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[plomtask] / plomtask / db.py
1 """Database management."""
2 from __future__ import annotations
3 from os import listdir
4 from os.path import isfile
5 from difflib import Differ
6 from sqlite3 import connect as sql_connect, Cursor, Row
7 from typing import Any, Self, TypeVar, Generic
8 from plomtask.exceptions import HandledException, NotFoundException
9 from plomtask.dating import valid_date
10
11 EXPECTED_DB_VERSION = 5
12 MIGRATIONS_DIR = 'migrations'
13 FILENAME_DB_SCHEMA = f'init_{EXPECTED_DB_VERSION}.sql'
14 PATH_DB_SCHEMA = f'{MIGRATIONS_DIR}/{FILENAME_DB_SCHEMA}'
15
16
17 class UnmigratedDbException(HandledException):
18     """To identify case of unmigrated DB file."""
19
20
21 class DatabaseFile:
22     """Represents the sqlite3 database's file."""
23     # pylint: disable=too-few-public-methods
24
25     def __init__(self, path: str) -> None:
26         self.path = path
27         self._check()
28
29     @classmethod
30     def create_at(cls, path: str) -> DatabaseFile:
31         """Make new DB file at path."""
32         with sql_connect(path) as conn:
33             with open(PATH_DB_SCHEMA, 'r', encoding='utf-8') as f:
34                 conn.executescript(f.read())
35             conn.execute(f'PRAGMA user_version = {EXPECTED_DB_VERSION}')
36         return cls(path)
37
38     @classmethod
39     def migrate(cls, path: str) -> DatabaseFile:
40         """Apply migrations from_version to EXPECTED_DB_VERSION."""
41         migrations = cls._available_migrations()
42         from_version = cls._get_version_of_db(path)
43         migrations_todo = migrations[from_version+1:]
44         for j, filename in enumerate(migrations_todo):
45             with sql_connect(path) as conn:
46                 with open(f'{MIGRATIONS_DIR}/{filename}', 'r',
47                           encoding='utf-8') as f:
48                     conn.executescript(f.read())
49             user_version = from_version + j + 1
50             with sql_connect(path) as conn:
51                 conn.execute(f'PRAGMA user_version = {user_version}')
52         return cls(path)
53
54     def _check(self) -> None:
55         """Check file exists, and is of proper DB version and schema."""
56         if not isfile(self.path):
57             raise NotFoundException
58         if self._user_version != EXPECTED_DB_VERSION:
59             raise UnmigratedDbException()
60         self._validate_schema()
61
62     @staticmethod
63     def _available_migrations() -> list[str]:
64         """Validate migrations directory and return sorted entries."""
65         msg_too_big = 'Migration directory points beyond expected DB version.'
66         msg_bad_entry = 'Migration directory contains unexpected entry: '
67         msg_missing = 'Migration directory misses migration of number: '
68         migrations = {}
69         for entry in listdir(MIGRATIONS_DIR):
70             if entry == FILENAME_DB_SCHEMA:
71                 continue
72             toks = entry.split('_', 1)
73             if len(toks) < 2:
74                 raise HandledException(msg_bad_entry + entry)
75             try:
76                 i = int(toks[0])
77             except ValueError as e:
78                 raise HandledException(msg_bad_entry + entry) from e
79             if i > EXPECTED_DB_VERSION:
80                 raise HandledException(msg_too_big)
81             migrations[i] = toks[1]
82         migrations_list = []
83         for i in range(EXPECTED_DB_VERSION + 1):
84             if i not in migrations:
85                 raise HandledException(msg_missing + str(i))
86             migrations_list += [f'{i}_{migrations[i]}']
87         return migrations_list
88
89     @staticmethod
90     def _get_version_of_db(path: str) -> int:
91         """Get DB user_version, fail if outside expected range."""
92         sql_for_db_version = 'PRAGMA user_version'
93         with sql_connect(path) as conn:
94             db_version = list(conn.execute(sql_for_db_version))[0][0]
95         if db_version > EXPECTED_DB_VERSION:
96             msg = f'Wrong DB version, expected '\
97                     f'{EXPECTED_DB_VERSION}, got unknown {db_version}.'
