1729752831421.khkim
/
aquarack-sensor-collector
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases 13 Wiki Activity

Compare commits

base: 1729752831421.khkim:v1.0.8
Branches Tags
1729752831421.khkim:main
1729752831421.khkim:v2.0.4
1729752831421.khkim:v2.0.3
1729752831421.khkim:v2.0.2
1729752831421.khkim:v2.0.1
1729752831421.khkim:v2.0.0
1729752831421.khkim:v1.0.9
1729752831421.khkim:v1.0.8
1729752831421.khkim:v1.0.6
1729752831421.khkim:v1.0.5
1729752831421.khkim:v1.0.4
1729752831421.khkim:v1.0.3
1729752831421.khkim:v1.0.2
1729752831421.khkim:v1.0.1
..
compare: 1729752831421.khkim:main
Branches Tags
1729752831421.khkim:main
1729752831421.khkim:v2.0.4
1729752831421.khkim:v2.0.3
1729752831421.khkim:v2.0.2
1729752831421.khkim:v2.0.1
1729752831421.khkim:v2.0.0
1729752831421.khkim:v1.0.9
1729752831421.khkim:v1.0.8
1729752831421.khkim:v1.0.6
1729752831421.khkim:v1.0.5
1729752831421.khkim:v1.0.4
1729752831421.khkim:v1.0.3
1729752831421.khkim:v1.0.2
1729752831421.khkim:v1.0.1

6 Commits
v1.0.8 ... main

Author SHA1 Message Date
kh.kim 310f0b507d Commit message 2025-04-15 15:11:57 +09:00
kh.kim 5eff7bb7d3 Commit message 2025-04-04 13:59:00 +09:00
kh.kim 9722b2b8d0 Commit message 2025-04-04 13:36:26 +09:00
kh.kim bbc2f5e6cc Commit message 2025-04-04 11:17:12 +09:00
kh.kim f434c8e448 Commit message 2025-04-03 09:37:35 +09:00
kh.kim 92dd92016a Commit message 2025-02-04 15:28:52 +09:00
5 changed files with 809 additions and 165 deletions
Show Stats Expand all files Collapse all files

198
config.json
View File

@ -1,24 +1,182 @@
{
"get_data_interval": 10,
"set_zero_temperature": "n",
"ref_zero_point": {
"oilInFlowRate": 6143,
"oilOutFlowRate": 5998,
"waterInFlowRate": 5778,
"waterOutFlowRate": 5758
"status": {
"cmd": [
1,
"y"
]
},
"temperature_point": {
"ch_1": ["n", "test_ch_1"],
"ch_2": ["n", "ch_2_name"],
"ch_3": ["n", "ch_3_name"],
"ch_4": ["n", "ch_4_name"],
"ch_5": ["n", "ch_5_name"],
"ch_6": ["n", "ch_6_name"],
"ch_7": ["n", "ch_7_name"],
"ch_8": ["n", "ch_8_name"],
"ch_9": ["n", "ch_2_name"],
"ch_10": ["n", "ch_10_name"],
"ch_11": ["n", "ch_11_name"],
"ch_12": ["n", "ch_12_name"]
"ref_zero_point": {
"oilInFlowRate": 4005,
"waterInFlowRate": 4000
},
"cdu_digital_list": {
"valve1OpenStatus": [
1,
"y"
],
"valve1CloseStatus": [
2,
"y"
],
"valve2OpenStatus": [
3,
"y"
],
"valve2CloseStatus": [
4,
"y"
],
"doorOpenSensor": [
5,
"y"
]
},
"cdu_analog_list": {
"oilInFlowRate": [
5,
"y"
],
"oilInTemp": [
6,
"y"
],
"waterInFlowRate": [
1,
"y"
],
"waterInTemp": [
2,
"y"
],
"oilOutTemp": [
8,
"y"
],
"waterOutTemp": [
4,
"y"
],
"oilInPress": [
7,
"y"
],
"waterInPress": [
3,
"y"
]
},
"cdu_sensor_list": {
"cduHumi": [
1,
"y"
],
"cduTemp": [
2,
"y"
]
},
"cdu_device_list": {
"pump1StatusFrequency": [
1,
"y"
],
"pump1StatusErrorCode": [
2,
"y"
],
"pump1StatusRunning": [
3,
"y"
],
"pump2StatusFrequency": [
4,
"y"
],
"pump2StatusErrorCode": [
5,
"y"
],
"pump2StatusRunning": [
6,
"y"
]
},
"cdu_pdu_list": {
"pduCDU1": [
1,
"y"
],
"pduCDU2": [
2,
"y"
]
},
"tank_device_list": {
"tankLeftTopFrontTemp": [
1,
"y"
],
"tankLeftBotFrontTemp": [
2,
"y"
],
"tankLeftTopBackTemp": [
3,
"y"
],
"tankLeftBotBackTemp": [
4,
"y"
],
"tankRightTopFrontTemp": [
5,
"y"
],
"tankRightBotFrontTemp": [
6,
"y"
],
"tankRightTopBackTemp": [
7,
"y"
],
"tankRightBotBackTemp": [
8,
"y"
],
"tankMidTopFrontTemp": [
9,
"y"
],
