web/database-lib/database_lib/cache_db.py
2024-02-23 13:01:31 +06:00

124 lines
4.9 KiB
Python

from typing import Union
import sqlite3
import json
from loguru import logger
from warnings import warn
try:
import sqlite_zstd
except ImportError:
logger.debug("Can't use zstd compression. Please install 'sqlite_zstd' package")
warn("Can't use zstd compression. Please install 'sqlite_zstd' package")
sqlite_zstd = None
class CacheResponse:
__slots__ = ('data',)
def __init__(self, data: str):
self.data = data
def json(self):
return json.loads(self.data)
def __repr__(self):
return self.data
def __str__(self):
return self.data
class SQLiteCacheBackend:
__slots__ = ('connection', 'cursor')
def __init__(self, database: str):
self.connection = sqlite3.connect(database)
self.connection.enable_load_extension(True) # Enable loading of extensions
self.connection.execute("PRAGMA foreign_keys = ON;") # Need for working with foreign keys in db
self.connection.execute("PRAGMA journal_mode=WAL;") # Need to properly work with ZSTD compression
self.connection.execute("PRAGMA auto_vacuum=full;") # Same as above thing
self.cursor = self.connection.cursor()
if sqlite_zstd is not None:
sqlite_zstd.load(self.connection)
def all(self):
with self.connection:
return self.cursor.execute("SELECT * FROM cache").fetchall()
def all_length(self) -> int:
with self.connection:
return self.cursor.execute("SELECT COUNT(*) FROM cache").fetchone()[0]
def random(self, size: int):
with self.connection:
return self.cursor.execute("SELECT * FROM cache ORDER BY RANDOM() LIMIT ?", (size,)).fetchall()
def enable_zstd(self):
if sqlite_zstd is None:
raise ValueError("Can't use zstd compression. Please install 'sqlite_zstd' package")
with self.connection:
try:
self.cursor.execute("SELECT zstd_enable_transparent('{\"table\": \"cache\", \"column\": \"value\", \"compression_level\": 9, \"dict_chooser\": \"''a''\"}')")
except Exception as error:
print(error)
self.connection.execute("PRAGMA auto_vacuum=full")
self.cursor.execute("SELECT zstd_incremental_maintenance(null, 1);")
self.cursor.execute("vacuum;")
def init_db(self):
with self.connection:
self.cursor.execute("CREATE TABLE IF NOT EXISTS cache (key TEXT PRIMARY KEY, value TEXT)")
# self.cursor.execute("CREATE INDEX IF NOT EXISTS idx_key ON cache (key)")
def pull(self, key: str) -> Union[CacheResponse, None]:
with self.connection:
cache = self.cursor.execute("SELECT value FROM cache WHERE key = :0", {'0': key}).fetchone()
if cache:
logger.debug("Value found in DB, returning it")
return CacheResponse(cache[0])
else:
logger.debug(f"No value found for key: {key}")
return None
def push(self, key: str, value: Union[str, dict]) -> None:
if isinstance(value, dict):
try:
value = json.dumps(value)
except TypeError as e:
raise ValueError(f"Unable to serialize value to JSON: {e}")
elif not isinstance(value, str):
raise ValueError(f"value argument should be a string or dict, not {type(value).__name__}")
with self.connection:
self.cursor.execute("INSERT OR REPLACE INTO cache VALUES (:0, :1)", {'0': key, '1': value})
def delete(self, key: str) -> None:
with self.connection:
result = self.cursor.execute("SELECT 1 FROM cache WHERE key = :0", {'0': key}).fetchone()
if result:
self.cursor.execute("DELETE FROM cache WHERE key = :0", {'0': key})
logger.debug(f"Deleted key: {key}")
else:
logger.debug(f"Attempted to delete non-existing key: {key}")
def maintenance(self):
with self.connection:
self.cursor.execute("VACUUM")
self.cursor.execute("ANALYZE")
def migrate_add_index_to_key(self):
with self.connection:
# Check if the index already exists
index_exists = self.cursor.execute("SELECT name FROM sqlite_master WHERE type='index' AND name='idx_key'").fetchone()
if not index_exists:
# Create the index if it doesn't exist
self.cursor.execute("CREATE INDEX idx_key ON cache (key)")
logger.info("Index 'idx_key' on column 'key' created successfully.")
else:
logger.info("Index 'idx_key' on column 'key' already exists.")
def show_schema_info(self):
with self.connection:
return self.connection.execute("SELECT sql FROM sqlite_master").fetchall()
def close(self):
self.__del__()
def __del__(self) -> None:
self.connection.close()