98             raise HandledException(msg)
99         assert isinstance(db_version, int)
100         return db_version
101
102     @property
103     def _user_version(self) -> int:
104         """Get DB user_version."""
105         return self._get_version_of_db(self.path)
106
107     def _validate_schema(self) -> None:
108         """Compare found schema with what's stored at PATH_DB_SCHEMA."""
109
110         def reformat_rows(rows: list[str]) -> list[str]:
111             new_rows = []
112             for row in rows:
113                 new_row = []
114                 for subrow in row.split('\n'):
115                     subrow = subrow.rstrip()
116                     in_parentheses = 0
117                     split_at = []
118                     for i, c in enumerate(subrow):
119                         if '(' == c:
120                             in_parentheses += 1
121                         elif ')' == c:
122                             in_parentheses -= 1
123                         elif ',' == c and 0 == in_parentheses:
124                             split_at += [i + 1]
125                     prev_split = 0
126                     for i in split_at:
127                         segment = subrow[prev_split:i].strip()
128                         if len(segment) > 0:
129                             new_row += [f'    {segment}']
130                         prev_split = i
131                     segment = subrow[prev_split:].strip()
132                     if len(segment) > 0:
133                         new_row += [f'    {segment}']
134                 new_row[0] = new_row[0].lstrip()
135                 new_row[-1] = new_row[-1].lstrip()
136                 if new_row[-1] != ')' and new_row[-3][-1] != ',':
137                     new_row[-3] = new_row[-3] + ','
138                     new_row[-2:] = ['    ' + new_row[-1][:-1]] + [')']
139                 new_rows += ['\n'.join(new_row)]
140             return new_rows
141
142         sql_for_schema = 'SELECT sql FROM sqlite_master ORDER BY sql'
143         msg_err = 'Database has wrong tables schema. Diff:\n'
144         with sql_connect(self.path) as conn:
145             schema_rows = [r[0] for r in conn.execute(sql_for_schema) if r[0]]
146         schema_rows = reformat_rows(schema_rows)
147         retrieved_schema = ';\n'.join(schema_rows) + ';'
148         with open(PATH_DB_SCHEMA, 'r', encoding='utf-8') as f:
149             stored_schema = f.read().rstrip()
150         if stored_schema != retrieved_schema:
151             diff_msg = Differ().compare(retrieved_schema.splitlines(),
152                                         stored_schema.splitlines())
153             raise HandledException(msg_err + '\n'.join(diff_msg))
154
155
156 class DatabaseConnection:
157     """A single connection to the database."""
158
159     def __init__(self, db_file: DatabaseFile) -> None:
160         self.conn = sql_connect(db_file.path)
161
162     def commit(self) -> None:
163         """Commit SQL transaction."""
164         self.conn.commit()
165
166     def exec(self, code: str, inputs: tuple[Any, ...] = tuple()) -> Cursor:
167         """Add commands to SQL transaction."""
168         return self.conn.execute(code, inputs)
169
170     def exec_on_vals(self, code: str, inputs: tuple[Any, ...]) -> Cursor:
171         """Wrapper around .exec appending adequate " (?, …)" to code."""
172         q_marks_from_values = '(' + ','.join(['?'] * len(inputs)) + ')'
173         return self.exec(f'{code} {q_marks_from_values}', inputs)
174
175     def close(self) -> None:
176         """Close DB connection."""
177         self.conn.close()
178
179     def rewrite_relations(self, table_name: str, key: str, target: int | str,
180                           rows: list[list[Any]], key_index: int = 0) -> None:
181         # pylint: disable=too-many-arguments
182         """Rewrite relations in table_name to target, with rows values.
183
184         Note that single rows are expected without the column and value
185         identified by key and target, which are inserted inside the function
186         at key_index.
187         """
188         self.delete_where(table_name, key, target)
189         for row in rows:
190             values = tuple(row[:key_index] + [target] + row[key_index:])
191             self.exec_on_vals(f'INSERT INTO {table_name} VALUES', values)
192
193     def row_where(self, table_name: str, key: str,
194                   target: int | str) -> list[Row]:
195         """Return list of Rows at table where key == target."""
196         return list(self.exec(f'SELECT * FROM {table_name} WHERE {key} = ?',
197                               (target,)))
198
199     # def column_where_pattern(self,
200     #                          table_name: str,
201     #                          column: str,
202     #                          pattern: str,
203     #                          keys: list[str]) -> list[Any]:
204     #     """Return column of rows where one of keys matches pattern."""