"tankMidBotFrontTemp": [
10,
"y"
],
"tankMidTopBackTemp": [
11,
"y"
],
"tankMidBotBackTemp": [
12,
"y"
]
},
"tank_pdu_list": {
"pduTank1": [
1,
"n"
],
"pduTank2": [
2,
"n"
],
"pduTank3": [
3,
"n"
],
"pduTank4": [
4,
"n"
]
}
}

18
control.json Normal file
View File

@ -0,0 +1,18 @@
{
"get_data_interval": 2,
"set_zero_flow": "n",
"valve1": "Off",
"valve2": "Off",
"inverter": {
"inverter1": "Off",
"inverter1Frq": 50,
"inverter1Acc": 5.0,
"inverter1Dec": 10.0,
"inverter2": "Off",
"inverter2Frq": 40,
"inverter2Acc": 5.0,
"inverter2Dec": 10.0
},
"mode": "auto",
"cmd": "none"
}

2
framework.yaml
View File

@ -8,5 +8,5 @@ spec:
package: requirements.txt # 설치할 Python 패키지 정보 파일입니다.(기본 값은 requirement.txt 입니다.)
runtime: python3.9
stackbase:
tagName: v1.0.8 # Stackbase(gitea)에 릴리즈 태그명 입니다.
tagName: v2.0.4 # Stackbase(gitea)에 릴리즈 태그명 입니다.
repoName: aquarack-sensor-collector # Satackbase(gitea)에 저장될 저장소 이릅니다.

736
main.py
View File

@ -1,158 +1,626 @@
import sdtcloudpubsub
import time
import uuid
from pymodbus.client import ModbusSerialClient as ModbusClient
import os, json
from collections import Counter
import os, json, sys, time
import threading, struct
import serial
sdtcloud = sdtcloudpubsub.sdtcloudpubsub()
sdtcloud.setClient(f"device-app-{uuid.uuid1()}") # parameter is client ID(string)
def get_point_temperature(serial_obj):
global t_col
# CWT-TM-320s
res_dict = {}
points = []
ch_list = [f'ch_{num}' for num in range(1, 13)]
def get_inverter_errorcode(data):
error_code = ['Reserved', 'OVT', 'EXT-A', 'ETX(BX)', 'COL', 'GFT', 'OHT', 'ETH', 'OLT', 'Reserved', 'EXT-B', 'EEP', 'FAN', 'POT', 'IOLT', 'LVT']
result = [error_code[i] for i in range(16) if (data & (0x8000 >> i)) and error_code[i] != 'Reserved']
return ','.join(result)
with open('config.json', 'r') as f:
info = json.load(f)
def get_modbus(evt, serial_obj):
# global isThread, g_zero_point, pub_dict, a_col, d_col, t_col, p_col, S_col, s_col, path
global isThread, g_zero_point, pub_dict, a_col, d_col, t_col, p_col, S_col, s_col
t_col = []
for key, value in info['temperature_point'].items():
if value[0] == 'y':
t_col.append(value[1])
points.append(ch_list.index(key) + 1)
res_dict[value[1]] = 999.99
cmd_status = 'none'
cmd_sub_status = 'none'
inverter_status = [0] * 6
valve_status = [False] * 8
pre_dict = {}
init_flag = 0
try:
res = serial_obj.read_holding_registers(address=32, count=32, slave=2)
while isThread:
evt.wait()
evt.clear()
for i, j in zip(res_dict.keys(), points):
res_dict[i] = res.registers[j - 1] * 0.1
except Exception as e:
print(f'error: {e}')
pass
# with open(os.path.join(path, 'control.json'), 'r') as f:
with open('./control.json', 'r') as f:
control_data = json.load(f)
return res_dict
try:
res = serial_obj.read_holding_registers(address=0, count=2, slave=20)
# print(f'humidity: {res.registers[0]/10}% / temperature: {res.registers[1]/10}°C')
for i, j in enumerate(s_col):
pub_dict[j] = res.registers[i] / 10
except Exception as e:
print(f'Humidity/Temperature Senseor Error: {e}')
def get_keyence_devices(serial_obj):
global g_zero_point, k_col
# CWT-MB307D
res_dict = {
"oilInFlowRate": 999.99,
"oilInTemperature": 999.99,
"oilOutFlowRate": 999.99,
"oilOutTemperature": 999.99,
# CWT-TM-320s
try:
tank_temperature = serial_obj.read_holding_registers(address=32, count=32, slave=2)
# print(f'tank Temp: {tank_temperature.registers}')
for i, j in enumerate(t_col):
