def test_before_running(self):
before_running()
print(r.get('id_num'))
print(r.get('plc'))
print(r.get('group_upload'))
print(r.get('group_read'))
print(r.get('variable'))
def self_check():
"""
celery任务
定时自检
:return:
"""
logging.debug('自检')
current_time = int(time.time())
session = Session()
try:
# 获取站点配置信息
id_num = r.get('id_num')
# 获取上次检查时间并检查时间间隔,判断程序运行状态
check_time = r.get('check_time')
if check_time:
check_time = int(check_time)
# logging.debug('上次检查时间:{}'.format(datetime.datetime.fromtimestamp(check_time)))
if current_time - check_time > CHECK_DELAY:
check_time_err(id_num)
r.set('check_time', current_time)
# 检查与服务器通讯状态
con_time = r.get('con_time')
if con_time:
con_time = int(con_time)
# logging.debug('上次服务器通讯时间:{}'.format(datetime.datetime.fromtimestamp(con_time)))
if current_time - con_time > SERVER_TIMEOUT:
connect_server_err(id_num)
# 检查PLC通讯状态
plcs = r.get('plc')
if not plcs:
plc_models = session.query(YjPLCInfo)
plcs = plc_info(r, plc_models)
r.set('plc', plcs)
for plc in plcs:
plc_connect_time = int(plc['time'])
# logging.debug('PLC连接时间:{}'.format(datetime.datetime.fromtimestamp(plc_connect_time)))
# 超过一定时间的上传服务器
if current_time - plc_connect_time > PLC_TIMEOUT:
connect_plc_err(
id_num,
plc_id=plc['id'],
)
# 数据库写入,关闭连接
session.commit()
finally:
session.close()
def server_confirm(url):
"""
发送请求后,收到服务器回执的确认
:param url: 具体确认某个功能的地址
:return:
"""
id_num = r.get('id_num')
post_data = {'id_num': id_num}
post_data = json.dumps(post_data)
# print(post_data)
try:
rp = req_s.post(url,
data=post_data,
timeout=(CONNECT_TIMEOUT, REQUEST_TIMEOUT))
except RequestException as e:
logging.warning('确认请求发送失败: ' + str(e))
connect_server_err(id_num, str(url))
return False
else:
http_code = rp.status_code
if http_code == 200:
return True
else:
return False
def plc_write(variable_model, plc_cli, plc_model):
id_num = r.get('id_num')
# 获取变量读写类型
rw_type = variable_model.rw_type
value = variable_model.write_value
# 判断变量存在写操作
if rw_type == 2 or rw_type == 3 and value is not None:
# 获取写入变量值所需信息
data_type = variable_model.data_type
db = variable_model.db_num
area = variable_area(variable_model)
address = int(math.modf(variable_model.address)[1])
bool_index = round(math.modf(variable_model.address)[0] * 10)
size = variable_size(data_type)
# 获取当前字节
try:
result = plc_cli.read_area(
area=area,
dbnumber=db,
start=address,
size=size
)
except Snap7Exception as e:
logging.error('plc_read', str(e))
read_err(
id_num=id_num,
plc_id=plc_model.id,
plc_name=plc_model.plc_name,
area=area,
db_num=db,
address=address,
data_type=data_type
)
else:
# 将写入数据转为字节码
byte_value = write_value(
data_type,
result,
value,
bool_index=bool_index
)
# 数据写入
plc_cli.write_area(
area=area,
dbnumber=db,
start=address,
data=byte_value
)
def beats():
"""
celery任务
与服务器的心跳连接
:param :
:return:
"""
logging.debug('心跳连接')
current_time = int(time.time())
# 从数据库获取站点信息
id_num = ID_NUM
# 获取上次心跳时间
con_time = r.get('con_time')
# 获取心跳时上传的数据
data = beats_data(id_num, con_time, current_time)
# print(data)
data = encryption_client(data)
# 发送心跳包
try:
rv = req_s.post(BEAT_URL,
data=data,
timeout=(CONNECT_TIMEOUT, REQUEST_TIMEOUT))
# 连接服务器失败
except (RequestException, MaxRetriesExceededError) as e:
logging.warning('心跳连接错误:' + str(e))
connect_server_err(id_num)
# 连接成功
else:
# data = decryption_client(rv.json())
# print(rv.status_code)
data = rv.json()
# print(data)
# 更新服务器通讯时间
r.set('con_time', current_time)
# 配置有更新
if data.get('is_modify') == 1:
