mirror of
https://github.com/espressif/esp-idf.git
synced 2024-10-05 20:47:46 -04:00
364 lines
15 KiB
Python
364 lines
15 KiB
Python
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import random
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import re
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import sys
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import threading
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import time
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import TCPConnUtility
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from NativeLog import NativeLog
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from TCAction import TCActionBase
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reload(sys)
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sys.setdefaultencoding('iso-8859-1') # # use encoding that with 1 Byte length and contain 256 chars
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DEFAULT_MAX_CONN_ALLOWED = 5
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# complicated design because I want to make this script applied for all TCP connect/close test scenarios
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# basic flow: try to create max connections, send/recv data if possible, close all connections
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# connect:
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# 1. find available (target_link_id, socket_id) list,
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# notice that target_link_id maybe not correct if PC is client
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# (during that time, some link may timeout and got disconnected from FIN_WAIT or other state)
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# 2. choose one method from method set, try to connect
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# 3. update state table: a)check result and destination state, b)find real target_link_id, c)update
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# send/recv data:
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# 1. find channels that are possible to send data on all connections
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# 2. send data on possible channels
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# disconnect:
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# 1. find available connections
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# 2. choose one method from disconnect set, try to disconnect
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# 3. update state table (phase 1)
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# async process:
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# listen on AT UART port, record all "x,CONNECT" and "x,CLOSE" command
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# for "x,CONNECT", append them to self.target_link_id_list, used when need to find real target_link_id
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# for "x,CLOSE", update state table (phase 2), if matching connection is pending on wait state,
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# close them and remove from state table
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class TCPConnStressTC(TCActionBase.CommonTCActionBase):
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def __init__(self, name, test_env, cmd_set, timeout=30, log_path=TCActionBase.LOG_PATH):
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TCActionBase.CommonTCActionBase.__init__(self, name, test_env, cmd_set=cmd_set,
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timeout=timeout, log_path=log_path)
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self.__at1_buff = ""
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self.max_conn_allowed = test_env.get_variable_by_name("max_conn")
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self.enable_log = True
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# load param from excel
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for i in range(1, len(cmd_set)):
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if cmd_set[i][0] != "dummy":
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cmd_string = "self." + cmd_set[i][0]
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exec cmd_string
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# connection_state_dict: {target_link_id: [socket_id, target_state, socket_state, is_closed]}
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# is_closed: found "x,CLOSE" in AT UART port
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self.connection_state_dict = dict(zip(range(self.max_conn_allowed), [None] * self.max_conn_allowed))
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self.created_link_id_list = []
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self.__available_soc_id = range(2, 2+self.max_conn_allowed)
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self.__available_link_id = range(self.max_conn_allowed)
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self.result_cntx = TCActionBase.ResultCheckContext(self, test_env, self.tc_name)
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self.utility = TCPConnUtility.TCPConnUtility(self)
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self.state_lock = threading.Lock()
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self.link_id_lock = threading.Lock()
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self.available_id_lock = threading.Lock()
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pass
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def __add_log(self, log_str):
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if self.enable_log is True:
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NativeLog.add_trace_info(log_str)
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def __get_created_target_link_id(self):
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self.link_id_lock.acquire()
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try:
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link_id = self.created_link_id_list[-1]
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self.created_link_id_list = []
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finally:
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self.link_id_lock.release()
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return link_id
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pass
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def __set_created_target_link_id(self, link_id):
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self.link_id_lock.acquire()
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try:
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self.created_link_id_list.append(link_id)
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finally:
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self.link_id_lock.release()
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pass
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def __find_channel_list(self):
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channel_list = [] # # [(socket_id, able_to_send, link_id, able_to_send), ]
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self.state_lock.acquire()
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try:
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for link_id in self.connection_state_dict:
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state = self.connection_state_dict[link_id]
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if state is not None:
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channel_list.append([state[0], self.utility.is_able_to_send_data(state[2]),
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link_id, self.utility.is_able_to_send_data(state[1])])
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finally:
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self.state_lock.release()
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return channel_list
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pass
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def __established_connection_list(self):
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conn_list = [] # # [(socket_id, link_id), ]
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self.state_lock.acquire()
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try:
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for link_id in self.connection_state_dict:
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state = self.connection_state_dict[link_id]
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if state is not None:
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if self.utility.is_established_connection([state[1], state[2]]) is True:
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conn_list.append([state[0], link_id])
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finally:
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self.state_lock.release()
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return conn_list
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pass
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# find free socket_id, target_link_id pair
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def __get_available_id_list(self):
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self.available_id_lock.acquire()
