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adds Sails datalogger

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This commit is contained in:
Patrick McDonagh
2016-06-06 14:48:05 -05:00
parent a871da9c61
commit 061189de4e
1 changed files with 371 additions and 0 deletions
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dataLogger.py Normal file
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#!/usr/bin/env python
import time
from pycomm.ab_comm.clx import Driver as ClxDriver
from tag.tag import Tag
from tag.alarm import AnalogAlarm
from tag.alarm import bitAlarm
import traceback
import json
import requests
# DEFAULTS
web_address = "http://localhost:3000"
scan_rate = 30 # seconds
save_all = "test" # use True, False, or any string
plc_handshake_tags = {}
last_handshake_time = 0
# GLOBAL VARIABLES
device_types = {}
devices = []
main_plc = {}
# ---------- MAP FUNCTIONS ---------- #
maps = {
'modeMap': {
0: "Error",
1: "Auto",
2: "POC",
3: "Timer",
4: "Manual",
5: "DH PID"
},
'card_type_map': {
0: "Normal",
1: "Shutdown",
2: "Alarm",
3: "Startup",
4: "Low Fillage"
},
'statusMap': {
0: 'Stopped',
1: 'Running',
2: 'Pumped Off',
3: 'Faulted',
4: 'Starting',
5: 'Recovering',
100: 'Read Error',
1000: 'PLC Error',
9999: 'No Response'
},
'conditionMap': {
20: "Low",
21: "High",
24: "LoLo",
25: "HiHi",
32: "Input Failure",
34: "Configuration Error",
16: "Failure to Stop",
17: "Failure to Start",
18: "Drive Fault"
}
}
# ---------- TAGS ---------- #
stroke_tags = {} # Tags stored for every single stroke
history_tags = {} # Tags stored on value change or age
gaugeoff_tags = {} # Tags stored at gauge off
welltest_tags = {} # Tags stored at well test submit
bit_tags = {}
safety_tags = {}
custom_tags = {}
class Status(Tag):
def sendToDB(self):
post_data = {'status': self.value}
r = requests.post('{}/run_status'.format(web_address), data=post_data)
resp = json.loads(r.text)
print("Stored {} for {} at {}".format(resp['val'], self.name, resp['createdAt']))
self.last_send_time = time.time()
def getDeviceTypes():
global web_address
device_types = {}
try:
get_device_type_request = requests.get('{}/device_type'.format(web_address))
device_types_json = json.loads(get_device_type_request.text)
for t in device_types_json:
device_types[t['id']] = t['dType']
return device_types
except Exception, e:
print("Error getting tags: {}".format(e))
return False
def readConfig():
global web_address, scan_rate, save_all
try:
sr_req_data = 'where={"parameter": "scan_rate"}'
sr_req = requests.get('{}/config?{}'.format(web_address, sr_req_data))
sr_try = json.loads(sr_req.text)
if len(sr_try) > 0:
scan_rate = int(sr_try[0]['val'])
except Exception, e:
print("Error getting scan rate: {}".format(e))
print("I'll just use {} seconds as the scan rate...".format(scan_rate))
try:
sa_req_data = {"where": {"parameter": "save_all"}}
sa_req = requests.get('{}/config'.format(web_address), params=sa_req_data)
sa_try = json.loads(sa_req.text)
if len(sa_try) > 0:
if sa_try[0]['val'].lower() == "true":
save_all = True
elif sa_try[0]['val'].lower() == "false":
save_all = False
except Exception, e:
print("Error getting save-all: {}".format(e))
print("I'll just use {} as the save-all parameter...".format(save_all))
return True
def readTag(addr, tag):
c = ClxDriver()
if c.open(addr):
try:
v = c.read_tag(tag)
return v
except Exception:
print("ERROR RETRIEVING TAG: {}".format(tag))
c.close()
traceback.print_exc()
c.close()
def readArray(addr, arr, length):
c = ClxDriver()
if c.open(addr):
try:
v = c.read_array(arr, length)
return map(lambda x: x[1], v)
except Exception:
print("ERROR RETRIEVING ARRAY: {}".format(arr))
err = c.get_status()
c.close()
print err
traceback.print_exc()
c.close()
def setupTags():
global device_types, web_address, stroke_tags, gaugeoff_tags, history_tags, welltest_tags, custom_tags
