0.5875347916666667, 120000: 0.6212935416666666, 30000: 0.5105391666666667, 2000: 0.3292158333333333, 50000: 0.549965625, 40000: 0.5325160416666667, 110000: 0.6140197916666666, 20000: 0.4805391666666667, 18000: 0.473036875, 60000: 0.5643233333333333, 16000: 0.46444895833333333, 14000: 0.45505979166666666, 12000: 0.44424604166666665, 10000: 0.43155}
self.timeout_slot = 400
for sn in [0, 400, 800, 1200, 1600, 2000, 2400, 2800, 3200, 3600, 4000]:
self.slot_num = sn
if (sn < 0):
self.timeout_slot = 4000 - 6 * sn
else:
self.timeout_slot = 400
for tt in [0, 5, 10, 100]:
self.think_time = tt
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(100)
self.run_server()
self.run_client()
time.sleep(45)
self.grab_result()
return
# fig. 10
def run_tpcc(self):
self.task_id = 'p'
self.benchmark = TPCCBENCHMARK
self.client_num = 4
self.n_rcv_cores = 4
self.memory_manage = MEM_BIN_PACK
self.server_node_num = 2
self.client_node_num = 10
self.wpkts_send_limit_ms_client = 10000
self.think_time = 0
self.timeout_slot = 2000
for wh in [1, 10]:
self.warehouse = wh
self.lock_num = 700000 * self.warehouse
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(180)
self.run_server()
time.sleep(1)
self.run_client()
time.sleep(30)
self.grab_result()
return
# fig. 11
def run_tpcc_multiple_server(self):
self.task_id = 'q'
self.benchmark = TPCCBENCHMARK
self.client_num = 4
self.n_rcv_cores = 4
self.memory_manage = MEM_BIN_PACK
self.server_node_num = 4
self.client_node_num = 6
self.wpkts_send_limit_ms_client = 10000
self.think_time = 0
for wh in [1, 10]:
self.warehouse = wh
self.lock_num = 700000 * self.warehouse
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(180)
self.run_server()
time.sleep(1)
self.run_client()
time.sleep(30)
self.grab_result()
return
# Not shown
def granularity(self):
self.task_id = 'g'
self.benchmark = TPCCBENCHMARK
self.client_num = 4
self.n_rcv_cores = 4
self.memory_manage = MEM_BIN_PACK
self.server_node_num = 1
self.client_node_num = 10
self.slot_num = 100000
self.wpkts_send_limit_ms_client = 10000
self.think_time = 0
self.warehouse = 10
self.lock_num = 700000 * self.warehouse
self.interval = 10
for to in [200, 300, 400]:
self.timeout_slot = to
for batch_size in [1, 10, 50, 100, 500, 1000, 2000]:
self.batch_size = batch_size
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(180)
self.run_server()
self.run_client()
time.sleep(50)
self.grab_result()
return
# fig. 15
def failover(self):
self.task_id = 'f'
self.benchmark = TPCCBENCHMARK
self.client_num = 4
self.n_rcv_cores = 4
self.memory_manage = MEM_BIN_PACK
self.server_node_num = 2
self.client_node_num = 10
self.wpkts_send_limit_ms_client = 10000
self.think_time = 0
self.interval = 50
for wh in [10]:
self.warehouse = wh
self.lock_num = 700000 * self.warehouse
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(180)
self.run_server()
self.run_client()
time.sleep(30)
self.grab_result()
return
# fig. 12(a)
def priority(self):
self.task_id = 'r'
self.benchmark = TPCCBENCHMARK
self.client_num = 4
self.n_rcv_cores = 4
self.memory_manage = MEM_BIN_PACK
self.server_node_num = 2
self.client_node_num = 10
self.wpkts_send_limit_ms_client = 10000
self.think_time = 0
self.timeout_slot = 1000
self.interval = 18
for wh in [10]:
self.warehouse = wh
self.lock_num = 700000 * self.warehouse
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(180)
self.run_server()
self.run_client_2()
time.sleep(20)
self.run_client()
time.sleep(65)
self.grab_result()
return
# fig. 10
def netchain(self):
# self.batch_size = 10
self.task_id = 'p'
self.benchmark = TPCCBENCHMARK
self.client_num = 2
self.n_rcv_cores = 6
self.memory_manage = MEM_BIN_PACK
self.server_node_num = 0
self.client_node_num = 10
self.wpkts_send_limit_ms_client = 10000
self.think_time = 0
self.timeout_slot = 1000
for wh in [1, 10]:
self.warehouse = wh
self.lock_num = 700000 * self.warehouse
self.kill_all()
time.sleep(5)
self.run_netchain_switch()
time.sleep(50)
# self.run_netchain_server()
self.run_netchain_client()
time.sleep(50)
self.grab_result()
return
# fig. 11
def netchain_ms(self):
# self.batch_size = 10
self.task_id = 'q'
self.benchmark = TPCCBENCHMARK
self.client_num = 2
self.n_rcv_cores = 6
self.memory_manage = MEM_BIN_PACK
self.server_node_num = 0
self.client_node_num = 6
self.wpkts_send_limit_ms_client = 10000
self.think_time = 0
self.timeout_slot = 1000
