lnbits-legend/lnbits/db.py
dni ⚡ b145bff566 chore: adhere to ruff's UP
basically use `list` and `type` instead of `List` and `Type`

this is save to use for python3.9 and has been deprecated. also has some
performance drawbacks.
read more here: https://docs.astral.sh/ruff/rules/non-pep585-annotation/
2024-04-15 13:38:04 +02:00

510 lines
16 KiB
Python

from __future__ import annotations
import asyncio
import datetime
import os
import re
import time
from contextlib import asynccontextmanager
from enum import Enum
from sqlite3 import Row
from typing import Any, Generic, Literal, Optional, TypeVar
from loguru import logger
from pydantic import BaseModel, ValidationError, root_validator
from sqlalchemy import create_engine
from sqlalchemy_aio.base import AsyncConnection
from sqlalchemy_aio.strategy import ASYNCIO_STRATEGY
from lnbits.settings import settings
POSTGRES = "POSTGRES"
COCKROACH = "COCKROACH"
SQLITE = "SQLITE"
if settings.lnbits_database_url:
database_uri = settings.lnbits_database_url
if database_uri.startswith("cockroachdb://"):
DB_TYPE = COCKROACH
else:
DB_TYPE = POSTGRES
from psycopg2.extensions import DECIMAL, new_type, register_type
def _parse_timestamp(value, _):
if value is None:
return None
f = "%Y-%m-%d %H:%M:%S.%f"
if "." not in value:
f = "%Y-%m-%d %H:%M:%S"
return time.mktime(datetime.datetime.strptime(value, f).timetuple())
register_type(
new_type(
DECIMAL.values,
"DEC2FLOAT",
lambda value, curs: float(value) if value is not None else None,
)
)
register_type(new_type((1184, 1114), "TIMESTAMP2INT", _parse_timestamp))
else:
if not os.path.isdir(settings.lnbits_data_folder):
os.mkdir(settings.lnbits_data_folder)
logger.info(f"Created {settings.lnbits_data_folder}")
DB_TYPE = SQLITE
def compat_timestamp_placeholder():
if DB_TYPE == POSTGRES:
return "to_timestamp(?)"
elif DB_TYPE == COCKROACH:
return "cast(? AS timestamp)"
else:
return "?"
class Compat:
type: Optional[str] = "<inherited>"
schema: Optional[str] = "<inherited>"
def interval_seconds(self, seconds: int) -> str:
if self.type in {POSTGRES, COCKROACH}:
return f"interval '{seconds} seconds'"
elif self.type == SQLITE:
return f"{seconds}"
return "<nothing>"
def datetime_to_timestamp(self, date: datetime.datetime):
if self.type in {POSTGRES, COCKROACH}:
return date.strftime("%Y-%m-%d %H:%M:%S")
elif self.type == SQLITE:
return time.mktime(date.timetuple())
return "<nothing>"
@property
def timestamp_now(self) -> str:
if self.type in {POSTGRES, COCKROACH}:
return "now()"
elif self.type == SQLITE:
return "(strftime('%s', 'now'))"
return "<nothing>"
@property
def timestamp_column_default(self) -> str:
if self.type in {POSTGRES, COCKROACH}:
return self.timestamp_now
return "NULL"
@property
def serial_primary_key(self) -> str:
if self.type in {POSTGRES, COCKROACH}:
return "SERIAL PRIMARY KEY"
elif self.type == SQLITE:
return "INTEGER PRIMARY KEY AUTOINCREMENT"
return "<nothing>"
@property
def references_schema(self) -> str:
if self.type in {POSTGRES, COCKROACH}:
return f"{self.schema}."
