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AWX_collector_dummy
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add shm updater

This commit is contained in:
YujinChu 2023-09-08 07:06:29 +00:00
parent 17087026fe
commit d745530542
2 changed files with 273 additions and 135 deletions
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390
AWX_collector.py
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@ -8,8 +8,10 @@ import serial.rs485
import subprocess
import json
import queue
import argparse
import paho.mqtt.client as mqtt
import numpy as np
from multiprocessing import shared_memory
import argparse
'''
@ -29,7 +31,6 @@ ER1: 1초동안 판별, 판별할 동안 counting 할 예정 2V 이하라면 CNT
ER2: OFF 횟수
'''
parser = argparse.ArgumentParser()
@ -46,6 +47,33 @@ with open(f"{args.config}/connect_info.json","r") as f:
info = json.load(f)
###############################################################################
# Shared memory setting #
###############################################################################
with open(f"{args.config}/config.json","r") as f:
data = json.load(f)
print(data)
print(data["1"])
a = [ data[str(n+1)] for n in range(64)]
a = np.array(a)
###############################################################################
# Get Data from Shared Memory #
###############################################################################
shm = shared_memory.SharedMemory(create=True, size=a.nbytes, name="DO-shm")
b = np.ndarray(a.shape, dtype=a.dtype, buffer=shm.buf)
b[:] = a[:]
###############################################################################
# MQTT Broker Setting #
###############################################################################
@ -69,80 +97,72 @@ client.connect(host=MQTT_HOST_IP,port=MQTT_PORT)
client.loop(2) # timeout = 2초
serial_dev1 = ""
serial_dev2 = ""
# chip0_lock = threading.Lock()
# chip1_lock = threading.Lock()
_serial_port1 = serial.Serial("/dev/ttyMAX1", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port1.rs485_mode = serial.rs485.RS485Settings()
_serial_port2 = serial.Serial("/dev/ttyMAX0", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port2.rs485_mode = serial.rs485.RS485Settings()
#_serial_port3 = serial.Serial("/dev/ttyMAX2", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
#_serial_port3.rs485_mode = serial.rs485.RS485Settings()
#_serial_port4 = serial.Serial("/dev/ttyMAX3", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
#_serial_port4.rs485_mode = serial.rs485.RS485Settings()
###############################################################################
# Serial setting #
###############################################################################
_serial_port3 = serial.Serial("/dev/ttyMAX2", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port3.rs485_mode = serial.rs485.RS485Settings()
_serial_port4 = serial.Serial("/dev/ttyMAX3", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port4.rs485_mode = serial.rs485.RS485Settings()
#data_queue = queue.Queue()
######################################### thread 함수 작성 ################################################
dict_1={}
def read_cihp0(e,port_num1,port_num2,id1,id2,id3,id4,id5,id6):
###############################################################################
# Serial thread #
###############################################################################
isThreadRun = True
def cwt_thread(evt, chip_index, port_a_ai_id , port_a_do_id, port_b_ai_id , port_b_do_id, queue_a, queue_b):
print("index: ", chip_index)
print("a-ai: %d, a-do: %d, b-ai: %d, b-do: %d " % (port_a_ai_id, port_a_do_id, port_b_ai_id, port_b_do_id))
if chip_index == 0:
serial_dev1 = "/dev/ttyMAX1"
serial_dev2 = "/dev/ttyMAX0"
# lock = chip1_lock
else:
serial_dev1 = "/dev/ttyMAX2"
serial_dev2 = "/dev/ttyMAX3"
print(serial_dev1)
print(serial_dev2)
_serial_port_A = serial.Serial(serial_dev1, 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port_A.rs485_mode = serial.rs485.RS485Settings()
_serial_port_B = serial.Serial(serial_dev2, 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
_serial_port_B.rs485_mode = serial.rs485.RS485Settings()
#_serial_port3 = serial.Serial("/dev/ttyMAX2", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
