move files, rename home package to homekit

1 files changed, 0 insertions, 556 deletions

diff --git a/src/home/inverter/emulator.py b/src/home/inverter/emulator.py
deleted file mode 100644
index e86b8bb..0000000
--- a/src/home/inverter/emulator.py
+++ /dev/null
@@ -1,556 +0,0 @@
-import asyncio
-import logging
-
-from inverterd import Format
-
-from typing import Union
-from enum import Enum
-from ..util import Addr, stringify
-
-
-class InverterEnum(Enum):
-    def as_text(self) -> str:
-        raise RuntimeError('abstract method')
-
-
-class BatteryType(InverterEnum):
-    AGM = 0
-    Flooded = 1
-    User = 2
-
-    def as_text(self) -> str:
-        return ('AGM', 'Flooded', 'User')[self.value]
-
-
-class InputVoltageRange(InverterEnum):
-    Appliance = 0
-    USP = 1
-
-    def as_text(self) -> str:
-        return ('Appliance', 'USP')[self.value]
-
-
-class OutputSourcePriority(InverterEnum):
-    SolarUtilityBattery = 0
-    SolarBatteryUtility = 1
-
-    def as_text(self) -> str:
-        return ('Solar-Utility-Battery', 'Solar-Battery-Utility')[self.value]
-
-
-class ChargeSourcePriority(InverterEnum):
-    SolarFirst = 0
-    SolarAndUtility = 1
-    SolarOnly = 2
-
-    def as_text(self) -> str:
-        return ('Solar-First', 'Solar-and-Utility', 'Solar-only')[self.value]
-
-
-class MachineType(InverterEnum):
-    OffGridTie = 0
-    GridTie = 1
-
-    def as_text(self) -> str:
-        return ('Off-Grid-Tie', 'Grid-Tie')[self.value]
-
-
-class Topology(InverterEnum):
-    TransformerLess = 0
-    Transformer = 1
-
-    def as_text(self) -> str:
-        return ('Transformer-less', 'Transformer')[self.value]
-
-
-class OutputMode(InverterEnum):
-    SingleOutput = 0
-    ParallelOutput = 1
-    Phase_1_of_3 = 2
-    Phase_2_of_3 = 3
-    Phase_3_of_3 = 4
-
-    def as_text(self) -> str:
-        return (
-            'Single output',
-            'Parallel output',
-            'Phase 1 of 3-phase output',
-            'Phase 2 of 3-phase output',
-            'Phase 3 of 3-phase'
-        )[self.value]
-
-
-class SolarPowerPriority(InverterEnum):
-    BatteryLoadUtility = 0
-    LoadBatteryUtility = 1
-
-    def as_text(self) -> str:
-        return ('Battery-Load-Utility', 'Load-Battery-Utility')[self.value]
-
-
-class MPPTChargerStatus(InverterEnum):
-    Abnormal = 0
-    NotCharging = 1
-    Charging = 2
-
-    def as_text(self) -> str:
-        return ('Abnormal', 'Not charging', 'Charging')[self.value]
-
-
-class BatteryPowerDirection(InverterEnum):
-    DoNothing = 0
-    Charge = 1
-    Discharge = 2
-
-    def as_text(self) -> str:
-        return ('Do nothing', 'Charge', 'Discharge')[self.value]
-
-
-class DC_AC_PowerDirection(InverterEnum):
-    DoNothing = 0
-    AC_DC = 1
-    DC_AC = 2
-
-    def as_text(self) -> str:
-        return ('Do nothing', 'AC/DC', 'DC/AC')[self.value]
-
-
-class LinePowerDirection(InverterEnum):
-    DoNothing = 0
-    Input = 1
-    Output = 2
-
-    def as_text(self) -> str:
-        return ('Do nothing', 'Input', 'Output')[self.value]
-
-
-class WorkingMode(InverterEnum):
-    PowerOnMode = 0
-    StandbyMode = 1
-    BypassMode = 2
-    BatteryMode = 3
-    FaultMode = 4
-    HybridMode = 5
-
-    def as_text(self) -> str:
-        return (
-            'Power on mode',
-            'Standby mode',
-            'Bypass mode',
-            'Battery mode',
-            'Fault mode',
-            'Hybrid mode'
-        )[self.value]
-
-
-class ParallelConnectionStatus(InverterEnum):
-    NotExistent = 0
-    Existent = 1
-
-    def as_text(self) -> str:
-        return ('Non-existent', 'Existent')[self.value]
-
-
-class LoadConnectionStatus(InverterEnum):
-    Disconnected = 0
-    Connected = 1
-
-    def as_text(self) -> str:
-        return ('Disconnected', 'Connected')[self.value]
-
-
-class ConfigurationStatus(InverterEnum):
-    Default = 0
-    Changed = 1
-
-    def as_text(self) -> str:
-        return ('Default', 'Changed')[self.value]
-
-
-_g_human_readable = {"grid_voltage": "Grid voltage",
-                     "grid_freq": "Grid frequency",
-                     "ac_output_voltage": "AC output voltage",
-                     "ac_output_freq": "AC output frequency",
-                     "ac_output_apparent_power": "AC output apparent power",
-                     "ac_output_active_power": "AC output active power",
-                     "output_load_percent": "Output load percent",
-                     "battery_voltage": "Battery voltage",
