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Author SHA1 Message Date
kostas 0aea1b5c56 Merge remote-tracking branch 'origin/main' 2024-06-26 15:55:09 +02:00
kostas 8cab7af84c add: batch files 2024-06-26 15:54:57 +02:00
kostas 91a23d3ecb add: batch files 2024-06-26 15:53:19 +02:00
6 changed files with 166 additions and 55 deletions

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@ -6,7 +6,7 @@ namespace InnovEnergy.App.SchneiderDriver;
public static class Config
{
public const String Version = "1.0";
public const String BusName = "com.victronenergy.grid";
public const String BusName = "com.victronenergy.grid.Schneider";
public const Byte ModbusNodeId = 1;
public const String OwnAddress = "192.168.1.246";
public const String PeerAddress = "192.168.1.82";
@ -52,13 +52,13 @@ public static class Config
{
new("/ProductName" , "Grid meter" ),
new("/CustomName" , "Schneider Professional"),
new("/DeviceInstance" , 30),
new("/DeviceType" , 72),
new("/DeviceInstance" , 50),
new("/DeviceType" , 73),
new("/Mgmt/Connection" , "Modbus TCP"),
new("/Mgmt/ProcessName" , Assembly.GetEntryAssembly()?.Location ?? "unknown"),
new("/Mgmt/ProcessVersion", Version),
new("/Connected" , 1),
new("/ProductId" , 45058, "b002"),
new("/ProductId" , 45139, "b002"),
new("/Role" , "grid"),
};

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@ -30,21 +30,7 @@ public static class SchneiderMeterDriver
.Publish();
var x = schneider.Read();
// Print the output of schneider.Read()
if (x != null)
{
Console.WriteLine("Schneider Read Output:");
Console.WriteLine($"ActivePowerL1: {x.ActivePowerL1}");
Console.WriteLine($"ActivePowerL2: {x.ActivePowerL2}");
Console.WriteLine($"ActivePowerL3: {x.ActivePowerL3}");
// Add more properties if needed
}
else
{
Console.WriteLine("Failed to read data from Schneider device.");
}
var poller = schneiderStatus.Connect();
var properties = Config.DefaultProperties;

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@ -8,7 +8,7 @@ platform="linux-arm"
netVersion="net6.0"
config="Release"
host="root@$remote"
dir="/opt/innovenergy/$exe"
dir="/opt/victronenergy/$exe"
set -e

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@ -2,7 +2,7 @@
csproj="SchneiderMeterDriver.csproj"
exe="SchneiderMeterDriver"
remote="10.2.4.155"
remote="10.2.4.114"
platform="linux-arm"
netVersion="net6.0"
config="Release"

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@ -14,7 +14,40 @@ public partial class Battery250UpRecord
{
[InputRegister(1004)] private UInt16 _LedStates;
[InputRegister<UInt64>(1005)] private UInt64 _WarningFlags;
//mine
[InputRegister<UInt64>(1006)] private UInt64 _WarningFlags16to31;
[InputRegister<UInt64>(1007)] private UInt64 _WarningFlags32to47;
[InputRegister<UInt64>(1008)] private UInt64 _WarningFlags48to63;
[InputRegister<UInt64>(1009)] private UInt64 _AlarmFlags;
//mine
[InputRegister<UInt64>(1010)] private UInt64 _AlarmFlags16to31;
[InputRegister<UInt64>(1011)] private UInt64 _AlarmFlags32to47;
[InputRegister<UInt64>(1012)] private UInt64 _AlarmFlags48to63;
[InputRegister(1013)] private UInt16 _IoStates;
[InputRegister(999, Scale = 0.01)] private Double _CellsVoltage;
@ -43,7 +76,18 @@ public partial class Battery250UpRecord
[InputRegister(1060)] private UInt16 _BatteryState1;
[InputRegister(1061)] private UInt16 _BatteryState2;
//[InputRegister(1063)] private UInt16 _TotalBatteryCycle;
//mine
[InputRegister(1018, Scale = 0.1)] private Double _RiscC_pwm;
[InputRegister(1019, Scale = 0.1)] private Double _RiscL_pwm;
[InputRegister(1050)] private UInt16 _RTCCounterLo;
[InputRegister(1051)] private UInt16 _RTCCounterHi;
[InputRegister(1052)] private UInt16 _TimeToTocRequest;
//[InputRegister(1063)] private UInt16 _TotalBatteryCycle;
private LedState ParseLed(LedColor led) => (LedState)((_LedStates >> (Int32)led) & 3);