#_serial_port3.rs485_mode = serial.rs485.RS485Settings()
#_serial_port4 = serial.Serial("/dev/ttyMAX3", 115200, parity= serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout = 1, rtscts=True)
#_serial_port4.rs485_mode = serial.rs485.RS485Settings()
port_A_AI = minimalmodbus.Instrument(serial_dev1, port_a_ai_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_A_AI.serial.baudrate = 115200 # baudrate
port1_AI1 = minimalmodbus.Instrument(serial_dev1, id1, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port1_AI1.serial.baudrate = 115200 # baudrate
port_A_DO = minimalmodbus.Instrument(serial_dev1, port_a_do_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_A_DO.serial.baudrate = 115200 # baudrate
port1_DO = minimalmodbus.Instrument(serial_dev1, id2, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port1_DO.serial.baudrate = 115200 # baudrate
port_B_AI = minimalmodbus.Instrument(serial_dev2, port_b_ai_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_B_AI.serial.baudrate = 115200 # baudrate
port1_AI2 = minimalmodbus.Instrument(serial_dev1, id3, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port1_AI2.serial.baudrate = 115200 # baudrate
port_B_DO = minimalmodbus.Instrument(serial_dev2, port_b_do_id, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port_B_DO.serial.baudrate = 115200 # baudrate
port2_AI1 = minimalmodbus.Instrument(serial_dev2, id4, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port2_AI1.serial.baudrate = 115200 # baudrate
port2_DO = minimalmodbus.Instrument(serial_dev2, id5, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port2_DO.serial.baudrate = 115200 # baudrate
port2_AI2 = minimalmodbus.Instrument(serial_dev2, id6, debug=False, close_port_after_each_call=False) # port name, slave address (in decimal)
port2_AI2.serial.baudrate = 115200 # baudrate
global read_cnt_ch0
read_cnt_ch0 = 0
global suc_cnt_ai
global suc_cnt_do
global suc_cnt_ai2
global suc_cnt_do2
suc_cnt_ai = 0
suc_cnt_do = 0
suc_cnt_ai2 = 0
suc_cnt_do2 = 0
global lists
lists = []
while True:
e.wait()
while isThreadRun:
evt.wait()
#print("read thread get even")
e.clear()
read_cnt_ch0 = read_cnt_ch0 +1
evt.clear()
prev_a_ai = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
prev_b_ai = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
#value list on -> do control data
#추후에 do power on 할 리스트는 어디선가 읽어서 와야 해요
#do1 do2 나눠야 해요
value_list_ON = [1,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0]
# lock.acquire()
timenow = time.time()
'''
| AI1 | AI2 | DO1 | DO2 |
@ -158,54 +178,55 @@ def read_cihp0(e,port_num1,port_num2,id1,id2,id3,id4,id5,id6):
-> 데이터를 어떻게 것이냐
-> 이전 데이터가 있다면, 이전 데이터를 가지고 더미 데이터로 사용하는 방법 => 안하기로 했었음
'''
timenow = int(time.time()*1000)
isSuccess = True
# PORT A
port_a_do_value = list(b[:16])
try:
ai1=port1_AI1.read_registers(0x32, 32)
suc_cnt_ai = suc_cnt_ai +1
a_ai_data=port_A_AI.read_registers(0x32, 32)
# suc_cnt_ai = suc_cnt_ai +1
except:
# pass
None
# print("Port3 AI1 Fail")
isSuccess = False
if isSuccess:
prev_a_ai = a_ai_data
try:
#print("try")
port1_DO.write_bits(0, value_list_ON)
suc_cnt_do = suc_cnt_do +1
#print("do1")
port_A_DO.write_bits(0, port_a_do_value)
# suc_cnt_do = suc_cnt_do +1
except:
None
# print("Port3 DO Fail")
# try:
# ai2 = port3_AI2.read_registers(0x32, 32)
# except:
# print("Port3 AI2 Fail")
#print(ai1)
#print(ai2)
# PORT B
port_b_do_value = list(b[17:32])
try:
b_ai_data=port_B_AI.read_registers(0x32, 32)
prev_b_ai = b_ai_data
# suc_cnt_ai = suc_cnt_ai +1
except:
isSuccess = False
if isSuccess:
prev_b_ai = b_ai_data
try:
global ai2
ai2=port2_AI1.read_registers(0x32, 32)
suc_cnt_ai2 = suc_cnt_ai2 +1
port_B_DO.write_bits(0, port_b_do_value)
# suc_cnt_do = suc_cnt_do +1
except:
pass
# print("Port4 AI1 Fail")
None
if isSuccess:
queue_a.put([timenow,prev_a_ai, port_a_do_value])
queue_b.put([timenow,prev_b_ai, port_b_do_value])
else:
queue_a.put([0,prev_a_ai, port_a_do_value])
queue_b.put([0,prev_b_ai, port_b_do_value])
try:
do2 = port2_DO.write_bits(0, value_list_ON)
suc_cnt_do2 = suc_cnt_do2 +1
except:
pass
# print("Port4 DO Fail, ")
# try:
# ai2 = port4_AI2.read_registers(0x32, 32)
# except:
# print("Port4 AI2 Fail")
#print(ai1)
#print(ai2)
# lock.release()
@ -214,12 +235,11 @@ def read_cihp0(e,port_num1,port_num2,id1,id2,id3,id4,id5,id6):
'''