pub_dict[j] = tank_temperature.registers[i] * 0.1
except Exception as e:
print(f'Tank Sensor Error: {e}')
pass
"waterInFlowRate": 999.99,
"waterInTemperature": 999.99,
"waterOutFlowRate": 999.99,
"waterOutTemperature": 999.99
# CTT-MB307D
try:
cdu_analog = serial_obj.read_holding_registers(address=50, count=8, slave=5)
cdu_digital = serial_obj.read_discrete_inputs(address=0, count=8, slave=5)
# print(f'cdu_analog:{cdu_analog.registers}')
# print(f'cdu_digital:{cdu_digital.bits}')
if control_data['set_zero_flow'] == 'y':
# with open(os.path.join(path, 'config.json'), 'r') as f:
with open('./config.json', 'r') as f:
config_data = json.load(f)
for i, j in enumerate(a_col):
if j == 'oilInFlowRate' or j == 'waterInFlowRate':
config_data['ref_zero_point'][j] = cdu_analog.registers[i]
control_data['set_zero_flow'] = 'n'
# with open(os.path.join(path, 'config.json'), 'w') as f:
with open('./config.json', 'w') as f:
json.dump(config_data, f, indent=4)
g_zero_point[0] = config_data['ref_zero_point']['oilInFlowRate']
g_zero_point[1] = config_data['ref_zero_point']['waterInFlowRate']
for i, j in enumerate(a_col):
if j == 'oilInFlowRate':
pub_dict[j] = ((cdu_analog.registers[i] - g_zero_point[0]) / 16000) * 300
elif j == 'waterInFlowRate':
pub_dict[j] = ((cdu_analog.registers[i] - g_zero_point[1]) / 16000) * 300
elif j == 'oilInTemp' or j == 'waterInTemp':
pub_dict[j] = ((cdu_analog.registers[i] - 4000) / 16000) * 100
elif j == 'oilOutTemp' or j == 'waterOutTemp':
scale = ((cdu_analog.registers[i] - 4000) / 16000) # need to edit for temperature sensor
pub_dict[j] = (scale * 100) - 20
elif j == 'oilInPress' or j == 'waterInPress':
pub_dict[j] = ((cdu_analog.registers[i] - 4000) / 16000) # need to edit for pressure sensor
for i, j in enumerate(d_col):
pub_dict[j] = cdu_digital.bits[i]
# print(pub_dict)
except Exception as e:
print(f'CDU Divecs Error: {e}')
pass
try:
# M100
res = client1.read_holding_registers(address=9, count=6, slave=10)
inverter_status[0] = res.registers[0] / 100 # frequncy
inverter_status[1] = get_inverter_errorcode(res.registers[5]) # errorcode
run_status = res.registers[4] # running status
if run_status & 0x01:
inverter_status[2] = 'stop'
elif run_status & 0x02:
inverter_status[2] = 'running'
elif run_status & 0x08:
inverter_status[2] = 'error'
res = client1.read_holding_registers(address=9, count=6, slave=11)
inverter_status[3] = res.registers[0] / 100 # frequncy
inverter_status[4] = get_inverter_errorcode(res.registers[5]) # errorcode
run_status = res.registers[4] # running status
if run_status & 0x01:
inverter_status[5] = 'stop'
elif run_status & 0x02:
inverter_status[5] = 'running'
elif run_status & 0x08:
inverter_status[5] = 'error'
for i, j in enumerate(p_col):
pub_dict[j] = inverter_status[i]
except Exception as e:
print(f'Inverter Status Error: {e}')
try:
if control_data['mode'] == 'auto':
if control_data['cmd'] == 'init':
if cmd_sub_status != 'workingInit':
valve_status[0], valve_status[1] = True, True
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
client1.write_registers(address=5, values=[193], slave=10)
client1.write_registers(address=5, values=[193], slave=11)
cmd_status = 'init'
cmd_sub_status = 'workingInit'
pub_dict['cmd'] = 'workingInit'
elif cmd_sub_status == 'workingInit':
if (pub_dict['valve1OpenStatus'] == True
