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assertsql.py
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# testing/assertsql.py # Copyright (C) 2005-2024 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: https://www.opensource.org/licenses/mit-license.php # mypy: ignore-errors from __future__ import annotations import collections import contextlib import itertools import re from .. import event from ..engine import url from ..engine.default import DefaultDialect from ..schema import BaseDDLElement class AssertRule: is_consumed = False errormessage = None consume_statement = True def process_statement(self, execute_observed): pass def no_more_statements(self): assert False, ( "All statements are complete, but pending " "assertion rules remain" ) class SQLMatchRule(AssertRule): pass class CursorSQL(SQLMatchRule): def __init__(self, statement, params=None, consume_statement=True): self.statement = statement self.params = params self.consume_statement = consume_statement def process_statement(self, execute_observed): stmt = execute_observed.statements[0] if self.statement != stmt.statement or ( self.params is not None and self.params != stmt.parameters ): self.consume_statement = True self.errormessage = ( "Testing for exact SQL %s parameters %s received %s %s" % ( self.statement, self.params, stmt.statement, stmt.parameters, ) ) else: execute_observed.statements.pop(0) self.is_consumed = True if not execute_observed.statements: self.consume_statement = True class CompiledSQL(SQLMatchRule): def __init__( self, statement, params=None, dialect="default", enable_returning=True ): self.statement = statement self.params = params self.dialect = dialect self.enable_returning = enable_returning def _compare_sql(self, execute_observed, received_statement): stmt = re.sub(r"[\n\t]", "", self.statement) return received_statement == stmt def _compile_dialect(self, execute_observed): if self.dialect == "default": dialect = DefaultDialect() # this is currently what tests are expecting # dialect.supports_default_values = True dialect.supports_default_metavalue = True if self.enable_returning: dialect.insert_returning = dialect.update_returning = ( dialect.delete_returning ) = True dialect.use_insertmanyvalues = True dialect.supports_multivalues_insert = True dialect.update_returning_multifrom = True dialect.delete_returning_multifrom = True # dialect.favor_returning_over_lastrowid = True # dialect.insert_null_pk_still_autoincrements = True # this is calculated but we need it to be True for this # to look like all the current RETURNING dialects assert dialect.insert_executemany_returning return dialect else: return url.URL.create(self.dialect).get_dialect()() def _received_statement(self, execute_observed): """reconstruct the statement and params in terms of a target dialect, which for CompiledSQL is just DefaultDialect.""" context = execute_observed.context compare_dialect = self._compile_dialect(execute_observed) # received_statement runs a full compile(). we should not need to # consider extracted_parameters; if we do this indicates some state # is being sent from a previous cached query, which some misbehaviors # in the ORM can cause, see #6881 cache_key = None # execute_observed.context.compiled.cache_key extracted_parameters = ( None # execute_observed.context.extracted_parameters ) if "schema_translate_map" in context.execution_options: map_ = context.execution_options["schema_translate_map"] else: map_ = None if isinstance(execute_observed.clauseelement, BaseDDLElement): compiled = execute_observed.clauseelement.compile( dialect=compare_dialect, schema_translate_map=map_, ) else: compiled = execute_observed.clauseelement.compile( cache_key=cache_key, dialect=compare_dialect, column_keys=context.compiled.column_keys, for_executemany=context.compiled.for_executemany, schema_translate_map=map_, ) _received_statement = re.sub(r"[\n\t]", "", str(compiled)) parameters = execute_observed.parameters if not parameters: _received_parameters = [ compiled.construct_params( extracted_parameters=extracted_parameters ) ] else: _received_parameters = [ compiled.construct_params( m, extracted_parameters=extracted_parameters ) for m in parameters ] return _received_statement, _received_parameters def process_statement(self, execute_observed): context = execute_observed.context _received_statement, _received_parameters = self._received_statement( execute_observed ) params = self._all_params(context) equivalent = self._compare_sql(execute_observed, _received_statement) if equivalent: if params is not None: all_params = list(params) all_received = list(_received_parameters) while all_params and all_received: param = dict(all_params.pop(0)) for idx, received in enumerate(list(all_received)): # do a positive compare only for param_key in param: # a key in param did not match current # 'received' if ( param_key not in received or received[param_key] != param[param_key] ): break else: # all keys in param matched 'received'; # onto next param del all_received[idx] break else: # param did not match any entry # in all_received equivalent = False break if all_params or all_received: equivalent = False if equivalent: self.is_consumed = True self.errormessage = None else: self.errormessage = self._failure_message( execute_observed, params ) % { "received_statement": _received_statement, "received_parameters": _received_parameters, } def _all_params(self, context): if self.params: if callable(self.params): params = self.params(context) else: params = self.params if not isinstance(params, list): params = [params] return params else: return None def _failure_message(self, execute_observed, expected_params): return ( "Testing for compiled statement\n%r partial params %s, " "received\n%%(received_statement)r with params " "%%(received_parameters)r" % ( self.statement.replace("%", "%%"), repr(expected_params).replace("%", "%%"), ) ) class RegexSQL(CompiledSQL): def __init__( self, regex, params=None, dialect="default", enable_returning=False ): SQLMatchRule.