205     #     targets = tuple([f'%{pattern}%'] * len(keys))
206     #     haystack = ' OR '.join([f'{k} LIKE ?' for k in keys])
207     #     sql = f'SELECT {column} FROM {table_name} WHERE {haystack}'
208     #     return [row[0] for row in self.exec(sql, targets)]
209
210     def column_where(self, table_name: str, column: str, key: str,
211                      target: int | str) -> list[Any]:
212         """Return column of table where key == target."""
213         return [row[0] for row in
214                 self.exec(f'SELECT {column} FROM {table_name} '
215                           f'WHERE {key} = ?', (target,))]
216
217     def column_all(self, table_name: str, column: str) -> list[Any]:
218         """Return complete column of table."""
219         return [row[0] for row in
220                 self.exec(f'SELECT {column} FROM {table_name}')]
221
222     def delete_where(self, table_name: str, key: str,
223                      target: int | str) -> None:
224         """Delete from table where key == target."""
225         self.exec(f'DELETE FROM {table_name} WHERE {key} = ?', (target,))
226
227
228 BaseModelId = TypeVar('BaseModelId', int, str)
229 BaseModelInstance = TypeVar('BaseModelInstance', bound='BaseModel[Any]')
230
231
232 class BaseModel(Generic[BaseModelId]):
233     """Template for most of the models we use/derive from the DB."""
234     table_name = ''
235     to_save: list[str] = []
236     to_save_versioned: list[str] = []
237     to_save_relations: list[tuple[str, str, str, int]] = []
238     id_: None | BaseModelId
239     cache_: dict[BaseModelId, Self]
240     to_search: list[str] = []
241     _exists = True
242
243     def __init__(self, id_: BaseModelId | None) -> None:
244         if isinstance(id_, int) and id_ < 1:
245             msg = f'illegal {self.__class__.__name__} ID, must be >=1: {id_}'
246             raise HandledException(msg)
247         if isinstance(id_, str) and "" == id_:
248             msg = f'illegal {self.__class__.__name__} ID, must be non-empty'
249             raise HandledException(msg)
250         self.id_ = id_
251
252     def __hash__(self) -> int:
253         hashable = [self.id_] + [getattr(self, name) for name in self.to_save]
254         for definition in self.to_save_relations:
255             attr = getattr(self, definition[2])
256             hashable += [tuple(rel.id_ for rel in attr)]
257         for name in self.to_save_versioned:
258             hashable += [hash(getattr(self, name))]
259         return hash(tuple(hashable))
260
261     def __eq__(self, other: object) -> bool:
262         if not isinstance(other, self.__class__):
263             return False
264         return hash(self) == hash(other)
265
266     def __lt__(self, other: Any) -> bool:
267         if not isinstance(other, self.__class__):
268             msg = 'cannot compare to object of different class'
269             raise HandledException(msg)
270         assert isinstance(self.id_, int)
271         assert isinstance(other.id_, int)
272         return self.id_ < other.id_
273
274     @property
275     def as_dict(self) -> dict[str, object]:
276         """Return self as (json.dumps-coompatible) dict."""
277         d: dict[str, object] = {'id': self.id_}
278         if len(self.to_save_versioned) > 0:
279             d['_versioned'] = {}
280         for k in self.to_save:
281             attr = getattr(self, k)
282             if hasattr(attr, 'as_dict'):
283                 d[k] = attr.as_dict
284             d[k] = attr
285         for k in self.to_save_versioned:
286             attr = getattr(self, k)
287             assert isinstance(d['_versioned'], dict)
288             d['_versioned'][k] = attr.history
289         for r in self.to_save_relations:
290             attr_name = r[2]
291             d[attr_name] = [x.as_dict for x in getattr(self, attr_name)]
292         return d
293
294     # cache management
295     # (we primarily use the cache to ensure we work on the same object in
296     # memory no matter where and how we retrieve it, e.g. we don't want
297     # .by_id() calls to create a new object each time, but rather a pointer
298     # to the one already instantiated)
299
300     def __getattribute__(self, name: str) -> Any:
301         """Ensure fail if ._disappear() was called, except to check ._exists"""
302         if name != '_exists' and not super().__getattribute__('_exists'):
303             raise HandledException('Object does not exist.')