elif self.type == SQLITE:
return ""
return "<nothing>"
@property
def big_int(self) -> str:
if self.type in {POSTGRES}:
return "BIGINT"
return "INT"
@property
def timestamp_placeholder(self) -> str:
return compat_timestamp_placeholder()
class Connection(Compat):
def __init__(self, conn: AsyncConnection, txn, typ, name, schema):
self.conn = conn
self.txn = txn
self.type = typ
self.name = name
self.schema = schema
def rewrite_query(self, query) -> str:
if self.type in {POSTGRES, COCKROACH}:
query = query.replace("%", "%%")
query = query.replace("?", "%s")
return query
def rewrite_values(self, values):
# strip html
clean_regex = re.compile("<.*?>|&([a-z0-9]+|#[0-9]{1,6}|#x[0-9a-f]{1,6});")
# tuple to list and back to tuple
raw_values = [values] if isinstance(values, str) else list(values)
values = []
for raw_value in raw_values:
if isinstance(raw_value, str):
values.append(re.sub(clean_regex, "", raw_value))
elif isinstance(raw_value, datetime.datetime):
ts = raw_value.timestamp()
if self.type == SQLITE:
values.append(int(ts))
else:
values.append(ts)
else:
values.append(raw_value)
return tuple(values)
async def fetchall(self, query: str, values: tuple = ()) -> list:
result = await self.conn.execute(
self.rewrite_query(query), self.rewrite_values(values)
)
return await result.fetchall()
async def fetchone(self, query: str, values: tuple = ()):
result = await self.conn.execute(
self.rewrite_query(query), self.rewrite_values(values)
)
row = await result.fetchone()
await result.close()
return row
async def fetch_page(
self,
query: str,
where: Optional[list[str]] = None,
values: Optional[list[str]] = None,
filters: Optional[Filters] = None,
model: Optional[type[TRowModel]] = None,
group_by: Optional[list[str]] = None,
) -> Page[TRowModel]:
if not filters:
filters = Filters()
clause = filters.where(where)
parsed_values = filters.values(values)
group_by_string = ""
if group_by:
for field in group_by:
if not re.fullmatch(
r"[a-zA-Z_][a-zA-Z0-9_]*(\.[a-zA-Z_][a-zA-Z0-9_]*)?", field
):
raise ValueError("Value for GROUP BY is invalid")
group_by_string = f"GROUP BY {', '.join(group_by)}"
rows = await self.fetchall(
f"""
{query}
{clause}
{group_by_string}
{filters.order_by()}
{filters.pagination()}
""",
parsed_values,
)
if rows:
# no need for extra query if no pagination is specified
if filters.offset or filters.limit:
count = await self.fetchone(
f"""
SELECT COUNT(*) FROM (
{query}
{clause}
{group_by_string}
) as count
""",
parsed_values,
)
count = int(count[0])
else:
count = len(rows)
else:
count = 0
return Page(
data=[model.from_row(row) for row in rows] if model else rows,
total=count,
)
async def execute(self, query: str, values: tuple = ()):
return await self.conn.execute(
self.rewrite_query(query), self.rewrite_values(values)
)
class Database(Compat):
def __init__(self, db_name: str):
self.name = db_name
self.schema = self.name
self.type = DB_TYPE
if DB_TYPE == SQLITE:
self.path = os.path.join(
settings.lnbits_data_folder, f"{self.name}.sqlite3"
)
database_uri = f"sqlite:///{self.path}"
else:
database_uri = settings.lnbits_database_url
if self.name.startswith("ext_"):
self.schema = self.name[4:]
else:
self.schema = None
self.engine = create_engine(
database_uri, strategy=ASYNCIO_STRATEGY, echo=settings.debug_database
)
self.lock = asyncio.Lock()
logger.trace(f"database {self.type} added for {self.name}")
@asynccontextmanager
async def connect(self):
await self.lock.acquire()
try:
async with self.engine.connect() as conn: # type: ignore
async with conn.begin() as txn:
wconn = Connection(conn, txn, self.type, self.name, self.schema)
if self.schema:
if self.type in {POSTGRES, COCKROACH}:
await wconn.execute(
f"CREATE SCHEMA IF NOT EXISTS {self.schema}"
)
elif self.type == SQLITE:
await wconn.execute(
f"ATTACH '{self.path}' AS {self.schema}"
)
yield wconn
finally:
self.lock.release()
async def fetchall(self, query: str, values: tuple = ()) -> list:
async with self.connect() as conn:
result = await conn.execute(query, values)
return await result.fetchall()
async def fetchone(self, query: str, values: tuple = ()):
async with self.connect() as conn:
result = await conn.execute(query, values)
row = await result.fetchone()
await result.close()
return row
async def fetch_page(
self,
query: str,
where: Optional[list[str]] = None,
values: Optional[list[str]] = None,
filters: Optional[Filters] = None,
model: Optional[type[TRowModel]] = None,
group_by: Optional[list[str]] = None,
) -> Page[TRowModel]:
async with self.connect() as conn:
return await conn.fetch_page(query, where, values, filters, model, group_by)
async def execute(self, query: str, values: tuple = ()):
async with self.connect() as conn:
return await conn.execute(query, values)
@asynccontextmanager
async def reuse_conn(self, conn: Connection):
yield conn
@classmethod
async def clean_ext_db_files(cls, ext_id: str) -> bool:
"""
If the extension DB is stored directly on the filesystem (like SQLite) then
delete the files and return True. Otherwise do nothing and return False.