logging.info('发现配置有更新,准备获取配置')
get_config()
before_running()
if data.get('command'):
remote_command(data.get('command'))
def check_upload():
"""
检查变量组上传时间,将满足条件的变量组数据打包上传
:return:
"""
# upload_time1 = time.time()
logging.debug('检查变量组上传时间')
# print('上传')
current_time = int(time.time())
# 在redis中查询需要上传的变量组id
group_upload_data = r.get('group_upload')
# print(group_upload_data)
for g in group_upload_data:
if current_time >= g['upload_time']:
g['is_uploading'] = True
r.set('group_upload', group_upload_data)
group_id = []
value_list = list()
# dtime1 = time.time()
for g in group_upload_data:
if current_time >= g['upload_time']:
value_list += upload_data(g, current_time)
group_id.append(g['id'])
g['last_time'] = g['upload_time']
g['upload_time'] = current_time + g['upload_cycle']
# 设置为不在上传的状态
g['is_uploading'] = False
# print('下次上传时间', datetime.datetime.fromtimestamp(g['upload_time']))
# dtime2 = time.time()
# print('data', dtime2 - dtime1)
# print(group_id)
# print('上传数据', len(value_list), value_list)
# utime1 = time.time()
upload(value_list, group_id)
# utime2 = time.time()
# print('upload', utime2 - utime1)
r.set('group_upload', group_upload_data)
def plc_connect(plc):
client = Client()
try:
client.connect(
address=plc['ip'],
rack=plc['rack'],
slot=plc['slot'],
)
except Snap7Exception as e:
logging.warning('PLC连接失败 ip:{} rack:{} slot:{}'.format(plc['ip'], plc['rack'], plc['slot']) + str(e))
id_num = r.get('id_num')
connect_plc_err(
id_num,
plc_id=plc['id'],
)
return client
def upload(variable_list, group_id):
"""
数据上传
:param variable_list:
:param group_id:
:return:
"""
logging.debug('上传数据')
# 获取本机信息
id_num = r.get('id_num')
# 包装数据
data = {'id_num': id_num, 'value': variable_list}
# print('upload_value', variable_list)
# print('upload_len', len(variable_list))
# print('上传数据数量', len(data['value']))
data = encryption_client(data)
# 上传日志记录
# logging.info('group_id: {}将要上传.'.format(group_id))
# 连接服务器,准备上传数据
try:
rv = req_s.post(UPLOAD_URL,
data=data,
timeout=(CONNECT_TIMEOUT, REQUEST_TIMEOUT))
except RequestException as e:
logging.warning('上传数据错误:' + str(e))
connect_server_err(id_num)
else:
# 日志记录
# 正常传输
if rv.status_code == 200:
logging.info('group_id: {}成功上传.'.format(group_id))
# 未知错误
else:
logging.error('upload无法识别服务端反馈 group_id: {}'.format(group_id))
server_return_err(id_num, 'upload group_id: {}'.format(group_id))
def ntpdate():
# 使用supervisor启动时用户为root 不需要sudo输入密码 不安全
pw = 'touhou'
cmd2 = 'echo {0} | sudo -S ntpdate {1}'.format(pw, NTP_SERVER)
ntp = subprocess.Popen(cmd2,
shell=True,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
status = ntp.wait()
stdout, stderr = ntp.communicate()
if not status: # 判断进程执行状态
note = '完成校时 :{0}'.format(stdout.decode('utf-8'))
logging.info(note)
else:
note = '校时失败 :{0}'.format(stderr.decode('utf-8'))
logging.error(note)
id_num = r.get('id_num')
ntpdate_err(id_num=id_num, note=note)
def plc_client(ip, rack, slot, plc_id):
"""
建立plc连接的上下文管理器
:param ip:
:param rack:
:param slot:
:return:
"""
client = Client()
try:
client.connect(ip, rack, slot)
except Snap7Exception as e:
logging.warning('连接plc失败' + str(e))
session = Session()
id_num = r.get('id_num')
alarm = connect_plc_err(id_num, plc_id)
session.add(alarm)
session.commit()
yield client
client.disconnect()
client.destroy()
def test_beats_data(self):
id_num = r.get('id_num')
con_time = r.get('con_time')
current_time = int(time.time())
