def start_network_bench(bench): global hosts_state nb_hosts = bench['nb-hosts'] msg = HM(HM.MODULE, HM.NETWORK, HM.START) msg.block_size = bench['block-size'] msg.running_time = bench['runtime'] msg.network_test = bench['mode'] msg.network_connection = bench['connection'] msg.ports_list = bench['port-list'] bench['arity_groups'] = [] arity_group = [] used_hosts = [] ip_list = {} while nb_hosts > 0: for hv in bench['hosts-list']: for host in bench['hosts-list'][hv]: if nb_hosts == 0: break # We shall not use the same host twice if host in used_hosts: continue used_hosts.append(host) arity_group.append(host) ip_list[host] = bench['ip-list'][host] nb_hosts = nb_hosts - 1 if len(arity_group) == bench['arity']: bench['arity_groups'].append(arity_group) msg.peer_servers = ip_list.items() for peer_server in arity_group: if peer_server not in get_host_list( NETWORK_RUN).keys(): msg.my_peer_name = bench['ip-list'][peer_server] hosts_state[peer_server] |= NETWORK_RUN lock_socket_list.acquire() start_time(peer_server) HP.send_hm_message(socket_list[peer_server], msg) lock_socket_list.release() arity_group = [] ip_list = {} # We shall break to switch to another hypervisor break if nb_hosts == 0: return
def start_memory_bench(bench): global hosts_state nb_hosts = bench['nb-hosts'] msg = HM(HM.MODULE, HM.MEMORY, HM.START) msg.cpu_instances = bench['cores'] msg.block_size = bench['block-size'] msg.running_time = bench['runtime'] msg.mode = bench['mode'] for host in bench['hosts-list']: if nb_hosts == 0: break if host not in get_host_list(MEMORY_RUN).keys(): hosts_state[host] |= MEMORY_RUN nb_hosts = nb_hosts - 1 lock_socket_list.acquire() start_time(host) HP.send_hm_message(socket_list[host], msg) lock_socket_list.release()
def start_memory_bench(bench): global hosts_state nb_hosts = bench['nb-hosts'] msg = HM(HM.MODULE, HM.MEMORY, HM.START) msg.cpu_instances = bench['cores'] msg.block_size = bench['block-size'] msg.running_time = bench['runtime'] msg.parallel_mode = bench['mode'] for host in bench['hosts-list']: if nb_hosts == 0: break if host not in get_host_list(MEMORY_RUN).keys(): hosts_state[host] |= MEMORY_RUN nb_hosts = nb_hosts - 1 lock_socket_list.acquire() start_time(host) HP.send_hm_message(socket_list[host], msg) lock_socket_list.release()
def start_network_bench(bench): global hosts_state nb_hosts = bench['nb-hosts'] msg = HM(HM.MODULE, HM.NETWORK, HM.START) msg.block_size = bench['block-size'] msg.running_time = bench['runtime'] msg.network_test = bench['mode'] msg.network_connection = bench['connection'] msg.ports_list = bench['port-list'] bench['arity_groups'] = [] arity_group = [] used_hosts = [] ip_list = {} while nb_hosts > 0: for hv in bench['hosts-list']: for host in bench['hosts-list'][hv]: if nb_hosts == 0: break # We shall not use the same host twice if host in used_hosts: continue used_hosts.append(host) arity_group.append(host) ip_list[host] = bench['ip-list'][host] nb_hosts = nb_hosts - 1 if len(arity_group) == bench['arity']: bench['arity_groups'].append(arity_group) msg.peer_servers = ip_list.items() for peer_server in arity_group: if peer_server not in get_host_list(NETWORK_RUN).keys(): msg.my_peer_name = bench['ip-list'][peer_server] hosts_state[peer_server] |= NETWORK_RUN lock_socket_list.acquire() start_time(peer_server) HP.send_hm_message(socket_list[peer_server], msg) lock_socket_list.release() arity_group = [] ip_list = {} # We shall break to switch to another hypervisor break if nb_hosts == 0: return
def start_storage_bench(bench): global hosts_state nb_hosts = bench['nb-hosts'] msg = HM(HM.MODULE, HM.STORAGE, HM.START) msg.block_size = bench['block-size'] msg.access = bench['access'] msg.running_time = bench['runtime'] msg.mode = bench['mode'] msg.device = bench['device'] msg.rampup_time = bench['rampup-time'] for host in bench['hosts-list']: if nb_hosts == 0: break if host not in get_host_list(STORAGE_RUN).keys(): hosts_state[host] |= STORAGE_RUN nb_hosts = nb_hosts - 1 lock_socket_list.acquire() start_time(host) HP.send_hm_message(socket_list[host], msg) lock_socket_list.release()