and pub_dict['valve2OpenStatus'] == True
and (pub_dict['pump1StatusRunning'] == 'stop')
and (pub_dict['pump2StatusRunning'] == 'stop')):
cmd_status = 'none'
cmd_sub_status = 'doneInit'
pub_dict['cmd'] = 'doneInit'
control_data['cmd'] = 'none'
init_flag = 1
elif control_data['cmd'] == 'emer': # 어느 조건에서든 입력되면 바로 수행
if cmd_sub_status != 'workingEmer':
valve_status[0], valve_status[1] = False, False
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
client1.write_registers(address=5, values=[208], slave=10)
client1.write_registers(address=5, values=[208], slave=11)
cmd_status = 'emer'
cmd_sub_status = 'workingEmer'
pub_dict['cmd'] = 'emer'
init_flag = 0
elif cmd_sub_status == 'workingEmer':
if (pub_dict['valve1CloseStatus'] == True
and pub_dict['valve2CloseStatus'] == True
and (pub_dict['pump1StatusRunning'] == 'stop')
and (pub_dict['pump2StatusRunning'] == 'stop')):
cmd_sub_status = 'none'
control_data['cmd'] = 'none'
elif control_data['cmd'] == 'stop' or cmd_status == 'stop':
if init_flag == 0:
continue
if cmd_status == 'none' or cmd_status == 'stop' or cmd_status == 'act1' or cmd_status == 'act2':
client1.write_registers(address=5, values=[193], slave=10)
client1.write_registers(address=5, values=[193], slave=11)
if not ((pub_dict['pump1StatusRunning'] == 'stop')
and (pub_dict['pump2StatusRunning'] == 'stop')):
cmd_status = 'stop'
cmd_sub_status = 'stopping'
pub_dict['cmd'] = 'stopping'
elif ((pub_dict['pump1StatusRunning'] == 'stop')
and (pub_dict['pump2StatusRunning'] == 'stop')):
cmd_status = 'none'
cmd_sub_status = 'stop'
pub_dict['cmd'] = 'stop'
control_data['cmd'] = 'none'
elif control_data['cmd'] == 'act1':
if init_flag == 0:
continue
if cmd_status == 'none' or cmd_status == 'act1':
if cmd_sub_status == 'doneInit' or cmd_sub_status == 'stop':
cmd_status = 'act1'
cmd_sub_status = 'closeValve2'
pub_dict['cmd'] = 'startAct1'
elif cmd_sub_status == 'workingPump2':
cmd_status = 'act1'
cmd_sub_status = 'stopPump2'
pub_dict['cmd'] = 'startAct1'
elif cmd_sub_status == 'stopPump2':
if not (pub_dict['pump2StatusRunning'] == 'stop'):
client1.write_registers(address=5, values=[193], slave=11)
cmd_sub_status = 'stoppingPump2'
else:
cmd_sub_status = 'closeValve2'
elif cmd_sub_status == 'stoppingPump2':
if pub_dict['pump2StatusRunning'] == 'stop':
cmd_sub_status = 'closeValve2'
elif cmd_sub_status == 'closeValve2':
if pub_dict['valve2OpenStatus'] == True:
valve_status[1] = False
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
cmd_sub_status = 'closingValve2'
elif pub_dict['valve2CloseStatus'] == True:
cmd_sub_status = 'openValve1'
elif cmd_sub_status == 'closingValve2':
if pub_dict['valve2CloseStatus'] == True:
cmd_sub_status = 'openValve1'
elif cmd_sub_status == 'openValve1':
if pub_dict['valve1CloseStatus'] == True:
valve_status[0] = True
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
cmd_sub_status = 'openningValve1'
elif pub_dict['valve1OpenStatus'] == True:
cmd_sub_status = 'startPump1'
elif cmd_sub_status == 'openningValve1':
if pub_dict['valve1OpenStatus'] == True:
cmd_sub_status = 'startPump1'
elif cmd_sub_status == 'startPump1':
frq = int(control_data['inverter']['inverter1Frq'] * 100)
acc = int(control_data['inverter']['inverter1Acc'] * 10)
dec = int(control_data['inverter']['inverter1Dec'] * 10)
client1.write_registers(address=4, values=[frq, 194, acc, dec], slave=10)