-                     "battery_voltage_scc": "Battery voltage from SCC",
-                     "battery_voltage_scc2": "Battery voltage from SCC2",
-                     "battery_discharge_current": "Battery discharge current",
-                     "battery_charge_current": "Battery charge current",
-                     "battery_capacity": "Battery capacity",
-                     "inverter_heat_sink_temp": "Inverter heat sink temperature",
-                     "mppt1_charger_temp": "MPPT1 charger temperature",
-                     "mppt2_charger_temp": "MPPT2 charger temperature",
-                     "pv1_input_power": "PV1 input power",
-                     "pv2_input_power": "PV2 input power",
-                     "pv1_input_voltage": "PV1 input voltage",
-                     "pv2_input_voltage": "PV2 input voltage",
-                     "configuration_status": "Configuration state",
-                     "mppt1_charger_status": "MPPT1 charger status",
-                     "mppt2_charger_status": "MPPT2 charger status",
-                     "load_connected": "Load connection",
-                     "battery_power_direction": "Battery power direction",
-                     "dc_ac_power_direction": "DC/AC power direction",
-                     "line_power_direction": "Line power direction",
-                     "local_parallel_id": "Local parallel ID",
-                     "ac_input_rating_voltage": "AC input rating voltage",
-                     "ac_input_rating_current": "AC input rating current",
-                     "ac_output_rating_voltage": "AC output rating voltage",
-                     "ac_output_rating_freq": "AC output rating frequency",
-                     "ac_output_rating_current": "AC output rating current",
-                     "ac_output_rating_apparent_power": "AC output rating apparent power",
-                     "ac_output_rating_active_power": "AC output rating active power",
-                     "battery_rating_voltage": "Battery rating voltage",
-                     "battery_recharge_voltage": "Battery re-charge voltage",
-                     "battery_redischarge_voltage": "Battery re-discharge voltage",
-                     "battery_under_voltage": "Battery under voltage",
-                     "battery_bulk_voltage": "Battery bulk voltage",
-                     "battery_float_voltage": "Battery float voltage",
-                     "battery_type": "Battery type",
-                     "max_charge_current": "Max charge current",
-                     "max_ac_charge_current": "Max AC charge current",
-                     "input_voltage_range": "Input voltage range",
-                     "output_source_priority": "Output source priority",
-                     "charge_source_priority": "Charge source priority",
-                     "parallel_max_num": "Parallel max num",
-                     "machine_type": "Machine type",
-                     "topology": "Topology",
-                     "output_mode": "Output mode",
-                     "solar_power_priority": "Solar power priority",
-                     "mppt": "MPPT string",
-                     "fault_code": "Fault code",
-                     "line_fail": "Line fail",
-                     "output_circuit_short": "Output circuit short",
-                     "inverter_over_temperature": "Inverter over temperature",
-                     "fan_lock": "Fan lock",
-                     "battery_voltage_high": "Battery voltage high",
-                     "battery_low": "Battery low",
-                     "battery_under": "Battery under",
-                     "over_load": "Over load",
-                     "eeprom_fail": "EEPROM fail",
-                     "power_limit": "Power limit",
-                     "pv1_voltage_high": "PV1 voltage high",
-                     "pv2_voltage_high": "PV2 voltage high",
-                     "mppt1_overload_warning": "MPPT1 overload warning",
-                     "mppt2_overload_warning": "MPPT2 overload warning",
-                     "battery_too_low_to_charge_for_scc1": "Battery too low to charge for SCC1",
-                     "battery_too_low_to_charge_for_scc2": "Battery too low to charge for SCC2",
-                     "buzzer": "Buzzer",
-                     "overload_bypass": "Overload bypass function",
-                     "escape_to_default_screen_after_1min_timeout": "Escape to default screen after 1min timeout",
-                     "overload_restart": "Overload restart",
