migrations/uv_app/contracts/port_sutartis_to_rivile.py

from __future__ import annotations

import argparse
import os
from datetime import date, datetime
from pathlib import Path
from typing import Dict, Iterable, Optional

import psycopg2
import psycopg2.extras
import requests
from dotenv import load_dotenv

from uv_app.core.mssql import connect_to_mssql
from uv_app.core.pgsql import connect_to_pgsql

BASE_URL = "https://api.manorivile.lt/client/v2"
TIMEOUT = 30
MIN_YEAR = 2000

DOTENV_PATH = Path(__file__).resolve().parents[2] / ".env"
load_dotenv(DOTENV_PATH, override=True)

QUERY_PATH = Path(__file__).with_name("sutartys_by_sutarties_kodas.sql")


def _post(api_key: str, payload: dict) -> dict:
    headers = {
        "ApiKey": api_key,
        "Content-Type": "application/json",
        "Accept": "application/json",
    }

    response = requests.post(
        BASE_URL,
        json=payload,
        headers=headers,
        timeout=TIMEOUT,
    )

    if response.status_code != 200:
        raise RuntimeError(f"Rivile HTTP {response.status_code}: {response.text}")

    data = response.json()
    if "errorMessage" in data:
        raise RuntimeError(f"Rivile API error: {data}")

    return data


def _get_api_key() -> str:
    api_key = os.getenv("RIVILE_API_KEY", "").strip()
    if not api_key:
        raise RuntimeError("Missing RIVILE_API_KEY environment variable.")
    return api_key


def _read_query() -> str:
    return QUERY_PATH.read_text(encoding="utf-8")


def _fetch_rows(sutarties_kodas: str) -> Iterable[Dict[str, object]]:
    conn = connect_to_pgsql()
    if conn is None:
        raise RuntimeError("Failed to connect to PostgreSQL.")
    try:
        with conn.cursor(cursor_factory=psycopg2.extras.RealDictCursor) as cursor:
            cursor.execute(_read_query(), (sutarties_kodas,))
            return cursor.fetchall()
    finally:
        conn.close()


def _contract_exists(conn: "pyodbc.Connection", contract_code: str) -> bool:
    cursor = conn.cursor()
    cursor.execute(
        """
        SELECT 1
        FROM dbo.N51_SUTH
        WHERE N51_KODAS_KT = ?
        """,
        (contract_code,),
    )
    return cursor.fetchone() is not None


def _fetch_existing_contract(
    conn: "pyodbc.Connection",
    contract_code: str,
) -> Optional[Dict[str, object]]:
    cursor = conn.cursor()
    cursor.execute(
        """
        SELECT
            N51_KODAS_KT,
            N51_KODAS_KS,
            N51_PAV,
            CONVERT(date, N51_OP_DATA) AS N51_OP_DATA,
            CONVERT(date, N51_BEG_DATE) AS N51_BEG_DATE,
            N51_TIPAS,
            N51_APRASYMAS1,
            N51_APRASYMAS2
        FROM dbo.N51_SUTH
        WHERE N51_KODAS_KT = ?
        """,
        (contract_code,),
    )
    row = cursor.fetchone()
    if not row:
        return None
    columns = [c[0] for c in cursor.description]
    return dict(zip(columns, row))


def _normalize_text(value: object) -> str:
    if value is None:
        return ""
    return str(value).strip()


def _normalize_date(value: object) -> date:
    if isinstance(value, date):
        result = value
    elif isinstance(value, datetime):
        result = value.date()
    else:
        return date.today()
    if result < date(MIN_YEAR, 1, 1):
        return date.today()
    return result


def _is_desired_contract(
    existing: Optional[Dict[str, object]],
    contract_code: str,
    client_code: str,
    contract_type: str,
    start: date,
    address: str,
    password: str,
) -> bool:
    if not existing:
        return False
    return (
        _normalize_text(existing.get("N51_KODAS_KT")) == contract_code
        and _normalize_text(existing.get("N51_KODAS_KS")) == client_code
        and _normalize_text(existing.get("N51_PAV")) == contract_code
        and _normalize_date(existing.get("N51_OP_DATA")) == start
        and _normalize_date(existing.get("N51_BEG_DATE")) == start
        and _normalize_text(existing.get("N51_TIPAS")) == contract_type
        and _normalize_text(existing.get("N51_APRASYMAS1")) == address
        and _normalize_text(existing.get("N51_APRASYMAS2")) == password
    )