cmd_sub_status = 'startingPump1'
elif cmd_sub_status == 'startingPump1':
if pub_dict['pump1StatusRunning'] == 'running':
cmd_status = 'none'
cmd_sub_status = 'workingPump1'
pub_dict['cmd'] = 'workingAct1'
control_data['cmd'] = 'none'
else:
client1.write_registers(address=5, values=[193], slave=10)
client1.write_registers(address=5, values=[193], slave=11)
pub_dict['cmd'] = 'errorAct1'
cmd_status = 'errorAct1'
cmd_sub_status = 'errorPump1'
init_flag = 0
elif control_data['cmd'] == 'act2':
if init_flag == 0:
continue
if cmd_status == 'none' or cmd_status == 'act2':
if cmd_sub_status == 'doneInit' or cmd_sub_status == 'stop':
cmd_status = 'act2'
cmd_sub_status = 'closeValve1'
pub_dict['cmd'] = 'startAct2'
elif cmd_sub_status == 'workingPump1':
cmd_status = 'act2'
cmd_sub_status = 'stopPump1'
pub_dict['cmd'] = 'startAct2'
elif cmd_sub_status == 'stopPump1':
if not (pub_dict['pump1StatusRunning'] == 'stop'):
client1.write_registers(address=5, values=[193], slave=10)
cmd_sub_status = 'stoppingPump1'
else:
cmd_sub_status = 'closeValve1'
elif cmd_sub_status == 'stoppingPump1':
if pub_dict['pump1StatusRunning'] == 'stop':
cmd_sub_status = 'closeValve1'
elif cmd_sub_status == 'closeValve1':
if pub_dict['valve1OpenStatus'] == True:
valve_status[0] = False
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
cmd_sub_status = 'closingValve1'
elif pub_dict['valve1CloseStatus'] == True:
cmd_sub_status = 'openValve2'
elif cmd_sub_status == 'closingValve1':
if pub_dict['valve1CloseStatus'] == True:
cmd_sub_status = 'openValve2'
elif cmd_sub_status == 'openValve2':
if pub_dict['valve2CloseStatus'] == True:
valve_status[1] = True
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
cmd_sub_status = 'openningValve2'
elif pub_dict['valve2OpenStatus'] == True:
cmd_sub_status = 'startPump2'
elif cmd_sub_status == 'openningValve2':
if pub_dict['valve2OpenStatus'] == True:
cmd_sub_status = 'startPump2'
elif cmd_sub_status == 'startPump2':
frq = int(control_data['inverter']['inverter2Frq'] * 100)
acc = int(control_data['inverter']['inverter2Acc'] * 10)
dec = int(control_data['inverter']['inverter2Dec'] * 10)
client1.write_registers(address=4, values=[frq, 194, acc, dec], slave=11)
cmd_sub_status = 'startingPump2'
elif cmd_sub_status == 'startingPump2':
if pub_dict['pump2StatusRunning'] == 'running':
cmd_status = 'none'
cmd_sub_status = 'workingPump2'
pub_dict['cmd'] = 'workingAct2'
control_data['cmd'] = 'none'
else:
client1.write_registers(address=5, values=[193], slave=10)
client1.write_registers(address=5, values=[193], slave=11)
pub_dict['cmd'] = 'errorAct2'
cmd_status = 'errorAct2'
cmd_sub_status = 'errorPump2'
init_flag = 0
else:
if isinstance(pub_dict['cmd'], (int, float)):
pub_dict['cmd'] = 'none'
elif control_data['mode'] == 'manual':
if control_data != pre_dict:
pub_dict['cmd'] = 'manual'
if control_data['inverter']['inverter1'] == 'On' and cmd_status[0] == 0:
frq = int(control_data['inverter']['inverter1Frq'] * 100)
acc = int(control_data['inverter']['inverter1Acc'] * 10)
dec = int(control_data['inverter']['inverter1Dec'] * 10)
client1.write_registers(address=4, values=[frq, 194, acc, dec], slave=10)
cmd_status[0] = 1
elif control_data['inverter']['inverter1'] == 'Off' and cmd_status[0] == 1:
client1.write_registers(address=5, values=[193], slave=10)
cmd_status[0] = 0