print(beats_data(id_num, con_time, current_time))
def get_config():
"""
连接服务器接口,获取本机变量信息
:return:
"""
gtime1 = int(time.time())
logging.debug('连接服务器,获取数据')
current_time = time.time()
# 获取本机信息
id_num = r.get('id_num')
post_data = {'id_num': id_num}
post_data = json.dumps(post_data)
# logging.info('获取配置,发送请求:' + str(post_data))
# 连接服务器
try:
time_c1 = time.time()
rv = req_s.post(CONFIG_URL,
data=post_data,
timeout=(CONNECT_TIMEOUT, REQUEST_TIMEOUT))
time_c2 = time.time()
print('连接服务器获取配置', time_c2 - time_c1)
# 连接失败
except RequestException as e:
logging.warning('获取配置错误:' + str(e))
connect_server_err(id_num)
# 连接成功
else:
# 记录本次服务器通讯时间
r.set('con_time', current_time)
if rv.status_code == 200:
rp = rv.json()
# data = rp['data']
data = decryption_client(rp['data'])
# print(data)
time11 = time.time()
with ConnMySQL() as db:
cur = db.cursor()
try:
# 配置更新,清空现有表
cur.execute('SET foreign_key_checks = 0')
cur.execute('truncate table `variables_groups`')
cur.execute('truncate table alarm_info')
# cur.execute('truncate table `values`')
cur.execute('truncate table yjvariableinfo')
cur.execute('truncate table yjgroupinfo')
cur.execute('truncate table yjplcinfo')
cur.execute('truncate table yjstationinfo')
cur.execute('SET foreign_key_checks = 1')
# 添加新获取的数据
station_sql = '''insert into `yjstationinfo`
(id, station_name, mac, ip, note, id_num, plc_count, ten_id, item_id)
values (%(id)s, %(station_name)s, %(mac)s, %(ip)s, %(note)s, %(id_num)s,
%(plc_count)s, %(ten_id)s, %(item_id)s)'''
cur.execute(station_sql, data['stations'])
plc_sql = '''insert into `yjplcinfo`(
id, station_id, plc_name, note, ip, mpi, type, plc_type, ten_id,
item_id, rack, slot, tcp_port)
values (%(id)s, %(station_id)s, %(plc_name)s, %(note)s, %(ip)s, %(mpi)s, %(type)s,
%(plc_type)s, %(ten_id)s, %(item_id)s, %(rack)s, %(slot)s, %(tcp_port)s)'''
cur.executemany(plc_sql, data['plcs'])
group_sql = '''insert into `yjgroupinfo`(
id, group_name, note, upload_cycle, acquisition_cycle, server_record_cycle,
is_upload, ten_id, item_id, plc_id)
values (%(id)s, %(group_name)s, %(note)s, %(upload_cycle)s,
%(acquisition_cycle)s, %(server_record_cycle)s, %(is_upload)s, %(ten_id)s,
%(item_id)s, %(plc_id)s)'''
cur.executemany(group_sql, data['groups'])
var_sql = '''insert into `yjvariableinfo`
(id, variable_name, note, db_num, address, data_type, rw_type, ten_id, item_id,
write_value, area, is_analog, analog_low_range, analog_high_range,
digital_low_range, digital_high_range)
values (%(id)s, %(variable_name)s, %(note)s, %(db_num)s, %(address)s,
%(data_type)s, %(rw_type)s, %(ten_id)s, %(item_id)s, %(write_value)s, %(area)s,
%(is_analog)s, %(analog_low_range)s, %(analog_high_range)s,
%(digital_low_range)s, %(digital_high_range)s)'''
cur.executemany(var_sql, data['variables'])
relation_sql = '''insert into `variables_groups`(id, variable_id, group_id)
values (%(id)s, %(variable_id)s, %(group_id)s)'''
cur.executemany(relation_sql, data['variables_groups'])
alarm_sql = '''insert into `alarm_info`
(id, variable_id, alarm_type, note, type, symbol, `limit`, delay)
values (%(id)s, %(variable_id)s, %(alarm_type)s, %(note)s, %(type)s, %(symbol)s,
%(limit)s, %(delay)s)'''
cur.executemany(alarm_sql, data['alarm'])
except Error as e:
logging.error('更新配置出错: ' + str(e))
db.rollback()
db_commit_err(id_num, 'get_config')
else:
db.commit()
finally:
cur.close()
time12 = time.time()
print('清空添加配置', time12 - time11)
logging.debug('发送配置完成确认信息')