try:
# Get tags stored in database
get_tag_request = requests.get('{}/tag'.format(web_address))
tags = json.loads(get_tag_request.text)
for t in tags:
if t['tag_class']['class_type'] == 'stroke':
stroke_tags[t['name']] = Tag(t['name'], t['tag'], t['id'], t['data_type'], t['change_threshold'], t['guarantee_sec'], mapFn=t['map_function'], ip_address=t['deviceID']['address'], device_type=device_types[t['deviceID']['device_type']])
elif t['tag_class']['class_type'] == 'history':
history_tags[t['name']] = Tag(t['name'], t['tag'], t['id'], t['data_type'], t['change_threshold'], t['guarantee_sec'], mapFn=t['map_function'], ip_address=t['deviceID']['address'], device_type=device_types[t['deviceID']['device_type']])
elif t['tag_class']['class_type'] == 'gaugeoff':
gaugeoff_tags[t['name']] = Tag(t['name'], t['tag'], t['id'], t['data_type'], t['change_threshold'], t['guarantee_sec'], mapFn=t['map_function'], ip_address=t['deviceID']['address'], device_type=device_types[t['deviceID']['device_type']])
elif t['tag_class']['class_type'] == 'welltest':
welltest_tags[t['name']] = Tag(t['name'], t['tag'], t['id'], t['data_type'], t['change_threshold'], t['guarantee_sec'], mapFn=t['map_function'], ip_address=t['deviceID']['address'], device_type=device_types[t['deviceID']['device_type']])
elif t['tag_class']['class_type'] == 'custom':
custom_tags[t['name']] = Tag(t['name'], t['tag'], t['id'], t['data_type'], t['change_threshold'], t['guarantee_sec'], mapFn=t['map_function'], ip_address=t['deviceID']['address'], device_type=device_types[t['deviceID']['device_type']])
get_event_request = requests.get('{}/event_config'.format(web_address))
events = json.loads(get_event_request.text)
for e in events:
if e['event_class']['event_class'] == 'analog':
safety_tags[e['name']] = AnalogAlarm(e['name'], e['tag'], e['id'], ip_address=e['deviceID']['address'], device_type=device_types[e['deviceID']['device_type']])
elif e['event_class']['event_class'] == 'bit':
bit_tags[e['name']] = bitAlarm(e['name'], e['tag'], e['event_condition'], e['id'], ip_address=e['deviceID']['address'], device_type=device_types[e['deviceID']['device_type']])
return True
except Exception, e:
print("Error getting tags: {}".format(e))
return False
def getMainPLC():
get_plc_req_data = {'where': {'id': 0}}
get_plc_request = requests.get('{}/device'.format(web_address), data=get_plc_req_data)
return json.loads(get_plc_request.text)
def readPoints():
global main_plc
num_points = readTag(main_plc['address'], "Card_Past[1].Num_Points")[0]
surf_pos = readArray(main_plc['address'], "Card_Past[1].Surface_Position", num_points + 1)[1:]
surf_pos.append(surf_pos[0])
surf_lod = readArray(main_plc['address'], "Card_Past[1].Surface_Load", num_points + 1)[1:]
surf_lod.append(surf_lod[0])
down_pos = readArray(main_plc['address'], "Card_Past[1].Downhole_Position", num_points + 1)[1:]
down_pos.append(down_pos[0])
down_lod = readArray(main_plc['address'], "Card_Past[1].Downhole_Load", num_points + 1)[1:]
down_lod.append(down_lod[0])
return([surf_pos, surf_lod, down_pos, down_lod])
def evalTapers():
return True
# TODO: Read taper data
# global main_plc
# ts = time.time()
# numTapers = int(readTag(main_plc['address'], 'Card_Current.Params.Num_Tapers')[0])
# for t in range(1, numTapers + 1):
# taper_length = readTag(main_plc['address'], 'Taper.Taper[{}].Setup.Length'.format(t))[0]
# taper_diameter = readTag(main_plc['address'], 'Taper.Taper[{}].Setup.Diameter'.format(t))[0]
# taper_material = readTag(main_plc['address'], 'Taper.Taper[{}].Setup.Material'.format(t))[0]
# if (taper_material == 1):
# taper_material = "Steel"
# elif (taper_material == 2):
# taper_material = "Fiberglass"
#
# tStr = "{{'taper':{}, 'length': {}, 'diameter': {}, 'material':'{}'}}".format(t, taper_length, taper_diameter, taper_material)
