# mysql/reflection.py # Copyright (C) 2005-2017 the SQLAlchemy authors and contributors # # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php import re from ... import log, util from ... import types as sqltypes from .enumerated import _EnumeratedValues, SET from .types import DATETIME, TIME, TIMESTAMP class ReflectedState(object): """Stores raw information about a SHOW CREATE TABLE statement.""" def __init__(self): self.columns = [] self.table_options = {} self.table_name = None self.keys = [] self.constraints = [] @log.class_logger class MySQLTableDefinitionParser(object): """Parses the results of a SHOW CREATE TABLE statement.""" def __init__(self, dialect, preparer): self.dialect = dialect self.preparer = preparer self._prep_regexes() def parse(self, show_create, charset): state = ReflectedState() state.charset = charset for line in re.split(r'\r?\n', show_create): if line.startswith(' ' + self.preparer.initial_quote): self._parse_column(line, state) # a regular table options line elif line.startswith(') '): self._parse_table_options(line, state) # an ANSI-mode table options line elif line == ')': pass elif line.startswith('CREATE '): self._parse_table_name(line, state) # Not present in real reflection, but may be if # loading from a file. elif not line: pass else: type_, spec = self._parse_constraints(line) if type_ is None: util.warn("Unknown schema content: %r" % line) elif type_ == 'key': state.keys.append(spec) elif type_ == 'constraint': state.constraints.append(spec) else: pass return state def _parse_constraints(self, line): """Parse a KEY or CONSTRAINT line. :param line: A line of SHOW CREATE TABLE output """ # KEY m = self._re_key.match(line) if m: spec = m.groupdict() # convert columns into name, length pairs spec['columns'] = self._parse_keyexprs(spec['columns']) return 'key', spec # CONSTRAINT m = self._re_constraint.match(line) if m: spec = m.groupdict() spec['table'] = \ self.preparer.unformat_identifiers(spec['table']) spec['local'] = [c[0] for c in self._parse_keyexprs(spec['local'])] spec['foreign'] = [c[0] for c in self._parse_keyexprs(spec['foreign'])] return 'constraint', spec # PARTITION and SUBPARTITION m = self._re_partition.match(line) if m: # Punt! return 'partition', line # No match. return (None, line) def _parse_table_name(self, line, state): """Extract the table name. :param line: The first line of SHOW CREATE TABLE """ regex, cleanup = self._pr_name m = regex.match(line) if m: state.table_name = cleanup(m.group('name')) def _parse_table_options(self, line, state): """Build a dictionary of all reflected table-level options. :param line: The final line of SHOW CREATE TABLE output. """ options = {} if not line or line == ')': pass else: rest_of_line = line[:] for regex, cleanup in self._pr_options: m = regex.search(rest_of_line) if not m: continue directive, value = m.group('directive'), m.group('val') if cleanup: value = cleanup(value) options[directive.lower()] = value rest_of_line = regex.sub('', rest_of_line) for nope in ('auto_increment', 'data directory', 'index directory'): options.pop(nope, None) for opt, val in options.items(): state.table_options['%s_%s' % (self.dialect.name, opt)] = val def _parse_column(self, line, state): """Extract column details. Falls back to a 'minimal support' variant if full parse fails. :param line: Any column-bearing line from SHOW CREATE TABLE """ spec = None m = self._re_column.match(line) if m: spec = m.groupdict() spec['full'] = True else: m = self._re_column_loose.match(line) if m: spec = m.groupdict() spec['full'] = False if not spec: util.warn("Unknown column definition %r" % line) return if not spec['full']: util.warn("Incomplete reflection of column definition %r" % line) name, type_, args = spec['name'], spec['coltype'], spec['arg'] try: col_type = self.dialect.ischema_names[type_] except KeyError: util.warn("Did not recognize type '%s' of column '%s'" % (type_, name)) col_type = sqltypes.NullType # Column type positional arguments eg. varchar(32) if args is None or args == '': type_args = [] elif args[0] == "'" and args[-1] == "'": type_args = self._re_csv_str.findall(args) else: type_args = [int(v) for v in self._re_csv_int.findall(args)] # Column type keyword options type_kw = {} if issubclass(col_type, (DATETIME, TIME, TIMESTAMP)): if type_args: type_kw['fsp'] = type_args.pop(0) for kw in ('unsigned', 'zerofill'): if spec.get(kw, False): type_kw[kw] = True for kw in ('charset', 'collate'): if spec.get(kw, False): type_kw[kw] = spec[kw] if issubclass(col_type, _EnumeratedValues): type_args = _EnumeratedValues._strip_values(type_args) if issubclass(col_type, SET) and '' in type_args: type_kw['retrieve_as_bitwise'] = True type_instance = col_type(*type_args, **type_kw) col_kw = {} # NOT NULL col_kw['nullable'] = True # this can be "NULL" in the case of TIMESTAMP if spec.get('notnull', False) == 'NOT NULL': col_kw['nullable'] = False # AUTO_INCREMENT if spec.get('autoincr', False): col_kw['autoincrement'] = True elif issubclass(col_type, sqltypes.Integer): col_kw['autoincrement'] = False # DEFAULT default = spec.get('default', None) if default == 'NULL': # eliminates the need to deal with this later. default = None col_d = dict(name=name, type=type_instance, default=default) col_d.update(col_kw) state.columns.append(col_d) def _describe_to_create(self, table_name, columns): """Re-format DESCRIBE output as a SHOW CREATE TABLE string. DESCRIBE is a much simpler reflection and is sufficient for reflecting views for runtime use. This method formats DDL for columns only- keys are omitted. :param columns: A sequence of DESCRIBE or SHOW COLUMNS 6-tuples. SHOW FULL COLUMNS FROM rows must be rearranged for use with this function. """ buffer = [] for row in columns: (name, col_type, nullable, default, extra) = \ [row[i] for i in (0, 1, 2, 4, 5)] line = [' '] line.append(self.preparer.quote_identifier(name)) line.append(col_type) if not nullable: line.append('NOT NULL') if default: if 'auto_increment' in default: pass elif (col_type.startswith('timestamp') and default.startswith('C')): line.append('DEFAULT') line.append(default) elif default == 'NULL': line.append('DEFAULT') line.append(default) else: line.append('DEFAULT') line.append("'%s'" % default.replace("'", "''")) if extra: line.append(extra) buffer.append(' '.join(line)) return ''.join([('CREATE TABLE %s (\n' % self.preparer.quote_identifier(table_name)), ',\n'.join(buffer), '\n) ']) def _parse_keyexprs(self, identifiers): """Unpack '"col"(2),"col" ASC'-ish strings into components.""" return self._re_keyexprs.findall(identifiers) def _prep_regexes(self): """Pre-compile regular expressions.""" self._re_columns = [] self._pr_options = [] _final = self.preparer.final_quote quotes = dict(zip(('iq', 'fq', 'esc_fq'), [re.escape(s) for s in (self.preparer.initial_quote, _final, self.preparer._escape_identifier(_final))])) self._pr_name = _pr_compile( r'^CREATE (?:\w+ +)?TABLE +' r'%(iq)s(?P(?:%(esc_fq)s|[^%(fq)s])+)%(fq)s +\($' % quotes, self.preparer._unescape_identifier) # `col`,`col2`(32),`col3`(15) DESC # # Note: ASC and DESC aren't reflected, so we'll punt... self._re_keyexprs = _re_compile( r'(?:' r'(?:%(iq)s((?:%(esc_fq)s|[^%(fq)s])+)%(fq)s)' r'(?:\((\d+)\))?(?