if control_data['inverter']['inverter2'] == 'On' and cmd_status[1] == 0:
frq = int(control_data['inverter']['inverter1Frq'] * 100)
acc = int(control_data['inverter']['inverter1Acc'] * 10)
dec = int(control_data['inverter']['inverter1Dec'] * 10)
client1.write_registers(address=4, values=[frq, 194, acc, dec], slave=10)
cmd_status[1] = 1
elif control_data['inverter']['inverter2'] == 'Off' and cmd_status[1] == 1:
client1.write_registers(address=5, values=[193], slave=10)
cmd_status[1] = 0
if control_data['valve1'] == 'On' and cmd_status[2] == 0:
valve_status[0] = True
cmd_status[2] = 1
elif control_data['valve1'] == 'Off' and cmd_status[2] == 1:
valve_status[0] = False
cmd_status[2] = 0
if control_data['valve2'] == 'On' and cmd_status[3] == 0:
valve_status[1] = True
cmd_status[3] = 1
elif control_data['valve2'] == 'Off' and cmd_status[3] == 1:
valve_status[1] = False
cmd_status[3] = 0
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
else:
pre_dict = control_data.copy()
elif control_data['mode'] == 'none':
valve_status[0], valve_status[1] = False, False
res = serial_obj.write_coils(address=0, values=valve_status, slave=5)
client1.write_registers(address=5, values=[193], slave=10)
client1.write_registers(address=5, values=[193], slave=11)
else:
pub_dict['cmd'] = 'none'
except Exception as e:
print(f'Device Setting Error: {e}')
if pre_dict != control_data:
# with open(os.path.join(path, 'control.json'), 'w') as f:
with open('./control.json', 'w') as f:
json.dump(control_data, f, indent=4)
pre_dict = control_data.copy()
def get_sensor(evt, serial_obj):
global isThread, pub_dict, s_col
while isThread:
evt.wait()
evt.clear()
try:
res = serial_obj.read_holding_registers(address=0, count=2, slave=20)
# print(f'humidity: {res.registers[0]/10}% / temperature: {res.registers[1]/10}°C')
for i, j in enumerate(s_col):
pub_dict[j] = res.registers[i] / 10
except Exception as e:
print(f'Error: {e}')
def get_pdu(evt, serial_obj):
global isThread, pub_dict, cp_col, tp_col
pdu_dict = {
'pduCDU1': '1E',
'pduCDU2': '1F',
'pduTank1': '28',
'pduTank2': '29',
'pduTank3': '2A',
'pduTank4': '2B'
}
points = [1, 2, 3, 4, 5, 6, 7, 8]
pdu_list = cp_col + tp_col
pdu_list = [col for col in pdu_list if col != 0]
# print(pdu_list)
try:
res = serial_obj.read_holding_registers(address=50, count=8, slave=5)
for i, j in enumerate(k_col):
if i % 2 == 0:
res_dict[j] = ((res.registers[i] - g_zero_point[i // 2]) / 16000) * 300
else:
res_dict[j] = ((res.registers[i] - 4000) / 16000) * 100
except Exception as e:
pass
return res_dict
def init_zero_detection(serial_obj, config_dict):
global g_zero_point, k_col
if config_dict['set_zero_temperature'] == 'y':
try:
res = serial_obj.read_holding_registers(address=50, count=8, slave=5)
for i, j in enumerate(k_col):
if not i % 2:
config_dict['ref_zero_point'][j] = res.registers[i]
config_dict['set_zero_temperature'] = 'n'
with open('./config.json', 'w') as f:
json.dump(config_dict, f, indent=4)
except:
return False
for idx, val in enumerate(k_col):
if not idx % 2:
g_zero_point[idx // 2] = config_dict['ref_zero_point'][val]
return True
def init_data_dict():
global k_col, t_col
# col = ["topLeftTemperature", "topRightTemperature", "bottomLeftTemperature", "bottomRightTemperature",
# "oilInFlowRate", "oilInTemperature", "oilOutFlowRate", "oilOutTemperature",
# "waterInFlowRate", "waterInTemperature", "waterOutFlowRate", "waterOutTemperature"]
col = k_col + t_col