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@ -50,9 +50,10 @@ import time
# zip-comp additions
import zipfile
import io
import shutil
def compress_csv_data(csv_data, file_name="data.csv"):
memory_stream = io.BytesIO()
# Create a zip archive in the memory buffer
@ -379,8 +380,8 @@ def init_signals(hardware_version, firmware_version, n_batteries):
as described in the document 'T48TLxxx ModBus Protocol Rev.7.1' which can
be found in the /doc folder
"""
product_id_hex = '0x{0:04x}'.format(cfg.PRODUCT_ID)
product_id = cfg.PRODUCT_ID
product_id_hex = '0x{0:04product_id}'
read_voltage = c.read_float(register=999, scale_factor=0.01, offset=0, places=2)
read_current = c.read_float(register=1000, scale_factor=0.01, offset=-10000, places=2)
@ -444,7 +445,7 @@ def init_signals(hardware_version, firmware_version, n_batteries):
Signal('/Soc', min, c.read_float(register=1053, scale_factor=0.1, offset=0, places=1), c.append_unit('%')),
Signal('/LowestSoc', min, c.read_float(register=1053, scale_factor=0.1, offset=0, places=1), c.append_unit('%')),
Signal('/Dc/0/Temperature', c.mean, c.read_float(register=1003, scale_factor=0.1, offset=-400, places=1), c.append_unit(u'°C')),
# Charge/Discharge current, voltage and power
Signal('/Info/MaxDischargeCurrent', c.ssum, max_discharge_current,c.append_unit('A')),
Signal('/Info/MaxChargeCurrent', c.ssum, max_charge_current, c.append_unit('A')),
@ -745,7 +746,7 @@ def update_state_from_dictionaries(current_warnings, current_alarms, node_number
if int(list(current_alarms.keys())[i].split("/")[3]) == int(node_number):
if alarm_value:
cnt+=1
alarms_number_list.append(cnt)
alarms_number_list.append(cnt)
warnings_number_list = []
@ -898,6 +899,107 @@ def parse_cmdline_args(argv):
sys.exit(1)
return argv[0]
def count_files_in_folder(folder_path):
try:
# List all files in the folder
files = os.listdir(folder_path)
# Filter out directories, only count files
num_files = sum(1 for f in files if os.path.isfile(os.path.join(folder_path, f)))
return num_files
except FileNotFoundError:
return "Folder not found"
except Exception as e:
return str(e)
def create_batch_of_csv_files():
# list all files in the directory
files = os.listdir(CSV_DIR)
# filter out only csv files
csv_files = [file for file in files if file.endswith('.csv')]
# sort csv files by creation time
csv_files.sort(key=lambda x: os.path.getctime(os.path.join(CSV_DIR, x)))
# keep the 15 MOST RECENT FILES
recent_csv_files = csv_files[-15:] if len(csv_files) > 15 else csv_files
# get the name of the first csv file
if not csv_files:
print("No csv files found in the directory.")
exit(0)
first_csv_file = os.path.join(CSV_DIR, recent_csv_files.pop(0))
first_csv_filename = os.path.basename(first_csv_file)
temp_file_path = os.path.join(CSV_DIR, 'temp_batch_file.csv')
# create a temporary file and write the timestamp and the original content of the first file
with open(temp_file_path, 'wb') as temp_file:
# Write the timestamp (filename) at the beginning
numeric_part = first_csv_filename.split('.')[0]
temp_file.write(f'Timestamp;{numeric_part}\n'.encode('utf-8'))
# write the original content of the first csv file
with open(first_csv_file, 'rb') as f:
temp_file.write(f.read())
for csv_file in recent_csv_files:
file_path = os.path.join(CSV_DIR, csv_file)
# write an empty line
temp_file.write(b'\n')
# write the timestamp (filename)
numeric_part = csv_file.split('.')[0]
temp_file.write(f'Timestamp;{numeric_part}\n'.encode('utf-8'))
# write the content of the file
with open(file_path, 'rb') as f:
temp_file.write(f.read())
# replace the original first csv file with the temporary file
os.remove(first_csv_file)
os.rename(temp_file_path, first_csv_file)
# create a loggin directory that contains at max 20 batch files for logging info
logging_dir = os.path.join(CSV_DIR, 'logging_batch_files')
if not os.path.exists(logging_dir):
os.makedirs(logging_dir)
shutil.copy(first_csv_file, logging_dir)
manage_csv_files(logging_dir)
# keep at most 100 files at CSV_DIR for logging
manage_csv_files(CSV_DIR, 100)
# prepare for compression
csv_data = read_csv_as_string(first_csv_file)
if csv_data is None:
print("error while reading csv as string")
return
# zip-comp additions
compressed_csv = compress_csv_data(csv_data)
# Use the name of the last (most recent) CSV file in sorted csv_files as the name for the compressed file
last_csv_file_name = os.path.basename(recent_csv_files[-1]) if recent_csv_files else first_csv_filename
numeric_part = int(last_csv_file_name.split('.')[0])
compressed_filename = "{}.csv".format(numeric_part)
response = s3_config.create_put_request(compressed_filename, compressed_csv)
if response.status_code == 200:
os.remove(first_csv_file)
print("Successfully uploaded the compresseed batch of files in s3")
else:
# we save data that were not successfully uploaded in s3 in a failed directory inside the CSV_DIR for logging
failed_dir = os.path.join(CSV_DIR, "failed")
if not os.path.exists(failed_dir):
os.makedirs(failed_dir)
failed_path = os.path.join(failed_dir, first_csv_filename)
os.rename(first_csv_file, failed_path)
print("Uploading failed")
manage_csv_files(failed_dir, 100)
alive = True # global alive flag, watchdog_task clears it, update_task sets it
ALLOW = False
@ -907,14 +1009,20 @@ def create_update_task(modbus, dbus, batteries, signals, csv_signals, main_loop)
Creates an update task which runs the main update function
and resets the alive flag
"""
start_time = time.time()
def update_task():
# type: () -> bool
nonlocal start_time
global alive, ALLOW
if ALLOW:
ALLOW = False
else:
ALLOW = True
alive = update(modbus, batteries, dbus, signals, csv_signals)
elapsed_time = time.time() - start_time
if count_files_in_folder(CSV_DIR) >= 15 and elapsed_time >= 30:
create_batch_of_csv_files()
start_time = time.time()
#alive = update_for_testing(modbus, batteries, dbus, signals, csv_signals)
if not alive:
logging.info('update_task: quitting main loop because of error')
@ -992,33 +1100,6 @@ def create_csv_files(signals, statuses, node_numbers, alarms_number_list, warnin
value = s.get_value(statuses[i])
row_values = [signal_name, value, s.get_text]
csv_writer.writerow(row_values)
# Manage CSV files, keep a limited number of files
# Create the CSV as a string
csv_data = read_csv_as_string(csv_path)
if csv_data is None:
print(" error while reading csv as string")
return
# zip-comp additions
compressed_csv = compress_csv_data(csv_data)
compressed_filename = f"{timestamp}.csv"
response = s3_config.create_put_request(compressed_filename, compressed_csv)
if response.status_code == 200:
#os.remove(csv_path)
print("Success")
else:
failed_dir = os.path.join(CSV_DIR, "failed")
if not os.path.exists(failed_dir):
os.makedirs(failed_dir)
failed_path = os.path.join(failed_dir, csv_filename)
os.rename(csv_path, failed_path)
print("Uploading failed")
manage_csv_files(failed_dir, 10)
manage_csv_files(CSV_DIR)
def main(argv):
# type: (list[str]) -> ()
@ -1046,4 +1127,4 @@ def main(argv):
sys.exit(0xFF) # reaches this only on error
if __name__ == "__main__":
main(sys.argv[1:])
main(sys.argv[1:])