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migration: detach permissions defaults migration from current models....
migration: detach permissions defaults migration from current models. This was causing that latest code was used results in potential problems during migration. Now we use the bound migraiton code that always will perform the same exact migrations independent of the current code changes.

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genmodel.py
302 lines | 11.1 KiB | text/x-python | PythonLexer
"""
Code to generate a Python model from a database or differences
between a model and database.
Some of this is borrowed heavily from the AutoCode project at:
http://code.google.com/p/sqlautocode/
"""
import sys
import logging
import sqlalchemy
import rhodecode.lib.dbmigrate.migrate
import rhodecode.lib.dbmigrate.migrate.changeset
log = logging.getLogger(__name__)
HEADER = """
## File autogenerated by genmodel.py
from sqlalchemy import *
"""
META_DEFINITION = "meta = MetaData()"
DECLARATIVE_DEFINITION = """
from sqlalchemy.ext import declarative
Base = declarative.declarative_base()
"""
class ModelGenerator(object):
"""Various transformations from an A, B diff.
In the implementation, A tends to be called the model and B
the database (although this is not true of all diffs).
The diff is directionless, but transformations apply the diff
in a particular direction, described in the method name.
"""
def __init__(self, diff, engine, declarative=False):
self.diff = diff
self.engine = engine
self.declarative = declarative
def column_repr(self, col):
kwarg = []
if col.key != col.name:
kwarg.append('key')
if col.primary_key:
col.primary_key = True # otherwise it dumps it as 1
kwarg.append('primary_key')
if not col.nullable:
kwarg.append('nullable')
if col.onupdate:
kwarg.append('onupdate')
if col.default:
if col.primary_key:
# I found that PostgreSQL automatically creates a
# default value for the sequence, but let's not show
# that.
pass
else:
kwarg.append('default')
args = ['%s=%r' % (k, getattr(col, k)) for k in kwarg]
# crs: not sure if this is good idea, but it gets rid of extra
# u''
name = col.name.encode('utf8')
type_ = col.type
for cls in col.type.__class__.__mro__:
if cls.__module__ == 'sqlalchemy.types' and \
not cls.__name__.isupper():
if cls is not type_.__class__:
type_ = cls()
break
type_repr = repr(type_)
if type_repr.endswith('()'):
type_repr = type_repr[:-2]
constraints = [repr(cn) for cn in col.constraints]
data = {
'name': name,
'commonStuff': ', '.join([type_repr] + constraints + args),
}
if self.declarative:
return """%(name)s = Column(%(commonStuff)s)""" % data
else:
return """Column(%(name)r, %(commonStuff)s)""" % data
def _getTableDefn(self, table, metaName='meta'):
out = []
tableName = table.name
if self.declarative:
out.append("class %(table)s(Base):" % {'table': tableName})
out.append(" __tablename__ = '%(table)s'\n" %
{'table': tableName})
for col in table.columns:
out.append(" %s" % self.column_repr(col))
out.append('\n')
else:
out.append("%(table)s = Table('%(table)s', %(meta)s," %
{'table': tableName, 'meta': metaName})
for col in table.columns:
out.append(" %s," % self.column_repr(col))
out.append(")\n")
return out
def _get_tables(self,missingA=False,missingB=False,modified=False):
to_process = []
for bool_,names,metadata in (
(missingA,self.diff.tables_missing_from_A,self.diff.metadataB),
(missingB,self.diff.tables_missing_from_B,self.diff.metadataA),
(modified,self.diff.tables_different,self.diff.metadataA),
):
if bool_:
for name in names:
yield metadata.tables.get(name)
def _genModelHeader(self, tables):
out = []
import_index = []
out.append(HEADER)
for table in tables:
for col in table.columns:
if "dialects" in col.type.__module__ and \
col.type.__class__ not in import_index:
out.append("from " + col.type.__module__ +
" import " + col.type.__class__.__name__)
import_index.append(col.type.__class__)
out.append("")
if self.declarative:
out.append(DECLARATIVE_DEFINITION)
else:
out.append(META_DEFINITION)
out.append("")
return out
def genBDefinition(self):
"""Generates the source code for a definition of B.
Assumes a diff where A is empty.
Was: toPython. Assume database (B) is current and model (A) is empty.
"""
out = []
out.extend(self._genModelHeader(self._get_tables(missingA=True)))
for table in self._get_tables(missingA=True):
out.extend(self._getTableDefn(table))
return '\n'.join(out)
def genB2AMigration(self, indent=' '):
"""Generate a migration from B to A.
Was: toUpgradeDowngradePython
Assume model (A) is most current and database (B) is out-of-date.