##데이터 생성 할 때
# ai1, ai2
# -> ai1 [32] -> [curr, volt, curr, volt ...]
'''
data_for_list = {
"slot" : 1,
"timestamp": int(timenow*1000),
@ -248,33 +268,154 @@ def read_cihp0(e,port_num1,port_num2,id1,id2,id3,id4,id5,id6):
"list": lists
}
}
global dict_1
data_json_str = json.dumps(data, indent=0)
publish_json_message(client, data_json_str)
#print(data_json_str)
# time.sleep(1)
'''
###############################################################################
# data process thread #
###############################################################################
def data_process_thread(data_queue, ch, chamber):
error_cnt_1 = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
error_cnt_2 = [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
data_list_for_send_1=[]
data_list_for_send_2=[]
queue_count = 0
queue_select_count = 0
while isThreadRun:
# 0.1s 마다 발생할 것으로 예상
timestamp, ai, do = data_queue.get()
#==================================================
do_temp = []
for d in do:
do_temp.append(int(d))
do = do_temp.copy()
#==================================================
#print("timestamp: {timestamp}, \n ai: {ai}, \n do: {do}" .format(timestamp=timestamp, ai=ai, do=do))
#ai data -> current, voltage 전환
queue_count = queue_count + 1
current = []
voltage = []
ai_index = 0
for i in ai:
#짝수 current (확인 필요)
ai_index = ai_index +1
if (ai_index%2) == 0:
current.append(int(i))
else:
voltage.append(int(i))
#전압값으로 error count check
voltage_cnt = 0
for i in voltage:
if i < 2:
#count up
error_cnt_1[voltage_cnt] = error_cnt_1[voltage_cnt] +1
if error_cnt_1[voltage_cnt] == 10:
error_cnt_1[voltage_cnt] = 0
error_cnt_2[voltage_cnt] = error_cnt_2[voltage_cnt] + 1
#shared memory do control modify
#ch, tube number->off
else:
# count reset
error_cnt_1[voltage_cnt] = 0
voltage_cnt = voltage_cnt + 1
# 로깅 기능을 넣어야 겠다...?
# 파일 하나 열어서, 데이터를 쓴다
# 데이터 만들어서 전달
if timestamp > 0:
data = {
"timestamp" : int(timestamp),
"data": {
"current" : current,
"voltage" : voltage,
"do" : do,
"er1" : error_cnt_1,
"er2" : error_cnt_2
}
}
if(queue_select_count == 0):
data_list_for_send_1.append(data)
else:
data_list_for_send_2.append(data)
if queue_count == 10:
queue_count = 0
mqtt_msg = {}
if (queue_select_count == 0):
mqtt_msg = {
"modelCode":"test4",
"assetCode":"NQ-R04-TEST-003", #나중에는 config에서 셋팅되는 값, or model 값으로 변경 (asset)
"dataType":"DATA",
"data": {
"channel": ch, # 채널 입력 받자
"chamber":chamber, #chamber 도 입력 받자
"slot": ch, #슬롯 값은 chamber와 ch 값으로 만든다
"list": data_list_for_send_1
}
}
queue_select_count = 1
data_list_for_send_2.clear()
else:
mqtt_msg = {
"modelCode":"test4",
"assetCode":"NQ-R04-TEST-003", #나중에는 config에서 셋팅되는 값, or model 값으로 변경 (asset)
"dataType":"DATA",
"data": {
"channel": ch, # 채널 입력 받자
"chamber":chamber, #chamber 도 입력 받자
"slot": ch, #슬롯 값은 chamber와 ch 값으로 만든다
"list": data_list_for_send_2
}
}
queue_select_count = 0
data_list_for_send_1.clear()
# print(type(mqtt_msg['data']['list'][0]['do'][0]))
data_json_str = json.dumps(mqtt_msg, indent=4)
# print(data_json_str)
# print(data_json_str)
publish_json_message(client, data_json_str)
##erro cnt check routine
# PRINT("CHip1 read count:", read_cnt)
######################################### thread 함수 작성 ################################################
def event_trigger_thread():
print("inpuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuuut\r\n")
if input("Enter to exit(): "):
e.set()
#exit()
return
#event는 개별 생성을 해준다 th1, th2
def timer_event_loop(e):
def timer_event_loop(e1, e2):
cnt = 0
# global read_cnt
while True:
# print("event set, meanning : periodic sensing")
e.set()
e1.set()
e2.set()
time.sleep(0.1)
#cnt = cnt +1
@ -315,28 +456,31 @@ def timer_event_loop(e):
################################# 작성 중 ######################################
if __name__ == '__main__':
e = threading.Event()
read_data_chip0 = threading.Thread(target=read_cihp0,args=(e,1,2,1,2,3,5,6,7))
# read_data_chip1 = threading.Thread(target=read_cihp1,args=(e,2,3,9,10,11,13,14,15))
# read_data_ch3 = threading.Thread(target=read_thread,args=(e,3,9,10,11))
# read_data_ch4 = threading.Thread(target=read_thread,args=(e,4,13,14,15))
event_trigger = threading.Thread(target=event_trigger_thread)
event_thread = threading.Thread(target=timer_event_loop, args=(e,))
# timer = threading.Timer(3,lambda: e.set()) # 1 time
###############################################################################
# Queue x 4 max- infinite #
###############################################################################
# read_data_ch1.start()
# read_data_ch2.start()
# read_data_chip1.start()
ch1_queue = queue.Queue()
ch2_queue = queue.Queue()
ch3_queue = queue.Queue()
ch4_queue = queue.Queue()
chip0_evt = threading.Event()
chip1_evt = threading.Event()
read_data_chip0 = threading.Thread(target=cwt_thread,args=(chip0_evt, 0, 1,2, 5,6, ch1_queue, ch2_queue)) #현재 4개씩 연결되어 있어서 테스트 용
read_data_chip1 = threading.Thread(target=cwt_thread,args=(chip1_evt, 1, 9,10, 13,14, ch3_queue, ch4_queue))
data_process_ch1 = threading.Thread(target=data_process_thread,args=(ch1_queue, 1, 1))
data_process_ch2 = threading.Thread(target=data_process_thread,args=(ch2_queue, 2, 1))
data_process_ch3 = threading.Thread(target=data_process_thread,args=(ch3_queue, 3, 1))
data_process_ch4 = threading.Thread(target=data_process_thread,args=(ch4_queue, 4, 1))
event_thread = threading.Thread(target=timer_event_loop, args=(chip0_evt,chip1_evt,))
read_data_chip0.start()
# timer.start()
event_trigger.start()
read_data_chip1.start()
data_process_ch1.start()
data_process_ch2.start()
data_process_ch3.start()
data_process_ch4.start()
event_thread.start()
# wait_and_timer.start()
# while True:
# input("Enter to trigger the event: ")
# exit():
# e.set()
# time.sleep(600

6
install.sh~
View File

@ -1,6 +0,0 @@
#!/bin/bash
sudo sed -i "s/appName/$1/g" /usr/local/sdt/app/$1/AWX_collector.service
sudo cp /usr/local/sdt/app/$1/AWX_collector.service /etc/systemd/system/$1.service
sudo systemctl start $1
sudo systemctl enable $1