=\,|$))+' % quotes) # 'foo' or 'foo','bar' or 'fo,o','ba''a''r' self._re_csv_str = _re_compile(r'\x27(?:\x27\x27|[^\x27])*\x27') # 123 or 123,456 self._re_csv_int = _re_compile(r'\d+') # `colname` [type opts] # (NOT NULL | NULL) # DEFAULT ('value' | CURRENT_TIMESTAMP...) # COMMENT 'comment' # COLUMN_FORMAT (FIXED|DYNAMIC|DEFAULT) # STORAGE (DISK|MEMORY) self._re_column = _re_compile( r' ' r'%(iq)s(?P(?:%(esc_fq)s|[^%(fq)s])+)%(fq)s +' r'(?P\w+)' r'(?:\((?P(?:\d+|\d+,\d+|' r'(?:\x27(?:\x27\x27|[^\x27])*\x27,?)+))\))?' r'(?: +(?PUNSIGNED))?' r'(?: +(?PZEROFILL))?' r'(?: +CHARACTER SET +(?P[\w_]+))?' r'(?: +COLLATE +(?P[\w_]+))?' r'(?: +(?P(?:NOT )?NULL))?' r'(?: +DEFAULT +(?P' r'(?:NULL|\x27(?:\x27\x27|[^\x27])*\x27|\w+' r'(?: +ON UPDATE \w+)?)' r'))?' r'(?: +(?PAUTO_INCREMENT))?' r'(?: +COMMENT +(P(?:\x27\x27|[^\x27])+))?' r'(?: +COLUMN_FORMAT +(?P\w+))?' r'(?: +STORAGE +(?P\w+))?' r'(?: +(?P.*))?' r',?$' % quotes ) # Fallback, try to parse as little as possible self._re_column_loose = _re_compile( r' ' r'%(iq)s(?P(?:%(esc_fq)s|[^%(fq)s])+)%(fq)s +' r'(?P\w+)' r'(?:\((?P(?:\d+|\d+,\d+|\x27(?:\x27\x27|[^\x27])+\x27))\))?' r'.*?(?P(?:NOT )NULL)?' % quotes ) # (PRIMARY|UNIQUE|FULLTEXT|SPATIAL) INDEX `name` (USING (BTREE|HASH))? # (`col` (ASC|DESC)?, `col` (ASC|DESC)?) # KEY_BLOCK_SIZE size | WITH PARSER name self._re_key = _re_compile( r' ' r'(?:(?P\S+) )?KEY' r'(?: +%(iq)s(?P(?:%(esc_fq)s|[^%(fq)s])+)%(fq)s)?' r'(?: +USING +(?P\S+))?' r' +\((?P.+?)\)' r'(?: +USING +(?P\S+))?' r'(?: +KEY_BLOCK_SIZE *[ =]? *(?P\S+))?' r'(?: +WITH PARSER +(?P\S+))?' r'(?: +COMMENT +(?P(\x27\x27|\x27([^\x27])*?\x27)+))?' r',?$' % quotes ) # CONSTRAINT `name` FOREIGN KEY (`local_col`) # REFERENCES `remote` (`remote_col`) # MATCH FULL | MATCH PARTIAL | MATCH SIMPLE # ON DELETE CASCADE ON UPDATE RESTRICT # # unique constraints come back as KEYs kw = quotes.copy() kw['on'] = 'RESTRICT|CASCADE|SET NULL|NOACTION' self._re_constraint = _re_compile( r' ' r'CONSTRAINT +' r'%(iq)s(?P(?:%(esc_fq)s|[^%(fq)s])+)%(fq)s +' r'FOREIGN KEY +' r'\((?P[^\)]+?)\) REFERENCES +' r'(?P%(iq)s[^%(fq)s]+%(fq)s' r'(?:\.%(iq)s[^%(fq)s]+%(fq)s)?) +' r'\((?P[^\)]+?)\)' r'(?: +(?PMATCH \w+))?' r'(?: +ON DELETE (?P%(on)s))?' r'(?: +ON UPDATE (?P%(on)s))?' % kw ) # PARTITION # # punt! self._re_partition = _re_compile(r'(?:.*)(?:SUB)?PARTITION(?:.*)') # Table-level options (COLLATE, ENGINE, etc.) # Do the string options first, since they have quoted # strings we need to get rid of. for option in _options_of_type_string: self._add_option_string(option) for option in ('ENGINE', 'TYPE', 'AUTO_INCREMENT', 'AVG_ROW_LENGTH', 'CHARACTER SET', 'DEFAULT CHARSET', 'CHECKSUM', 'COLLATE', 'DELAY_KEY_WRITE', 'INSERT_METHOD', 'MAX_ROWS', 'MIN_ROWS', 'PACK_KEYS', 'ROW_FORMAT', 'KEY_BLOCK_SIZE'): self._add_option_word(option) self._add_option_regex('UNION', r'\([^\)]+\)') self._add_option_regex('TABLESPACE', r'.*? STORAGE DISK') self._add_option_regex( 'RAID_TYPE', r'\w+\s+RAID_CHUNKS\s*\=\s*\w+RAID_CHUNKSIZE\s*=\s*\w+') _optional_equals = r'(?:\s*(?:=\s*)|\s+)' def _add_option_string(self, directive): regex = (r'(?P%s)%s' r"'(?P(?:[^']|'')*?)'(?!')" % (re.escape(directive), self._optional_equals)) self._pr_options.append(_pr_compile( regex, lambda v: v.replace("\\\\", "\\").replace("''", "'") )) def _add_option_word(self, directive): regex = (r'(?P%s)%s' r'(?P\w+)' % (re.escape(directive), self._optional_equals)) self._pr_options.append(_pr_compile(regex)) def _add_option_regex(self, directive, regex): regex = (r'(?P%s)%s' r'(?P%s)' % (re.escape(directive), self._optional_equals, regex)) self._pr_options.append(_pr_compile(regex)) _options_of_type_string = ('COMMENT', 'DATA DIRECTORY', 'INDEX DIRECTORY', 'PASSWORD', 'CONNECTION') def _pr_compile(regex, cleanup=None): """Prepare a 2-tuple of compiled regex and callable.""" return (_re_compile(regex), cleanup) def _re_compile(regex): """Compile a string to regex, I and UNICODE.""" return re.compile(regex, re.I | re.UNICODE)