"""
decls = ['from rhodecode.lib.dbmigrate.migrate.changeset import schema',
'pre_meta = MetaData()',
'post_meta = MetaData()',
]
upgradeCommands = ['pre_meta.bind = migrate_engine',
'post_meta.bind = migrate_engine']
downgradeCommands = list(upgradeCommands)
for tn in self.diff.tables_missing_from_A:
pre_table = self.diff.metadataB.tables[tn]
decls.extend(self._getTableDefn(pre_table, metaName='pre_meta'))
upgradeCommands.append(
"pre_meta.tables[%(table)r].drop()" % {'table': tn})
downgradeCommands.append(
"pre_meta.tables[%(table)r].create()" % {'table': tn})
for tn in self.diff.tables_missing_from_B:
post_table = self.diff.metadataA.tables[tn]
decls.extend(self._getTableDefn(post_table, metaName='post_meta'))
upgradeCommands.append(
"post_meta.tables[%(table)r].create()" % {'table': tn})
downgradeCommands.append(
"post_meta.tables[%(table)r].drop()" % {'table': tn})
for (tn, td) in self.diff.tables_different.iteritems():
if td.columns_missing_from_A or td.columns_different:
pre_table = self.diff.metadataB.tables[tn]
decls.extend(self._getTableDefn(
pre_table, metaName='pre_meta'))
if td.columns_missing_from_B or td.columns_different:
post_table = self.diff.metadataA.tables[tn]
decls.extend(self._getTableDefn(
post_table, metaName='post_meta'))
for col in td.columns_missing_from_A:
upgradeCommands.append(
'pre_meta.tables[%r].columns[%r].drop()' % (tn, col))
downgradeCommands.append(
'pre_meta.tables[%r].columns[%r].create()' % (tn, col))
for col in td.columns_missing_from_B:
upgradeCommands.append(
'post_meta.tables[%r].columns[%r].create()' % (tn, col))
downgradeCommands.append(
'post_meta.tables[%r].columns[%r].drop()' % (tn, col))
for modelCol, databaseCol, modelDecl, databaseDecl in td.columns_different:
upgradeCommands.append(
'assert False, "Can\'t alter columns: %s:%s=>%s"' % (
tn, modelCol.name, databaseCol.name))
downgradeCommands.append(
'assert False, "Can\'t alter columns: %s:%s=>%s"' % (
tn, modelCol.name, databaseCol.name))
return (
'\n'.join(decls),
'\n'.join('%s%s' % (indent, line) for line in upgradeCommands),
'\n'.join('%s%s' % (indent, line) for line in downgradeCommands))
def _db_can_handle_this_change(self,td):
"""Check if the database can handle going from B to A."""
if (td.columns_missing_from_B
and not td.columns_missing_from_A
and not td.columns_different):
# Even sqlite can handle column additions.
return True
else:
return not self.engine.url.drivername.startswith('sqlite')
def runB2A(self):
"""Goes from B to A.
Was: applyModel. Apply model (A) to current database (B).
"""
meta = sqlalchemy.MetaData(self.engine)
for table in self._get_tables(missingA=True):
table = table.tometadata(meta)
table.drop()
for table in self._get_tables(missingB=True):
table = table.tometadata(meta)
table.create()
for modelTable in self._get_tables(modified=True):
tableName = modelTable.name
modelTable = modelTable.tometadata(meta)
dbTable = self.diff.metadataB.tables[tableName]
td = self.diff.tables_different[tableName]
if self._db_can_handle_this_change(td):
for col in td.columns_missing_from_B:
modelTable.columns[col].create()
for col in td.columns_missing_from_A:
dbTable.columns[col].drop()
# XXX handle column changes here.
else:
# Sqlite doesn't support drop column, so you have to
# do more: create temp table, copy data to it, drop
# old table, create new table, copy data back.
#
# I wonder if this is guaranteed to be unique?
tempName = '_temp_%s' % modelTable.name
def getCopyStatement():
preparer = self.engine.dialect.preparer
commonCols = []
for modelCol in modelTable.columns:
if modelCol.name in dbTable.columns:
commonCols.append(modelCol.name)
commonColsStr = ', '.join(commonCols)
return 'INSERT INTO %s (%s) SELECT %s FROM %s' % \
(tableName, commonColsStr, commonColsStr, tempName)
# Move the data in one transaction, so that we don't
# leave the database in a nasty state.
connection = self.engine.connect()
trans = connection.begin()
try:
connection.execute(
'CREATE TEMPORARY TABLE %s as SELECT * from %s' % \
(tempName, modelTable.name))
# make sure the drop takes place inside our
# transaction with the bind parameter
modelTable.drop(bind=connection)
modelTable.create(bind=connection)
connection.execute(getCopyStatement())
connection.execute('DROP TABLE %s' % tempName)
trans.commit()
except:
trans.rollback()
raise