def _choose_contract_type(conn: "pyodbc.Connection") -> Optional[str]:
    cursor = conn.cursor()
    cursor.execute(
        """
        SELECT N51_TIPAS, COUNT(*) AS cnt
        FROM dbo.N51_SUTH
        WHERE N51_TIPAS IS NOT NULL
        GROUP BY N51_TIPAS
        ORDER BY cnt DESC, N51_TIPAS
        """
    )
    row = cursor.fetchone()
    if not row:
        return None
    return str(row[0]).strip()


def _build_address(row: Dict[str, object]) -> str:
    parts = []
    gatve = (row.get("gatve") or "").strip()
    namas = (row.get("namas") or "").strip()
    miestas = (row.get("miestas") or "").strip()
    rajonas = (row.get("rajonas") or "").strip()
    if gatve or namas:
        parts.append(" ".join(p for p in [gatve, namas] if p))
    if miestas:
        parts.append(miestas)
    if rajonas:
        parts.append(rajonas)
    return ", ".join(parts)


def _create_contract(
    api_key: str,
    contract_code: str,
    client_code: str,
    start: date,
    contract_type: str,
    address: str,
    password: str,
) -> None:
    payload = {
        "method": "EDIT_N51_FULL",
        "params": {
            "oper": "I",
            "user": api_key.split(".", 1)[0],
        },
        "data": {
            "N51": {
                "N51_KODAS_KT": contract_code,
                "N51_KODAS_KS": client_code,
                "N51_PAV": contract_code,
                "N51_OP_DATA": start.isoformat(),
                "N51_BEG_DATE": start.isoformat(),
                "N51_TIPAS": contract_type,
                "N51_APRASYMAS1": address,
                "N51_APRASYMAS2": password,
            }
        },
    }
    _post(api_key, payload)


def _update_contract(
    api_key: str,
    contract_code: str,
    client_code: str,
    contract_type: str,
    address: str,
    password: str,
    start: date,
) -> None:
    payload = {
        "method": "EDIT_N51",
        "params": {
            "oper": "U",
            "user": api_key.split(".", 1)[0],
            "fld": "N51_KODAS_KT",
            "val": contract_code,
        },
        "data": {
            "N51": {
                "N51_KODAS_KT": contract_code,
                "N51_KODAS_KS": client_code,
                "N51_PAV": contract_code,
                "N51_TIPAS": contract_type,
                "N51_OP_DATA": start.isoformat(),
                "N51_BEG_DATE": start.isoformat(),
                "N51_APRASYMAS1": address,
                "N51_APRASYMAS2": password,
            }
        },
    }
    _post(api_key, payload)


def _parse_args() -> argparse.Namespace:
    parser = argparse.ArgumentParser()
    parser.add_argument("--user-id", dest="user_id")
    parser.add_argument("--sutartis-id", dest="sutartis_id")
    return parser.parse_args()


def _get_sutarties_kodas(args: argparse.Namespace) -> str:
    sutarties_kodas = (args.sutartis_id or "").strip()
    if sutarties_kodas:
        return sutarties_kodas
    return input("Sutarties kodas: ").strip()


def _get_user_id(args: argparse.Namespace) -> str:
    return (args.user_id or "").strip()


def main() -> None:
    args = _parse_args()
    sutarties_kodas = _get_sutarties_kodas(args)
    if not sutarties_kodas:
        print("Missing sutarties kodas.")
        return

    rows = list(_fetch_rows(sutarties_kodas))
    if not rows:
        print("No sutartis rows found.")
        return

    row = rows[0]
    client_code = _get_user_id(args) or str(row.get("client_code") or "").strip()
    if not client_code:
        raise RuntimeError("Missing client code for sutartis.")

    contract_code = f"SUT-{sutarties_kodas}"
    start_date = _normalize_date(row.get("data"))
    address = _build_address(row)
    password = str(row.get("password") or "").strip()

    api_key = _get_api_key()
    mssql_conn = connect_to_mssql()
    if mssql_conn is None:
        raise RuntimeError("Failed to connect to MSSQL.")
    try:
        contract_type = _choose_contract_type(mssql_conn)
        if not contract_type:
            raise RuntimeError("Failed to resolve N51_TIPAS for Pardavimo.")

        existing = _fetch_existing_contract(mssql_conn, contract_code)
        if _is_desired_contract(
            existing,
            contract_code,
            client_code,
            contract_type,
            start_date,
            address,
            password,
        ):
            print("Already in desired state; no changes.")
            return

        if existing:
            _update_contract(
                api_key,
                contract_code,
                client_code,
                contract_type,
                address,
                password,
                start_date,
            )
            print(f"Updated contract {contract_code}")
        else:
            _create_contract(
                api_key,
                contract_code,
                client_code,
                start_date,
                contract_type,
                address,
                password,
            )
            print(f"Created contract {contract_code}")
    finally:
        mssql_conn.close()


if __name__ == "__main__":
    main()