304         return super().__getattribute__(name)
305
306     def _disappear(self) -> None:
307         """Invalidate object, make future use raise exceptions."""
308         assert self.id_ is not None
309         if self._get_cached(self.id_):
310             self._uncache()
311         to_kill = list(self.__dict__.keys())
312         for attr in to_kill:
313             delattr(self, attr)
314         self._exists = False
315
316     @classmethod
317     def empty_cache(cls) -> None:
318         """Empty class's cache, and disappear all former inhabitants."""
319         # pylint: disable=protected-access
320         # (cause we remain within the class)
321         if hasattr(cls, 'cache_'):
322             to_disappear = list(cls.cache_.values())
323             for item in to_disappear:
324                 item._disappear()
325         cls.cache_ = {}
326
327     @classmethod
328     def get_cache(cls: type[BaseModelInstance]) -> dict[Any, BaseModel[Any]]:
329         """Get cache dictionary, create it if not yet existing."""
330         if not hasattr(cls, 'cache_'):
331             d: dict[Any, BaseModel[Any]] = {}
332             cls.cache_ = d
333         return cls.cache_
334
335     @classmethod
336     def _get_cached(cls: type[BaseModelInstance],
337                     id_: BaseModelId) -> BaseModelInstance | None:
338         """Get object of id_ from class's cache, or None if not found."""
339         # pylint: disable=consider-iterating-dictionary
340         cache = cls.get_cache()
341         if id_ in cache.keys():
342             obj = cache[id_]
343             assert isinstance(obj, cls)
344             return obj
345         return None
346
347     def cache(self) -> None:
348         """Update object in class's cache.
349
350         Also calls ._disappear if cache holds older reference to object of same
351         ID, but different memory address, to avoid doing anything with
352         dangling leftovers.
353         """
354         if self.id_ is None:
355             raise HandledException('Cannot cache object without ID.')
356         cache = self.get_cache()
357         old_cached = self._get_cached(self.id_)
358         if old_cached and id(old_cached) != id(self):
359             # pylint: disable=protected-access
360             # (cause we remain within the class)
361             old_cached._disappear()
362         cache[self.id_] = self
363
364     def _uncache(self) -> None:
365         """Remove self from cache."""
366         if self.id_ is None:
367             raise HandledException('Cannot un-cache object without ID.')
368         cache = self.get_cache()
369         del cache[self.id_]
370
371     # object retrieval and generation
372
373     @classmethod
374     def from_table_row(cls: type[BaseModelInstance],
375                        # pylint: disable=unused-argument
376                        db_conn: DatabaseConnection,
377                        row: Row | list[Any]) -> BaseModelInstance:
378         """Make from DB row (sans relations), update DB cache with it."""
379         obj = cls(*row)
380         assert obj.id_ is not None
381         for attr_name in cls.to_save_versioned:
382             attr = getattr(obj, attr_name)
383             table_name = attr.table_name
384             for row_ in db_conn.row_where(table_name, 'parent', obj.id_):
385                 attr.history_from_row(row_)
386         obj.cache()
387         return obj
388
389     @classmethod
390     def by_id(cls, db_conn: DatabaseConnection,
391               id_: BaseModelId | None,
392               # pylint: disable=unused-argument
393               create: bool = False) -> Self:
394         """Retrieve by id_, on failure throw NotFoundException.
395
396         First try to get from cls.cache_, only then check DB; if found,
397         put into cache.
398
399         If create=True, make anew (but do not cache yet).
400         """
401         obj = None
402         if id_ is not None:
403             obj = cls._get_cached(id_)
404             if not obj:
405                 for row in db_conn.row_where(cls.table_name, 'id', id_):
406                     obj = cls.from_table_row(db_conn, row)
407                     break
408         if obj:
409             return obj
410         if create:
411             obj = cls(id_)
412             return obj
413         raise NotFoundException(f'found no object of ID {id_}')
414
415     @classmethod
416     def all(cls: type[BaseModelInstance],
417             db_conn: DatabaseConnection) -> list[BaseModelInstance]:
418         """Collect all objects of class into list.