-                     "over_temp_restart": "Over temperature restart",
-                     "backlight_on": "Backlight on",
-                     "alarm_on_on_primary_source_interrupt": "Alarm on on primary source interrupt",
-                     "fault_code_record": "Fault code record",
-                     "wh": "Wh"}
-
-
-class InverterEmulator:
-    def __init__(self, addr: Addr, wait=True):
-        self.status = {"grid_voltage": {"unit": "V", "value": 236.3},
-                       "grid_freq": {"unit": "Hz", "value": 50.0},
-                       "ac_output_voltage": {"unit": "V", "value": 229.9},
-                       "ac_output_freq": {"unit": "Hz", "value": 50.0},
-                       "ac_output_apparent_power": {"unit": "VA", "value": 207},
-                       "ac_output_active_power": {"unit": "Wh", "value": 146},
-                       "output_load_percent": {"unit": "%", "value": 4},
-                       "battery_voltage": {"unit": "V", "value": 49.1},
-                       "battery_voltage_scc": {"unit": "V", "value": 0.0},
-                       "battery_voltage_scc2": {"unit": "V", "value": 0.0},
-                       "battery_discharge_current": {"unit": "A", "value": 3},
-                       "battery_charge_current": {"unit": "A", "value": 0},
-                       "battery_capacity": {"unit": "%", "value": 69},
-                       "inverter_heat_sink_temp": {"unit": "°C", "value": 17},
-                       "mppt1_charger_temp": {"unit": "°C", "value": 0},
-                       "mppt2_charger_temp": {"unit": "°C", "value": 0},
-                       "pv1_input_power": {"unit": "Wh", "value": 0},
-                       "pv2_input_power": {"unit": "Wh", "value": 0},
-                       "pv1_input_voltage": {"unit": "V", "value": 0.0},
-                       "pv2_input_voltage": {"unit": "V", "value": 0.0},
-                       "configuration_status": ConfigurationStatus.Default,
-                       "mppt1_charger_status": MPPTChargerStatus.Abnormal,
-                       "mppt2_charger_status": MPPTChargerStatus.Abnormal,
-                       "load_connected": LoadConnectionStatus.Connected,
-                       "battery_power_direction": BatteryPowerDirection.Discharge,
-                       "dc_ac_power_direction": DC_AC_PowerDirection.DC_AC,
-                       "line_power_direction": LinePowerDirection.DoNothing,
-                       "local_parallel_id": 0}
-
-        self.rated = {"ac_input_rating_voltage": {"unit": "V", "value": 230.0},
-                      "ac_input_rating_current": {"unit": "A", "value": 21.7},
-                      "ac_output_rating_voltage": {"unit": "V", "value": 230.0},
-                      "ac_output_rating_freq": {"unit": "Hz", "value": 50.0},
-                      "ac_output_rating_current": {"unit": "A", "value": 21.7},
-                      "ac_output_rating_apparent_power": {"unit": "VA", "value": 5000},
-                      "ac_output_rating_active_power": {"unit": "Wh", "value": 5000},
-                      "battery_rating_voltage": {"unit": "V", "value": 48.0},
-                      "battery_recharge_voltage": {"unit": "V", "value": 48.0},
-                      "battery_redischarge_voltage": {"unit": "V", "value": 55.0},
-                      "battery_under_voltage": {"unit": "V", "value": 42.0},
-                      "battery_bulk_voltage": {"unit": "V", "value": 57.6},
-                      "battery_float_voltage": {"unit": "V", "value": 54.0},
-                      "battery_type": BatteryType.User,
-                      "max_charge_current": {"unit": "A", "value": 60},
-                      "max_ac_charge_current": {"unit": "A", "value": 30},
-                      "input_voltage_range": InputVoltageRange.Appliance,
-                      "output_source_priority": OutputSourcePriority.SolarBatteryUtility,
-                      "charge_source_priority": ChargeSourcePriority.SolarAndUtility,
-                      "parallel_max_num": 6,
-                      "machine_type": MachineType.OffGridTie,
-                      "topology": Topology.TransformerLess,
-                      "output_mode": OutputMode.SingleOutput,
-                      "solar_power_priority": SolarPowerPriority.LoadBatteryUtility,
-                      "mppt": "2"}
-
-        self.errors = {"fault_code": 0,
-                       "line_fail": False,
-                       "output_circuit_short": False,