# tQuery = 'INSERT INTO well_config (tstamp, type, val) VALUES ({}, "taper", "{}")'.format(ts, tStr)
# print tQuery
# con.connect()
# cur = con.cursor()
# cur.execute(tQuery)
# con.commit()
#
# pump_diameter = readTag(main_plc['address'], 'UnitConfig.Pump_Diameter')[0]
# cfgQuery = "INSERT INTO well_config (tstamp, type, val) VALUES ({}, 'pump_diameter', '{}')".format(ts, pump_diameter)
# con.connect()
# cur = con.cursor()
# cur.execute(cfgQuery)
# con.commit()
# print "TAPER DATA READ!"
# return True
def main():
global main_plc
readConfig()
if setupTags():
pass
else:
main()
status = Status('run_status', 'Pump.Run_Status', 0, 'STRING', 0, 3600, mapFn=maps['statusMap'], ip_address=main_plc['address'], device_type=device_types[main_plc['device_type']])
read_tapers = False
already_gauged_off = False
already_entered_well_test = False
last_stroke = 0
last_status = ""
statusChanged = False
while True:
try:
current_status = status.read("test")
statusChanged = not (current_status == last_status)
if statusChanged:
last_status = current_status
#############
# CARD DATA #
#############
stroke_tags['card_id'].read('test')
if not (last_stroke == stroke_tags['card_id'].value):
sData = {}
last_stroke = stroke_tags['card_id'].value
for t in stroke_tags:
if not t == "card_id":
stroke_tags[t].read(True)
[sData['Surface_Position'], sData['Surface_Load'], sData['Downhole_Position'], sData['Downhole_Load']] = readPoints()
sData["card_type"] = stroke_tags['card_type'].value
sData["card_id"] = stroke_tags['card_id'].value
sData['sp_string'] = ', '.join(map(str, sData['Surface_Position']))
sData['sl_string'] = ', '.join(map(str, sData['Surface_Load']))
sData['dp_string'] = ', '.join(map(str, sData['Downhole_Position']))
sData['dl_string'] = ', '.join(map(str, sData['Downhole_Load']))
card_ins_req_data = {
'card_id': sData['card_id'],
'card_type': sData['card_type'],
'surface_position': sData['sp_string'],
'surface_load': sData['sl_string'],
'downhole_position': sData['dp_string'],
'downhole_load': sData['dl_string']
}
r = requests.post('{}/card'.format(web_address), data=card_ins_req_data)
resp = json.loads(r.text)
print "CARD NUMBER {} READ AT {}!".format(resp["card_id"], resp['createdAt'])
###################
# HISTORICAL DATA #
###################
for hist in history_tags:
h = history_tags[hist]
h.read("test")
for cust in custom_tags:
t = custom_tags[cust]
t.read("test")
##############
# TAPER DATA #
##############
update_taper = readTag(main_plc['address'], "Write_Tapers")[0] > 0
if (update_taper == 0):
if read_tapers:
read_tapers = False
print "Update Tapers = False"
if (update_taper and (not read_tapers)):
print "reading taper file"
read_tapers = evalTapers()
##################
# GAUGE OFF DATA #
##################
gauge_off = readTag(main_plc['address'], "Gauge_Off_Command")[0]
if (gauge_off == 0):
if already_gauged_off:
already_gauged_off = False
print "Already gauged off... Setting gauge_off to False"
if (gauge_off and (not already_gauged_off)):
print "Gauging off..."
for goff in gaugeoff_tags:
g = gaugeoff_tags[goff]
g.read(True)
already_gauged_off = True
print "Gauged off!"
##################
# WELL TEST DATA #
##################
well_test_entered = readTag(main_plc['address'], "Well_Test.Test_Submit")[0] > 0
if (well_test_entered == 0):
if already_entered_well_test:
already_entered_well_test = False
print "Already entered well Test... Setting well_test_entered to False"
if (well_test_entered and (not already_entered_well_test)):
for wtest in welltest_tags:
w = welltest_tags[wtest]
w.read(True)
already_entered_well_test = True
print "Well Test Stored!"
###################
# ALARMS & EVENTS #
###################
for t in safety_tags:
safety_tags[t].checkStatus(stroke_tags['card_id'].value)
for b in bit_tags:
bit_tags[b].checkStatus(stroke_tags['card_id'].value)
time.sleep(.20)
except Exception, e:
print("Error during loop: {}".format(e))
traceback.print_exc()
if __name__ == '__main__':
main()