419
420         Note that this primarily returns the contents of the cache, and only
421         _expands_ that by additional findings in the DB. This assumes the
422         cache is always instantly cleaned of any items that would be removed
423         from the DB.
424         """
425         items: dict[BaseModelId, BaseModelInstance] = {}
426         for k, v in cls.get_cache().items():
427             assert isinstance(v, cls)
428             items[k] = v
429         already_recorded = items.keys()
430         for id_ in db_conn.column_all(cls.table_name, 'id'):
431             if id_ not in already_recorded:
432                 item = cls.by_id(db_conn, id_)
433                 assert item.id_ is not None
434                 items[item.id_] = item
435         return list(items.values())
436
437     @classmethod
438     def by_date_range_with_limits(cls: type[BaseModelInstance],
439                                   db_conn: DatabaseConnection,
440                                   date_range: tuple[str, str],
441                                   date_col: str = 'day'
442                                   ) -> tuple[list[BaseModelInstance], str,
443                                              str]:
444         """Return list of items in database within (open) date_range interval.
445
446         If no range values provided, defaults them to 'yesterday' and
447         'tomorrow'. Knows to properly interpret these and 'today' as value.
448         """
449         start_str = date_range[0] if date_range[0] else 'yesterday'
450         end_str = date_range[1] if date_range[1] else 'tomorrow'
451         start_date = valid_date(start_str)
452         end_date = valid_date(end_str)
453         items = []
454         sql = f'SELECT id FROM {cls.table_name} '
455         sql += f'WHERE {date_col} >= ? AND {date_col} <= ?'
456         for row in db_conn.exec(sql, (start_date, end_date)):
457             items += [cls.by_id(db_conn, row[0])]
458         return items, start_date, end_date
459
460     @classmethod
461     def matching(cls: type[BaseModelInstance], db_conn: DatabaseConnection,
462                  pattern: str) -> list[BaseModelInstance]:
463         """Return all objects whose .to_search match pattern."""
464         items = cls.all(db_conn)
465         if pattern:
466             filtered = []
467             for item in items:
468                 for attr_name in cls.to_search:
469                     toks = attr_name.split('.')
470                     parent = item
471                     for tok in toks:
472                         attr = getattr(parent, tok)
473                         parent = attr
474                     if pattern in attr:
475                         filtered += [item]
476                         break
477             return filtered
478         return items
479
480     # database writing
481
482     def save(self, db_conn: DatabaseConnection) -> None:
483         """Write self to DB and cache and ensure .id_.
484
485         Write both to DB, and to cache. To DB, write .id_ and attributes
486         listed in cls.to_save[_versioned|_relations].
487
488         Ensure self.id_ by setting it to what the DB command returns as the
489         last saved row's ID (cursor.lastrowid), EXCEPT if self.id_ already
490         exists as a 'str', which implies we do our own ID creation (so far
491         only the case with the Day class, where it's to be a date string.
492         """
493         values = tuple([self.id_] + [getattr(self, key)
494                                      for key in self.to_save])
495         table_name = self.table_name
496         cursor = db_conn.exec_on_vals(f'REPLACE INTO {table_name} VALUES',
497                                       values)
498         if not isinstance(self.id_, str):
499             self.id_ = cursor.lastrowid  # type: ignore[assignment]
500         self.cache()
501         for attr_name in self.to_save_versioned:
502             getattr(self, attr_name).save(db_conn)
503         for table, column, attr_name, key_index in self.to_save_relations:
504             assert isinstance(self.id_, (int, str))
505             db_conn.rewrite_relations(table, column, self.id_,
506                                       [[i.id_] for i
507                                        in getattr(self, attr_name)], key_index)
508
509     def remove(self, db_conn: DatabaseConnection) -> None:
510         """Remove from DB and cache, including dependencies."""
511         if self.id_ is None or self._get_cached(self.id_) is None:
512             raise HandledException('cannot remove unsaved item')
513         for attr_name in self.to_save_versioned:
514             getattr(self, attr_name).remove(db_conn)
515         for table, column, attr_name, _ in self.to_save_relations:
516             db_conn.delete_where(table, column, self.id_)
517         self._uncache()
518         db_conn.delete_where(self.table_name, 'id', self.id_)
519         self._disappear()