-                       "inverter_over_temperature": False,
-                       "fan_lock": False,
-                       "battery_voltage_high": False,
-                       "battery_low": False,
-                       "battery_under": False,
-                       "over_load": False,
-                       "eeprom_fail": False,
-                       "power_limit": False,
-                       "pv1_voltage_high": False,
-                       "pv2_voltage_high": False,
-                       "mppt1_overload_warning": False,
-                       "mppt2_overload_warning": False,
-                       "battery_too_low_to_charge_for_scc1": False,
-                       "battery_too_low_to_charge_for_scc2": False}
-
-        self.flags = {"buzzer": False,
-                      "overload_bypass": True,
-                      "escape_to_default_screen_after_1min_timeout": False,
-                      "overload_restart": True,
-                      "over_temp_restart": True,
-                      "backlight_on": False,
-                      "alarm_on_on_primary_source_interrupt": True,
-                      "fault_code_record": False}
-
-        self.day_generated = 1000
-
-        self.logger = logging.getLogger(self.__class__.__name__)
-
-        host, port = addr
-        asyncio.run(self.run_server(host, port, wait))
-        # self.max_ac_charge_current = 30
-        # self.max_charge_current = 60
-        # self.charge_thresholds = [48, 54]
-
-    async def run_server(self, host, port, wait: bool):
-        server = await asyncio.start_server(self.client_handler, host, port)
-        async with server:
-            self.logger.info(f'listening on {host}:{port}')
-            if wait:
-                await server.serve_forever()
-            else:
-                asyncio.ensure_future(server.serve_forever())
-
-    async def client_handler(self, reader, writer):
-        client_fmt = Format.JSON
-
-        def w(s: str):
-            writer.write(s.encode('utf-8'))
-
-        def return_error(message=None):
-            w('err\r\n')
-            if message:
-                if client_fmt in (Format.JSON, Format.SIMPLE_JSON):
-                    w(stringify({
-                        'result': 'error',
-                        'message': message
-                    }))
-                elif client_fmt in (Format.TABLE, Format.SIMPLE_TABLE):
-                    w(f'error: {message}')
-                w('\r\n')
-            w('\r\n')
-
-        def return_ok(data=None):
-            w('ok\r\n')
-            if client_fmt in (Format.JSON, Format.SIMPLE_JSON):
-                jdata = {
-                    'result': 'ok'
-                }
-                if data:
-                    jdata['data'] = data
-                w(stringify(jdata))
-                w('\r\n')
-            elif data:
-                w(data)
-                w('\r\n')
-            w('\r\n')
-
-        request = None
-        while request != 'quit':
-            try:
-                request = await reader.read(255)
-                if request == b'\x04':
-                    break
-                request = request.decode('utf-8').strip()
-            except Exception:
-                break
-
-            if request.startswith('format '):
-                requested_format = request[7:]
-                try:
-                    client_fmt = Format(requested_format)
-                except ValueError:
-                    return_error('invalid format')
-
-                return_ok()
-
-            elif request.startswith('exec '):
-                buf = request[5:].split(' ')
-                command = buf[0]
-                args = buf[1:]
-
-                try:
-                    return_ok(self.process_command(client_fmt, command, *args))
-                except ValueError as e:
-                    return_error(str(e))
-
-            else:
-                return_error(f'invalid token: {request}')
-
-            try:
-                await writer.drain()
-            except ConnectionResetError as e:
-                # self.logger.exception(e)
-                pass
-
-        writer.close()
-
-    def process_command(self, fmt: Format, c: str, *args) -> Union[dict, str, list[int], None]:
-        ac_charge_currents = [2, 10, 20, 30, 40, 50, 60]
-
-        if c == 'get-status':
-            return self.format_dict(self.status, fmt)
-
-        elif c == 'get-rated':
-            return self.format_dict(self.rated, fmt)
-