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try:
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id_list = zip(self.__available_soc_id, self.__available_link_id)
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finally:
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self.available_id_lock.release()
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return id_list
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pass
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def __update_available_id_list(self, soc_id, link_id, action="ADD"):
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self.available_id_lock.acquire()
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try:
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if action == "ADD":
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self.__available_link_id.append(link_id)
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self.__available_soc_id.append(soc_id)
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self.__add_log("[AVAILABLE ID]soc %d link %d is available" % (soc_id, link_id))
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elif action == "REMOVE":
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self.__available_link_id.remove(link_id)
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self.__available_soc_id.remove(soc_id)
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self.__add_log("[AVAILABLE ID]soc %d link %d is used" % (soc_id, link_id))
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finally:
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self.available_id_lock.release()
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def __update_connection_state_item(self, target_link_id, socket_id=None,
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target_state=None, socket_state=None, is_closed=None):
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self.state_lock.acquire()
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try:
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state = self.connection_state_dict[target_link_id]
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if state is None:
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state = [None] * 4
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if socket_id is not None:
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state[0] = socket_id
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if target_state is not None:
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state[1] = target_state
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if socket_state is not None:
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state[2] = socket_state
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if is_closed is not None:
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state[3] = is_closed
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# remove closed connections
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closed = self.utility.is_closed_state(state[1]) and (state[3] is True)
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if closed is True:
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self.__update_available_id_list(state[0], target_link_id)
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state = None
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# if new connection created
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if self.connection_state_dict[target_link_id] is None:
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created = self.utility.is_created_state(state[1])
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if created is True:
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self.__update_available_id_list(state[0], target_link_id, "REMOVE")
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else:
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# connection did not created, do not add them to connection state table
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state = None
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# set new connection_state
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self.connection_state_dict[target_link_id] = state
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self.__add_log("[STATE] link id is %d, state is %s" % (target_link_id, state))
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except StandardError, e:
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pass
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finally:
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self.state_lock.release()
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pass
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# update state table: if result is false, return, if result is true:
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# for connect, find real link id, update table according to destination state
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# for disconnect, if target in SOC_CLOSE_STATE && catch "x,CLOSE" from AT, remove the item
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def update_connection_state_table(self, conn_id, destination_state=None):
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if isinstance(conn_id, list) is True or isinstance(conn_id, tuple) is True:
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socket_id = conn_id[0]
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try:
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target_link_id = self.__get_created_target_link_id()
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except IndexError:
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target_link_id = conn_id[1]
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self.__add_log("[STATE]fail to get link id, state is %s, %s"
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% (destination_state[0], destination_state[1]))
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self.__update_connection_state_item(target_link_id, socket_id,
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destination_state[0], destination_state[1])
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pass
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else: # # called when recv CLOSED
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target_link_id = conn_id
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self.__update_connection_state_item(target_link_id, is_closed=True)
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pass
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pass
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def process_at_data(self, data):
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pos1 = 0
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pos2 = 0
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connect = re.compile("\d,CONNECT\r\n")
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close = re.compile("\d,CLOSED\r\n")
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connect_match = connect.findall(data)
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close_match = close.findall(data)
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close = re.compile("\d,CONNECT FAIL\r\n")
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close_match += close.findall(data)
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if len(connect_match) != 0:
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pos1 = data.find(connect_match[-1]) + 9
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# append last connected link id
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self.__set_created_target_link_id(int(connect_match[-1][:1]))
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pass
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if len(close_match) != 0:
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pos2 = data.find(close_match[-1]) + 7
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# update for all closed links
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for close_str in close_match:
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self.update_connection_state_table(int(close_str[:1]))
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pass
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pos = pos1 if pos1 > pos2 else pos2
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return data[pos:]
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def execute(self):
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TCActionBase.TCActionBase.execute(self)
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self.result_cntx.start()
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# configurable params
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# mandatory params
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try:
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connect_method_set = self.connect_method_set
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test_count = self.test_count
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except StandardError, e:
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NativeLog.add_trace_critical("Error configuration for TCPConnSingleMode script, error is %s" % e)
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raise StandardError("Error configuration")
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# optional params
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try:
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disconn_method_set = self.disconn_method_set