__init__(self) self.regex = re.compile(regex) self.orig_regex = regex self.params = params self.dialect = dialect self.enable_returning = enable_returning def _failure_message(self, execute_observed, expected_params): return ( "Testing for compiled statement ~%r partial params %s, " "received %%(received_statement)r with params " "%%(received_parameters)r" % ( self.orig_regex.replace("%", "%%"), repr(expected_params).replace("%", "%%"), ) ) def _compare_sql(self, execute_observed, received_statement): return bool(self.regex.match(received_statement)) class DialectSQL(CompiledSQL): def _compile_dialect(self, execute_observed): return execute_observed.context.dialect def _compare_no_space(self, real_stmt, received_stmt): stmt = re.sub(r"[\n\t]", "", real_stmt) return received_stmt == stmt def _received_statement(self, execute_observed): received_stmt, received_params = super()._received_statement( execute_observed ) # TODO: why do we need this part? for real_stmt in execute_observed.statements: if self._compare_no_space(real_stmt.statement, received_stmt): break else: raise AssertionError( "Can't locate compiled statement %r in list of " "statements actually invoked" % received_stmt ) return received_stmt, execute_observed.context.compiled_parameters def _dialect_adjusted_statement(self, dialect): paramstyle = dialect.paramstyle stmt = re.sub(r"[\n\t]", "", self.statement) # temporarily escape out PG double colons stmt = stmt.replace("::", "!!") if paramstyle == "pyformat": stmt = re.sub(r":([\w_]+)", r"%(\1)s", stmt) else: # positional params repl = None if paramstyle == "qmark": repl = "?" elif paramstyle == "format": repl = r"%s" elif paramstyle.startswith("numeric"): counter = itertools.count(1) num_identifier = "$" if paramstyle == "numeric_dollar" else ":" def repl(m): return f"{num_identifier}{next(counter)}" stmt = re.sub(r":([\w_]+)", repl, stmt) # put them back stmt = stmt.replace("!!", "::") return stmt def _compare_sql(self, execute_observed, received_statement): stmt = self._dialect_adjusted_statement( execute_observed.context.dialect ) return received_statement == stmt def _failure_message(self, execute_observed, expected_params): return ( "Testing for compiled statement\n%r partial params %s, " "received\n%%(received_statement)r with params " "%%(received_parameters)r" % ( self._dialect_adjusted_statement( execute_observed.context.dialect ).replace("%", "%%"), repr(expected_params).replace("%", "%%"), ) ) class CountStatements(AssertRule): def __init__(self, count): self.count = count self._statement_count = 0 def process_statement(self, execute_observed): self._statement_count += 1 def no_more_statements(self): if self.count != self._statement_count: assert False, "desired statement count %d does not match %d" % ( self.count, self._statement_count, ) class AllOf(AssertRule): def __init__(self, *rules): self.rules = set(rules) def process_statement(self, execute_observed): for rule in list(self.rules): rule.errormessage = None rule.process_statement(execute_observed) if rule.is_consumed: self.rules.discard(rule) if not self.rules: self.is_consumed = True break elif not rule.errormessage: # rule is not done yet self.errormessage = None break else: self.errormessage = list(self.rules)[0].errormessage class EachOf(AssertRule): def __init__(self, *rules): self.rules = list(rules) def process_statement(self, execute_observed): if not self.rules: self.is_consumed = True self.consume_statement = False while self.rules: rule = self.rules[0] rule.process_statement(execute_observed) if rule.is_consumed: self.rules.pop(0) elif rule.errormessage: self.errormessage = rule.errormessage if rule.consume_statement: break if not self.rules: self.is_consumed = True def no_more_statements(self): if self.rules and not self.rules[0].is_consumed: self.rules[0].no_more_statements() elif self.rules: super().no_more_statements() class Conditional(EachOf): def __init__(self, condition, rules, else_rules): if condition: super().__init__(*rules) else: super().__init__(*else_rules) class Or(AllOf): def process_statement(self, execute_observed): for rule in self.rules: rule.process_statement(execute_observed) if rule.is_consumed: self.is_consumed = True break else: self.errormessage = list(self.rules)[0].errormessage class SQLExecuteObserved: def __init__(self, context, clauseelement, multiparams, params): self.context = context self.clauseelement = clauseelement if multiparams: self.parameters = multiparams elif params: self.parameters = [params] else: self.parameters = [] self.statements = [] def __repr__(self): return str(self.statements) class SQLCursorExecuteObserved( collections.namedtuple( "SQLCursorExecuteObserved", ["statement", "parameters", "context", "executemany"], ) ): pass class SQLAsserter: def __init__(self): self.accumulated = [] def _close(self): self._final = self.accumulated del self.accumulated def assert_(self, *rules): rule = EachOf(*rules) observed = list(self._final) while observed: statement = observed.pop(0) rule.process_statement(statement) if rule.is_consumed: break elif rule.errormessage: assert False, rule.errormessage if observed: assert False, "Additional SQL statements remain:\n%s" % observed elif not rule.is_consumed: rule.no_more_statements() @contextlib.contextmanager def assert_engine(engine): asserter = SQLAsserter() orig = [] @event.listens_for(engine, "before_execute") def connection_execute( conn, clauseelement, multiparams, params, execution_options ): # grab the original statement + params before any cursor # execution orig[:] = clauseelement, multiparams, params @event.listens_for(engine, "after_cursor_execute") def cursor_execute( conn, cursor, statement, parameters, context, executemany ): if not context: return # then grab real cursor statements and associate them all # around a single context if ( asserter.accumulated and asserter.accumulated[-1].context is context ): obs = asserter.accumulated[-1] else: obs = SQLExecuteObserved(context, orig[0], orig[1], orig[2]) asserter.accumulated.append(obs) obs.statements.append( SQLCursorExecuteObserved( statement, parameters, context, executemany ) ) try: yield asserter finally: event.remove(engine, "after_cursor_execute", cursor_execute) event.remove(engine, "before_execute", connection_execute) asserter._close()