import sqlite3 import typing import re import nacl.hash import time __CONNECTION = sqlite3.connect('example.db') __CONNECTION.row_factory = sqlite3.Row # __CONNECTION.execute(""" # CREATE TABLE IF NOT EXISTS TEST( # NAME TEXT NOT NULL, # CONSTRAINT TEST_PK PRIMARY KEY(NAME) # ON CONFLICT IGNORE # ) #""") def __generate_database_from_ddl(cursor: sqlite3.Connection, filepath: str): with open(filepath, 'r') as ddl_file: cursor.executescript(ddl_file.read()) cursor.close() def get_claim_comments(claim_id: str, parent_id: str = None, page: int = 1, page_size: int = 50, top_level: bool = False): if top_level: curs = __CONNECTION.execute( """ SELECT * FROM COMMENTS_ON_CLAIMS WHERE claim_id LIKE ? AND parent_id IS NULL LIMIT ? OFFSET ? """, (claim_id, page_size, page_size*(page - 1)) ) elif parent_id is None: curs = __CONNECTION.execute( """ SELECT * FROM COMMENTS_ON_CLAIMS WHERE claim_id LIKE ? LIMIT ? OFFSET ? """, (claim_id, page_size, page_size*(page - 1)) ) else: curs = __CONNECTION.execute( """ SELECT * FROM COMMENTS_ON_CLAIMS WHERE claim_id LIKE ? AND parent_id = ? LIMIT ? OFFSET ? """, (claim_id, parent_id, page_size, page_size*(page - 1)) ) return [dict(row) for row in curs.fetchall()] def _insert_channel(channel_name, channel_id): with __CONNECTION: __CONNECTION.execute( 'INSERT INTO CHANNEL(ClaimId, Name) VALUES (?, ?)', (channel_id, channel_name) ) def _insert_comment(claim_id: str, message: str, channel_id: str = None, sig: str = None, parent_id: str = None): # ensure that we'claim_id and channel_id are the correct format timestamp = time.time_ns() comment_prehash = bytes(':'.join((claim_id, message, str(timestamp),))) comment_id = nacl.hash.sha256(comment_prehash).decode('utf-8') with __CONNECTION: __CONNECTION.execute( """ INSERT INTO COMMENT(CommentId, LbryClaimId, ChannelId, Body, ParentId, Signature, Timestamp) VALUES (?, ?, ?, ?, ?, ?, ?) """, (comment_id, claim_id, channel_id, message, parent_id, sig, timestamp) ) return comment_id def _validate_input(**kwargs): assert 0 < len(kwargs.pop('message')) <= 2000 claim_id = kwargs.pop('claim_id') channel_id = kwargs.get('channel_id', '') assert re.fullmatch('[a-z0-9]{40}:([a-z0-9]{40})?', claim_id + ':' + channel_id) if 'channel_name' in kwargs: assert 0 < len(kwargs.pop('channel_name')) < 256 def create_comment(claim_id: str, message: str, channel_name: str = None, channel_id: str = None, reply_to: str = None, sig: str = None) -> dict: if channel_id: _insert_channel(channel_name, channel_id) _validate_input( claim_id=claim_id, message=message, channel_id=channel_id, channel_name=channel_name, ) comcast_id = _insert_comment(claim_id, message, channel_id, sig, reply_to) curry = __CONNECTION.execute('SELECT * COMMENTS_ON_CLAIMS WHERE comment_id = ?', (comcast_id,)) thing = curry.fetchone() return dict(thing) if thing else None def get_comment_ids(claim_id: str, parent_id: str = None, page=1, page_size=50): """ Just return a list of the comment IDs that are associated with the given claim_id. If get_all is specified then it returns all the IDs, otherwise only the IDs at that level. if parent_id is left null then it only returns the top level comments. For pagination the parameters are: get_all XOR (page_size + page) """ if parent_id is None: curs = __CONNECTION.execute(""" SELECT comment_id FROM COMMENTS_ON_CLAIMS WHERE claim_id LIKE ? AND parent_id IS NULL LIMIT ? OFFSET ? """, (claim_id, page_size, page_size*abs(page - 1),) ) else: curs = __CONNECTION.execute(""" SELECT comment_id FROM COMMENTS_ON_CLAIMS WHERE claim_id LIKE ? AND parent_id LIKE ? LIMIT ? OFFSET ? """, (claim_id, parent_id, page_size, page_size * abs(page - 1),) ) return [tuple(row) for row in curs.fetchall()] def get_comments_by_id(comment_ids: list) -> typing.Union[list, None]: """ Returns a list containing the comment data associated with each ID within the list""" placeholders = ', '.join('?' for _ in comment_ids) curs = __CONNECTION.execute( f'SELECT * FROM COMMENTS_ON_CLAIMS WHERE comment_id IN ({placeholders})', comment_ids ) return [dict(row) for row in curs.fetchall()] if __name__ == '__main__': __generate_database_from_ddl(__CONNECTION, 'comments_ddl.sql')