time21 = time.time()
result = server_confirm(CONFIRM_CONFIG_URL)
time22 = time.time()
print('确认配置获取', time22 - time21)
if result:
logging.info('配置获取完成')
else:
logging.error('无法向服务器确认获取配置已完成')
else:
server_return_err(id_num, 'get_config')
gtime2 = time.time()
print('get_config', gtime2 - gtime1)
def check_alarm():
# time1 = time.time()
# r.set('alarm_info', None)
logging.debug('check alarm')
# print('检查报警')
# redis_alarm_variables(r)
is_no_alarm = r.get('is_no_alarm')
if is_no_alarm:
return
alarm_variables = r.get('alarm_variables')
# print('报警变量', alarm_variables)
if not alarm_variables:
redis_alarm_variables(r)
return
# 循环报警变量,查看最近采集的数值是否满足报警条件
current_time = int(time.time())
alarm_data = list()
session = Session()
try:
# print(alarm_variables)
for alarm in alarm_variables:
# 获取需要判断的采集数据
if alarm['delay']:
values = session.query(Value).filter_by(var_id=alarm['var_id']). \
filter(Value.time > current_time - alarm['delay'] - 1).all()
else:
values = session.query(Value).filter_by(var_id=alarm['var_id']). \
order_by(Value.time.desc()).limit(1).all()
# print(values[0].value)
is_alarm = False
if alarm['type'] == 1:
for v in values:
# print(v.value, v.var_id)
if bool(v.value) == bool(alarm['limit']):
is_alarm = True
else:
is_alarm = False
break
elif alarm['type'] == 2:
if alarm['symbol'] == 1:
for v in values:
if v.value > alarm['limit']:
is_alarm = True
else:
is_alarm = False
break
elif alarm['symbol'] == 2:
for v in values:
if v.value >= alarm['limit']:
is_alarm = True
else:
is_alarm = False
break
elif alarm['symbol'] == 3:
for v in values:
if v.value < alarm['limit']:
is_alarm = True
else:
is_alarm = False
break
elif alarm['symbol'] == 4:
for v in values:
if v.value <= alarm['limit']:
is_alarm = True
else:
is_alarm = False
break
elif alarm['symbol'] == 5:
for v in values:
if v.value == alarm['limit']:
is_alarm = True
else:
is_alarm = False
break
else:
is_alarm = False
else:
is_alarm = False
if is_alarm and not alarm['is_alarming']:
alarm_data.append({'i': alarm['var_id'], 'a': is_alarm})
alarm['is_alarming'] = True
elif not is_alarm and alarm['is_alarming']:
alarm_data.append({'i': alarm['var_id'], 'a': is_alarm})
alarm['is_alarming'] = False
r.set('alarm_variables', alarm_variables)
if alarm_data:
alarm_info = {'time': current_time, 'data': alarm_data}
old_alarm = r.get('alarm_info')
# print(old_alarm)
if old_alarm:
old_alarm.append(alarm_info)
r.set('alarm_info', old_alarm)
else:
r.set('alarm_info', [alarm_info])
# print(alarm_info)
# print(alarm_variables)
# except Exception as e:
# logging.exception('check_alarm' + str(e))
# session.rollback()
finally:
session.close()
def check_gather():
"""
检查变量采集时间,采集满足条件的变量值
:return:
"""
# time.sleep(30)
with ConnMySQL() as db:
cur = db.cursor()
try:
# lock_time2 = time.time()
# print('lock_time', lock_time2 - lock_time1)
# time1 = time.time()
logging.debug('检查变量采集时间')
current_time = int(time.time())
value_list = list()
plcs = r.get('plc')
group_read_data = r.get('group_read')
for plc in plcs:
# todo 循环内部 使用并发
group_id = []
for v in group_read_data:
if v['plc_id'] == plc[
'id'] and current_time >= v['read_time']:
group_id.append(v['id'])
v['read_time'] = current_time + v['read_cycle']
r.set('group_read', group_read_data)
group_data = r.get('variable')
variables = [
variable for group in group_data
if group['group_id'] in group_id
for variable in group['variables']
]