return {key: 0.0 for key in col}
def runAction():
sum_data = init_data_dict()
# sum_data = {}
cnt, cnt_limit = 0, 0
while True:
with open('./config.json', 'r') as config:
config_data = json.load(config)
interval = int(config_data['get_data_interval'])
if interval <= 5:
cnt_limit = 1
elif interval <= 1800:
cnt_limit = 10
else:
cnt_limit = 100
init_zero_detection(client1, config_data)
start = int(time.time() * 1000)
pub_data = {
**get_point_temperature(client1), **get_keyence_devices(client1)
}
for key, value in pub_data.items():
try:
sum_data[key] += value
except:
sum_data[key] = value
end = int(time.time() * 1000)
diff = end - start
sleep_time = int(interval / cnt_limit) - (diff * 0.001)
cnt += 1
if cnt == cnt_limit:
snd_data = {key: value / cnt_limit for key, value in sum_data.items()}
sdtcloud.pubMessage(snd_data)
while isThread:
evt.wait()
evt.clear()
for pdu in pdu_list:
rcv_data = []
sum = 0
cnt = 0
sum_data = init_data_dict()
command_hex = f'FEFF{pdu_dict[pdu]}01010000'
# print(command_hex)
command_bytes = bytes.fromhex(command_hex)
time.sleep(sleep_time)
for x in command_bytes[2:]:
sum += x
sum = sum & 0xff
sum = struct.pack('>B', sum)
snd_bytes = command_bytes + b'\x00' + sum + b'\xfd'
# print(f'snd_bytes: {snd_bytes}')
serial_obj.write(snd_bytes)
while True:
res = serial_obj.read(1)
# print(res)
if res != b'':
rcv_data.append(res)
else:
cnt += 1
if cnt == 10:
break
if len(rcv_data) >= 2:
if not(rcv_data[0] == b'\xfc' and rcv_data[1] == b'\xff'):
rcv_data = []
break
elif rcv_data[:-1] == b'\xfd':
break
if len(rcv_data):
sum = 0
# print(f'rcv_data: {rcv_data}')
for x in rcv_data[2:-3]:
sum += int.from_bytes(x, byteorder='big')
sum = sum & 0xff
sum = struct.pack('>B', sum)
# print(f'sum: {sum}')
if rcv_data[-2] == sum:
byte_val = rcv_data[10:12]
int_val = int.from_bytes(byte_val[0] + byte_val[1], byteorder='big')
int_val /= 100
pub_dict[pdu] = int_val
else:
continue
def runAction(evt):
global isThread, pub_dict
cnt = 0
while isThread:
evt.wait()
evt.clear()
if cnt:
# print(pub_dict)
sdtcloud.pubMessage(pub_dict)
else:
cnt += 1
def timer_s0(evt):
global isThread
while isThread:
evt.set()
time.sleep(0.5)
def timer_s1(evt):
global isThread
while isThread:
evt.set()
time.sleep(0.5)
def timer_s2(evt, interval):
global isThread
while isThread:
evt.set()
time.sleep(interval)
if __name__ == "__main__":
password = 'Sdt2513!@'
os.system(f'echo "{password}" | sudo chmod 777 /dev/ttyS0')
port_name = '/dev/ttyS0'
client1 = ModbusClient(port=port_name, baudrate=19200, parity='N', stopbits=1, bytesize=8, timeout=0.25)
pw = 'Sdt2513!@'
os.system(f'echo {pw} | sudo -S chmod 777 /dev/ttyS0')
os.system(f'echo {pw} | sudo -S chmod 777 /dev/ttyS1')
port_name_1 = '/dev/ttyS0'
client1 = ModbusClient(port=port_name_1, baudrate=9600, parity='N', stopbits=1, bytesize=8, timeout=0.25)
port_name_2 = '/dev/ttyS1'
client2 = serial.Serial(port=port_name_2, baudrate=19200, parity='N', stopbits=1, bytesize=8, timeout=0.1)
client1.connect()
try:
client1.connect()
except:
sys.exit(0)
# path = '/home/sdtadmin/aquarack-sensor-collector'
# with open(os.path.join(path, 'config.json'), 'r') as config:
with open('./config.json', 'r') as config:
cfg_data = json.load(config)
g_zero_point = [cfg_data['ref_zero_point']['oilInFlowRate'], cfg_data['ref_zero_point']['waterInFlowRate']]