"""
if DB_TYPE == SQLITE:
db_file = os.path.join(settings.lnbits_data_folder, f"ext_{ext_id}.sqlite3")
if os.path.isfile(db_file):
os.remove(db_file)
return True
return False
class Operator(Enum):
GT = "gt"
LT = "lt"
EQ = "eq"
NE = "ne"
GE = "ge"
LE = "le"
INCLUDE = "in"
EXCLUDE = "ex"
@property
def as_sql(self):
if self == Operator.EQ:
return "="
elif self == Operator.NE:
return "!="
elif self == Operator.INCLUDE:
return "IN"
elif self == Operator.EXCLUDE:
return "NOT IN"
elif self == Operator.GT:
return ">"
elif self == Operator.LT:
return "<"
elif self == Operator.GE:
return ">="
elif self == Operator.LE:
return "<="
else:
raise ValueError("Unknown SQL Operator")
class FromRowModel(BaseModel):
@classmethod
def from_row(cls, row: Row):
return cls(**dict(row))
class FilterModel(BaseModel):
__search_fields__: list[str] = []
__sort_fields__: Optional[list[str]] = None
T = TypeVar("T")
TModel = TypeVar("TModel", bound=BaseModel)
TRowModel = TypeVar("TRowModel", bound=FromRowModel)
TFilterModel = TypeVar("TFilterModel", bound=FilterModel)
class Page(BaseModel, Generic[T]):
data: list[T]
total: int
class Filter(BaseModel, Generic[TFilterModel]):
field: str
op: Operator = Operator.EQ
values: list[Any]
model: Optional[type[TFilterModel]]
@classmethod
def parse_query(cls, key: str, raw_values: list[Any], model: type[TFilterModel]):
# Key format:
# key[operator]
# e.g. name[eq]
if key.endswith("]"):
split = key[:-1].split("[")
if len(split) != 2:
raise ValueError("Invalid key")
field = split[0]
op = Operator(split[1])
else:
field = key
op = Operator("eq")
if field in model.__fields__:
compare_field = model.__fields__[field]
values = []
for raw_value in raw_values:
validated, errors = compare_field.validate(raw_value, {}, loc="none")
if errors:
raise ValidationError(errors=[errors], model=model)
values.append(validated)
else:
raise ValueError("Unknown filter field")
return cls(field=field, op=op, values=values, model=model)
@property
def statement(self):
if self.model and self.model.__fields__[self.field].type_ == datetime.datetime:
placeholder = compat_timestamp_placeholder()
else:
placeholder = "?"
if self.op in (Operator.INCLUDE, Operator.EXCLUDE):
placeholders = ", ".join([placeholder] * len(self.values))
stmt = [f"{self.field} {self.op.as_sql} ({placeholders})"]
else:
stmt = [f"{self.field} {self.op.as_sql} {placeholder}"] * len(self.values)
return " OR ".join(stmt)
class Filters(BaseModel, Generic[TFilterModel]):
"""
Generic helper class for filtering and sorting data.
For usage in an api endpoint, use the `parse_filters` dependency.
When constructing this class manually always make sure to pass a model so that
the values can be validated. Otherwise, make sure to validate the inputs manually.
"""
filters: list[Filter[TFilterModel]] = []
search: Optional[str] = None
offset: Optional[int] = None
limit: Optional[int] = None
sortby: Optional[str] = None
direction: Optional[Literal["asc", "desc"]] = None
model: Optional[type[TFilterModel]] = None
@root_validator(pre=True)
def validate_sortby(cls, values):
sortby = values.get("sortby")
model = values.get("model")
if sortby and model:
model = values["model"]
# if no sort fields are specified explicitly all fields are allowed
allowed = model.__sort_fields__ or model.__fields__
if sortby not in allowed:
raise ValueError("Invalid sort field")
return values
def pagination(self) -> str:
stmt = ""
if self.limit:
stmt += f"LIMIT {self.limit} "
if self.offset:
stmt += f"OFFSET {self.offset}"
return stmt
def where(self, where_stmts: Optional[list[str]] = None) -> str:
if not where_stmts:
where_stmts = []
if self.filters:
for page_filter in self.filters:
where_stmts.append(page_filter.statement)
if self.search and self.model:
if DB_TYPE == POSTGRES:
where_stmts.append(
f"lower(concat({', '.join(self.model.__search_fields__)})) LIKE ?"
)
elif DB_TYPE == SQLITE:
where_stmts.append(
f"lower({'||'.join(self.model.__search_fields__)}) LIKE ?"
)
if where_stmts:
return "WHERE " + " AND ".join(where_stmts)
return ""
def order_by(self) -> str:
if self.sortby:
return f"ORDER BY {self.sortby} {self.direction or 'asc'}"
return ""
def values(self, values: Optional[list[str]] = None) -> tuple:
if not values:
values = []
if self.filters:
for page_filter in self.filters:
values.extend(page_filter.values)
if self.search and self.model:
values.append(f"%{self.search}%")
return tuple(values)