# print(variables)
# print('采集数量', len(variables))
with plc_client(plc['ip'], plc['rack'], plc['slot'],
plc['id']) as client:
if client.get_connected():
plc['time'] = current_time
if variables:
while len(variables) > 0:
variable_group = variables[:18]
variables = variables[18:]
# print(len(variables))
# print(plc)
try:
value_info = read_multi(
plc=plc,
variables=variable_group,
current_time=current_time,
client=client)
except Snap7ConnectException:
id_num = r.get('id_num')
connect_plc_err(id_num, plc['id'])
except Snap7ReadException as e:
id_num = r.get('id_num')
area, db_num, addr, data_type = e.args
read_err(id_num=id_num,
plc_id=plc['id'],
plc_name=plc['name'],
area=area,
db_num=db_num,
address=addr,
data_type=data_type)
else:
value_list += value_info
# ctime1 = time.time()
value_insert_sql = "insert into `values`(var_id, value, time) values "
if value_list:
v = map(str, value_list)
value_insert_sql = value_insert_sql + ','.join(v)
cur.execute(value_insert_sql)
db.commit()
# value_data = {str(current_time): value_list}
# if redis_value:
# else:
# r.set('value', value_data)
# ctime2 = time.time()
# print('commit', ctime2 - ctime1)
r.set('plc', plcs)
finally:
# time2 = time.time()
# print('采集时间' + str(time2 - time1))
cur.close()
def check_gather_redis(self):
"""
检查变量采集时间,采集满足条件的变量值
:return:
"""
lock_time2 = time.time()
# print('lock_time', lock_time2 - lock_time1)
time1 = time.time()
logging.debug('检查变量采集时间')
current_time = int(time.time())
value_list = list()
session = Session()
plcs = r.get('plc')
group_read_data = r.get('group_read')
for plc in plcs:
# todo 循环内部 使用并发
group_id = []
for v in group_read_data:
if v['plc_id'] == plc['id'] and current_time >= v['read_time']:
group_id.append(v['id'])
v['read_time'] = current_time + v['read_cycle']
r.set('group_read', group_read_data)
group_data = r.get('variable')
variables = [
variable for group in group_data if group['group_id'] in group_id
for variable in group['variables']
]
# print(variables)
# print('采集数量', len(variables))
# client = plc_connect(plc)
with plc_client(plc['ip'], plc['rack'], plc['slot'],
plc['id']) as client:
if client.get_connected():
plc['time'] = current_time
if variables:
# readsuan(variables)
# variables = variables[0:2]
# print('variables', len(variables))
while len(variables) > 0:
variable_group = variables[:18]
variables = variables[18:]
# print(len(variables))
# print(plc)
try:
value_info = read_multi(plc=plc,
variables=variable_group,
current_time=current_time,
client=client)
except Snap7ReadException as e:
id_num = r.get('id_num')
area, db_num, addr, data_type = e.args
read_err(id_num=id_num,
plc_id=plc['id'],
plc_name=plc['name'],
area=area,
db_num=db_num,
address=addr,
data_type=data_type)
else:
value_list += value_info
# except Exception:
# print('跳过一次采集')
# client.disconnect()
# client.destroy()
# session.bulk_insert_mappings(Value, value_list)
# session.commit()
ctime1 = time.time()
# value_insert_sql = "insert into `values`(var_id, value, time) values "
# if value_list:
# v = map(str, value_list)
#
# value_insert_sql = value_insert_sql + ','.join(v)
#
# cur.execute(value_insert_sql)
# db.commit()
redis_value = r.conn.hlen('value')
# print(redis_value)
# value_data = {str(current_time): value_list}
value_list = pickle.dumps(value_list)
# if redis_value:
r.conn.hset('value', str(current_time), value_list)
# else:
# r.set('value', value_data)
ctime2 = time.time()
# print('commit', ctime2 - ctime1)
r.set('plc', plcs)