-        elif c == 'get-errors':
-            return self.format_dict(self.errors, fmt)
-
-        elif c == 'get-flags':
-            return self.format_dict(self.flags, fmt)
-
-        elif c == 'get-day-generated':
-            return self.format_dict({'wh': 1000}, fmt)
-
-        elif c == 'get-allowed-ac-charge-currents':
-            return self.format_list(ac_charge_currents, fmt)
-
-        elif c == 'set-max-ac-charge-current':
-            if int(args[0]) != 0:
-                raise ValueError(f'invalid machine id: {args[0]}')
-            amps = int(args[1])
-            if amps not in ac_charge_currents:
-                raise ValueError(f'invalid value: {amps}')
-            self.rated['max_ac_charge_current']['value'] = amps
-
-        elif c == 'set-charge-thresholds':
-            self.rated['battery_recharge_voltage']['value'] = float(args[0])
-            self.rated['battery_redischarge_voltage']['value'] = float(args[1])
-
-        elif c == 'set-output-source-priority':
-            self.rated['output_source_priority'] = OutputSourcePriority.SolarBatteryUtility if args[0] == 'SBU' else OutputSourcePriority.SolarUtilityBattery
-
-        elif c == 'set-battery-cutoff-voltage':
-            self.rated['battery_under_voltage']['value'] = float(args[0])
-
-        elif c == 'set-flag':
-            flag = args[0]
-            val = bool(int(args[1]))
-
-            if flag == 'BUZZ':
-                k = 'buzzer'
-            elif flag == 'OLBP':
-                k = 'overload_bypass'
-            elif flag == 'LCDE':
-                k = 'escape_to_default_screen_after_1min_timeout'
-            elif flag == 'OLRS':
-                k = 'overload_restart'
-            elif flag == 'OTRS':
-                k = 'over_temp_restart'
-            elif flag == 'BLON':
-                k = 'backlight_on'
-            elif flag == 'ALRM':
-                k = 'alarm_on_on_primary_source_interrupt'
-            elif flag == 'FTCR':
-                k = 'fault_code_record'
-            else:
-                raise ValueError('invalid flag')
-
-            self.flags[k] = val
-
-        else:
-            raise ValueError(f'{c}: unsupported command')
-
-    @staticmethod
-    def format_list(values: list, fmt: Format) -> Union[str, list]:
-        if fmt in (Format.JSON, Format.SIMPLE_JSON):
-            return values
-        return '\n'.join(map(lambda v: str(v), values))
-
-    @staticmethod
-    def format_dict(data: dict, fmt: Format) -> Union[str, dict]:
-        new_data = {}
-        for k, v in data.items():
-            new_val = None
-            if fmt in (Format.JSON, Format.TABLE, Format.SIMPLE_TABLE):
-                if isinstance(v, dict):
-                    new_val = v
-                elif isinstance(v, InverterEnum):
-                    new_val = v.as_text()
-                else:
-                    new_val = v
-            elif fmt == Format.SIMPLE_JSON:
-                if isinstance(v, dict):
-                    new_val = v['value']
-                elif isinstance(v, InverterEnum):
-                    new_val = v.value
-                else:
-                    new_val = str(v)
-            new_data[k] = new_val
-
-        if fmt in (Format.JSON, Format.SIMPLE_JSON):
-            return new_data
-
-        lines = []
-
-        if fmt == Format.SIMPLE_TABLE:
-            for k, v in new_data.items():
-                buf = k
-                if isinstance(v, dict):
-                    buf += ' ' + str(v['value']) + ' ' + v['unit']
-                elif isinstance(v, InverterEnum):
-                    buf += ' ' + v.as_text()
-                else:
-                    buf += ' ' + str(v)
-                lines.append(buf)
-
-        elif fmt == Format.TABLE:
-            max_k_len = 0
-            for k in new_data.keys():
-                if len(_g_human_readable[k]) > max_k_len:
-                    max_k_len = len(_g_human_readable[k])
-            for k, v in new_data.items():
-                buf = _g_human_readable[k] + ':'
-                buf += ' ' * (max_k_len - len(_g_human_readable[k]) + 1)
-                if isinstance(v, dict):
-                    buf += str(v['value']) + ' ' + v['unit']
-                elif isinstance(v, InverterEnum):
-                    buf += v.as_text()
-                elif isinstance(v, bool):
-                    buf += str(int(v))
-                else:
-                    buf += str(v)
-                lines.append(buf)
-
-        return '\n'.join(lines)