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except StandardError:
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disconn_method_set = ["D_05"]
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pass
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try:
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delay = self.delay
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except StandardError:
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delay = 0
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pass
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try:
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check_data_len = self.check_data_len
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except StandardError:
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check_data_len = [0, 0]
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pass
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if isinstance(check_data_len, list) is False:
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check_data_len = [check_data_len] * 2
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# configurable params
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# step1 use <test_tcp_port1> to create server on both PC and target side
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checker_stings = ["SOCP SOC_COM L OK", "ATP AT1 L OK"]
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test_action_string = ["SOC SOC1 LISTEN <test_tcp_port1>", "ATC AT1 CIPSERVER 1 <test_tcp_port1>"]
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fail_string = "Fail, Fail on create server"
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if self.load_and_exe_one_step(checker_stings, test_action_string, fail_string) is False:
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return
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for tested_count in xrange(test_count):
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# step2 do connect
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available_id_list = self.__get_available_id_list()
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for conn_id in available_id_list:
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connect_method = random.choice(connect_method_set)
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# ret, destination_state = self.utility.execute_tcp_method(connect_method, conn_id)
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try:
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self.__add_log("[ACTION]connect method is %s, connect id is %s"
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% (connect_method, conn_id))
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ret, destination_state = self.utility.execute_tcp_method(connect_method, conn_id)
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except StandardError, e:
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NativeLog.add_trace_critical("Error in connect, error is %s" % e)
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raise StandardError("Exception happen when connect")
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if ret is False:
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# connect fail, should terminate TC and mark as fail
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return
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else:
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# succeed, append to table
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self.update_connection_state_table(conn_id, destination_state)
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if delay != 0:
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time.sleep(delay)
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# step 3 send/recv test data
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# # [(socket_id, able_to_send, link_id, able_to_send)]
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self.__add_log("[ACTION]SEND/RECV data")
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channel_list = self.__find_channel_list()
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for channel in channel_list:
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_check_data_len = [0, 0]
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if channel[1] is True:
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_check_data_len[0] = check_data_len[0]
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if channel[3] is True:
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_check_data_len[1] = check_data_len[1]
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ret = self.utility.send_test_data(channel[0],
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channel[2],
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_check_data_len)
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if ret is False:
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# send/recv fail, should terminate TC and mark as fail
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return
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if delay != 0:
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time.sleep(delay)
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# step 4 close all established connections
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# (socket_id, link_id)
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conn_list = self.__established_connection_list()
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for conn_id in conn_list:
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disconn_method = random.choice(disconn_method_set)
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try:
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self.__add_log("[ACTION]disconnect method is %s, connect id is %s"
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% (disconn_method, conn_id))
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ret, destination_state = self.utility.execute_tcp_method(disconn_method, conn_id)
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except StandardError, e:
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NativeLog.add_trace_critical("Error in disconnect, error is %s" % e)
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raise StandardError("Exception happen when disconnect")
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if ret is False:
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# connect fail, should terminate TC and mark as fail
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return
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else:
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# succeed, append to table
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self.update_connection_state_table(conn_id, destination_state)
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if delay != 0:
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time.sleep(delay)
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# finally, execute done
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self.result_cntx.set_result("Succeed")
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def result_check(self, port_name, data):
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TCActionBase.CommonTCActionBase.result_check(self, port_name, data)
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self.result_cntx.append_data(port_name, data)
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# find "x,CONNECT" and "x,CLOSE"
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if port_name.find("AT") != -1:
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self.__at1_buff += data
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self.__at1_buff = self.process_at_data(self.__at1_buff)
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def main():
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at1_buff = ""
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pos1 = 0
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pos2 = 0
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data = "dafgajglajdfg0,CLOSEjdalghalksdg1,CONNECT\r\n\r\n3,CONNECT4,CLOSEadfaasdf"
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at1_buff += data
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connect = re.compile("\d,CONNECT")
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close = re.compile("\d,CLOSE")
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connect_match = connect.findall(at1_buff)
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close_match = close.findall(at1_buff)
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if len(connect_match) != 0:
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pos1 = at1_buff.find(connect_match[-1]) + 9
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pass
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if len(close_match) != 0:
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pos2 = at1_buff.find(close_match[-1]) + 7
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pass
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pos = pos1 if pos1 > pos2 else pos2
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at1_buff = at1_buff[pos:]
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pass
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if __name__ == '__main__':
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main()
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