# with open(os.path.join(path, 'control.json'), 'r') as control:
with open('./control.json', 'r') as control:
ctl_data = json.load(control)
len_a_col = len(cfg_data['cdu_analog_list'])
len_t_col = len(cfg_data['tank_device_list'])
len_d_col = len(cfg_data['cdu_digital_list'])
len_s_col = len(cfg_data['cdu_sensor_list'])
len_p_col = len(cfg_data['cdu_device_list'])
len_S_col = len(cfg_data['status'])
len_cp_col = len(cfg_data['cdu_pdu_list'])
len_tp_col = len(cfg_data['tank_pdu_list'])
a_col = [0] * len_a_col
t_col = [0] * len_t_col
d_col = [0] * len_d_col
s_col = [0] * len_s_col
p_col = [0] * len_p_col
S_col = [0] * len_S_col
cp_col = [0] * len_cp_col
tp_col = [0] * len_tp_col
for key, value in cfg_data['cdu_analog_list'].items():
if value[1] == 'y':
a_col[value[0] - 1] = key
a_col = [col for col in a_col if col != 0]
for key, value in cfg_data['tank_device_list'].items():
if value[1] == 'y':
t_col[value[0] - 1] = key
t_col = [col for col in t_col if col != 0]
for key, value in cfg_data['cdu_digital_list'].items():
if value[1] == 'y':
d_col[value[0] - 1] = key
d_col = [col for col in d_col if col != 0]
for key, value in cfg_data['cdu_sensor_list'].items():
if value[1] == 'y':
s_col[value[0] - 1] = key
s_col = [col for col in s_col if col != 0]
for key, value in cfg_data['cdu_device_list'].items():
if value[1] == 'y':
p_col[value[0] - 1] = key
p_col = [col for col in p_col if col != 0]
for key, value in cfg_data['status'].items():
if value[1] == 'y':
S_col[value[0] - 1] = key
S_col = [col for col in S_col if col != 0]
for key, value in cfg_data['cdu_pdu_list'].items():
if value[1] == 'y':
cp_col[value[0] - 1] = key
cp_col = [col for col in cp_col if col != 0]
for key, value in cfg_data['tank_pdu_list'].items():
if value[1] == 'y':
tp_col[value[0] - 1] = key
tp_col = [col for col in tp_col if col != 0]
pub_dict = {key: 0.0 for key in (a_col+t_col+d_col+s_col+p_col+S_col+cp_col+tp_col)}
# print(f'a_col: {a_col}')
# print(f't_col: {t_col}')
# print(f'd_col: {d_col}')
# print(f's_col: {s_col}')
# print(f'p_col: {p_col}')
# print(f'S_col: {S_col}')
# runAction()
isThread = True
timer_evt_s0 = threading.Event()
timer_evt_s1 = threading.Event()
timer_evt_s2 = threading.Event()
timer_evt_s0.set()
timer_evt_s1.set()
timer_evt_s2.set()
thr_evt_s0 = threading.Thread(target=timer_s0, args=(timer_evt_s0,))
thr_evt_s1 = threading.Thread(target=timer_s1, args=(timer_evt_s1,))
thr_evt_s2 = threading.Thread(target=timer_s2, args=(timer_evt_s2, ctl_data['get_data_interval'],))
thr_evt_s0.start()
thr_evt_s1.start()
thr_evt_s2.start()
thr_modbus_rtu = threading.Thread(target=get_modbus, args=(timer_evt_s0, client1, ))
thr_modbus_rtu.start()
# thr_get_sensor = threading.Thread(target=get_sensor, args=(timer_evt_s1, client2,))
# thr_get_sensor.start()
thr_get_pdu = threading.Thread(target=get_pdu, args=(timer_evt_s1, client2, ))
thr_get_pdu.start()
thr_run = threading.Thread(target=runAction, args=(timer_evt_s2, ))
thr_run.start()
g_zero_point = [0] * 4
k_col = ["oilInFlowRate","oilInTemperature","oilOutFlowRate","oilOutTemperature",
"waterInFlowRate","waterInTemperature","waterOutFlowRate","waterOutTemperature"]
t_col = []
runAction()

2
requirements.txt
View File

@ -3,6 +3,6 @@ awsiotsdk
pyyaml
pymodbus
pyserial
yaml
#yaml
AWSIoTPythonSDK
#sdtcloudpubsub