for wh in [1, 10]:
self.warehouse = wh
self.lock_num = 700000 * self.warehouse
self.kill_all()
time.sleep(5)
self.run_netchain_switch()
time.sleep(50)
# self.run_netchain_server()
self.run_netchain_client()
time.sleep(50)
self.grab_result()
return
## fig. 9
def micro_bm_s_only_server(self):
self.task_id = 'e'
self.benchmark = MICROBENCHMARK_SHARED
self.lock_num = 160
self.client_node_num = 10
self.server_node_num = 1
self.client_num = 2
self.n_rcv_cores = 6
self.wpkts_send_limit_ms_client = 1000
for noc in [8]:
self.num_of_cores_ls = noc
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(50)
self.run_server()
self.run_client()
time.sleep(30)
self.grab_result()
## fig. 9
def micro_bm_x_only_server(self):
self.task_id = 'e'
self.benchmark = MICROBENCHMARK_EXCLUSIVE
self.lock_num = 55000
self.client_node_num = 10
self.server_node_num = 1
self.client_num = 2
self.n_rcv_cores = 6
self.data_transfer_mode = SYNCHRONOUS
self.wpkts_send_limit_ms_client = 500
for noc in [8]:
self.num_of_cores_ls = noc
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(50)
self.run_server()
self.run_client()
time.sleep(30)
self.grab_result()
# fig. 9
def micro_bm_cont_only_server(self):
self.server_node_num = 1
self.client_node_num = 10
self.task_id = 'e'
self.benchmark = MICROBENCHMARK_EXCLUSIVE
self.wpkts_send_limit_ms_client = 10000
self.contention_degree = 12
self.client_num = 2
self.n_rcv_cores = 6
self.data_transfer_mode = SYNCHRONOUS
lk_num_list = [10000]
self.wpkts_send_limit_ms_client = 500
for i in lk_num_list:
self.lock_num = i
for noc in [2,4,6,8]:
self.num_of_cores_ls = noc
self.kill_all()
time.sleep(5)
self.run_netlock()
time.sleep(55)
self.run_server()
self.run_client()
time.sleep(30)
self.grab_result()
return
def print_usage():
prRed("Usage")
prRed(" console.py sync_(host, trace, switch, all)")
prRed(" console.py compile_(host, switch, all)")
prRed(" console.py run_(client, server, netlock, host, all)")
prRed(" console.py setup_dpdk")
prRed(" console.py reboot_host")
prRed(" console.py grab_result")
prRed(" console.py clean_result")
prRed(" console.py benchmark (e.g. micro_bm_s, micro_bm_x, micro_bm_cont, mem_man, mem_size, think_time, run_tpcc, run_tpcc_ms)")
prRed(" console.py failover")
prRed(" console.py compile_netchain")
sys.exit()
if __name__ == "__main__":
if len(sys.argv) <= 1:
print_usage()
sys.exit(0)
print(client_id_t1)
print(server_id)
nl_console = NetLockConsole(client_id_t1, client_id_t2, server_id, switch_id)
if sys.argv[1] == "sync_host":
nl_console.sync_host()
elif sys.argv[1] == "sync_trace":
nl_console.sync_trace()
elif sys.argv[1] == "init_sync_host":
nl_console.init_sync_host()
elif sys.argv[1] == "init_sync_switch":
nl_console.init_sync_switch()
elif sys.argv[1] == "sync_switch":
nl_console.sync_switch()
elif sys.argv[1] == "sync_all":
nl_console.sync_all()
elif sys.argv[1] == "compile_host":
nl_console.compile_host()
elif sys.argv[1] == "compile_switch":
nl_console.compile_switch()
elif sys.argv[1] == "compile_all":
nl_console.compile_all()
elif sys.argv[1] == "run_client":
nl_console.run_client()
elif sys.argv[1] == "run_server":
nl_console.run_server()
elif sys.argv[1] == "run_netlock":
nl_console.run_netlock()
elif sys.argv[1] == "run_all":
nl_console.run_all()
elif sys.argv[1] == "kill_host":
nl_console.kill_host()
elif sys.argv[1] == "kill_switch":
nl_console.kill_switch()
elif sys.argv[1] == "kill_all":
nl_console.kill_all()
elif sys.argv[1] == "setup_dpdk":
nl_console.setup_dpdk()
elif sys.argv[1] == "reboot_host":
nl_console.reboot_host()
elif sys.argv[1] == "grab_result":
nl_console.grab_result()
elif sys.argv[1] == "clean_result":
nl_console.clean_result()
elif sys.argv[1] == "micro_bm_s":
nl_console.micro_bm_s()
elif sys.argv[1] == "micro_bm_x":
nl_console.micro_bm_x()
elif sys.argv[1] == "micro_bm_cont":
nl_console.micro_bm_cont()
elif sys.argv[1] == "run_host":
nl_console.run_host()
elif sys.argv[1] == "mem_man":
nl_console.mem_management()
elif sys.argv[1] == "mem_size":
nl_console.mem_size()
elif sys.argv[1] == "think_time":
nl_console.run_think_time()
elif sys.argv[1] == "run_tpcc":
nl_console.run_tpcc()
elif sys.argv[1] == "run_tpcc_ms":
nl_console.run_tpcc_multiple_server()
elif sys.argv[1] == "granularity":
nl_console.granularity()
elif sys.argv[1] == "priority":
nl_console.priority()
elif sys.argv[1] == "failover":