poky/bitbake/lib/bb/persist_data.py - mdmillerii/openbmc - Gitiles

 """BitBake Persistent Data Store

 Used to store data in a central location such that other threads/tasks can
 access them at some future date.  Acts as a convenience wrapper around sqlite,
 currently, providing a key/value store accessed by 'domain'.
 """

 # Copyright (C) 2007        Richard Purdie
 # Copyright (C) 2010        Chris Larson <chris_larson@mentor.com>
 #
 # SPDX-License-Identifier: GPL-2.0-only
 #

 import collections
 import contextlib
 import functools
 import logging
 import os.path
 import sqlite3
 import sys
 import warnings
 from collections import Mapping

 sqlversion = sqlite3.sqlite_version_info
 if sqlversion[0] < 3 or (sqlversion[0] == 3 and sqlversion[1] < 3):
     raise Exception("sqlite3 version 3.3.0 or later is required.")


 logger = logging.getLogger("BitBake.PersistData")

 @functools.total_ordering
 class SQLTable(collections.MutableMapping):
     class _Decorators(object):
         @staticmethod
         def retry(*, reconnect=True):
             """
             Decorator that restarts a function if a database locked sqlite
             exception occurs. If reconnect is True, the database connection
             will be closed and reopened each time a failure occurs
             """
             def retry_wrapper(f):
                 def wrap_func(self, *args, **kwargs):
                     # Reconnect if necessary
                     if self.connection is None and reconnect:
                         self.reconnect()

                     count = 0
                     while True:
                         try:
                             return f(self, *args, **kwargs)
                         except sqlite3.OperationalError as exc:
                             if count < 500 and ('is locked' in str(exc) or 'locking protocol' in str(exc)):
                                 count = count + 1
                                 if reconnect:
                                     self.reconnect()
                                 continue
                             raise
                 return wrap_func
             return retry_wrapper

         @staticmethod
         def transaction(f):
             """
             Decorator that starts a database transaction and creates a database
             cursor for performing queries. If no exception is thrown, the
             database results are commited. If an exception occurs, the database
             is rolled back. In all cases, the cursor is closed after the
             function ends.

             Note that the cursor is passed as an extra argument to the function
             after `self` and before any of the normal arguments
             """
             def wrap_func(self, *args, **kwargs):
                 # Context manager will COMMIT the database on success,
                 # or ROLLBACK on an exception
                 with self.connection:
                     # Automatically close the cursor when done
                     with contextlib.closing(self.connection.cursor()) as cursor:
                         return f(self, cursor, *args, **kwargs)
             return wrap_func

     """Object representing a table/domain in the database"""
     def __init__(self, cachefile, table):
         self.cachefile = cachefile
         self.table = table

         self.connection = None
         self._execute_single("CREATE TABLE IF NOT EXISTS %s(key TEXT PRIMARY KEY NOT NULL, value TEXT);" % table)

     @_Decorators.retry(reconnect=False)
     @_Decorators.transaction
     def _setup_database(self, cursor):
         cursor.execute("pragma synchronous = off;")
         # Enable WAL and keep the autocheckpoint length small (the default is
         # usually 1000). Persistent caches are usually read-mostly, so keeping
         # this short will keep readers running quickly
         cursor.execute("pragma journal_mode = WAL;")
         cursor.execute("pragma wal_autocheckpoint = 100;")

     def reconnect(self):
         if self.connection is not None:
             self.connection.close()
         self.connection = sqlite3.connect(self.cachefile, timeout=5)
         self.connection.text_factory = str
         self._setup_database()

     @_Decorators.retry()
     @_Decorators.transaction
     def _execute_single(self, cursor, *query):
         """
         Executes a single query and discards the results. This correctly closes
         the database cursor when finished
         """
         cursor.execute(*query)

     @_Decorators.retry()
     def _row_iter(self, f, *query):
         """
         Helper function that returns a row iterator. Each time __next__ is
         called on the iterator, the provided function is evaluated to determine
         the return value
         """
         class CursorIter(object):
             def __init__(self, cursor):
                 self.cursor = cursor

             def __iter__(self):
                 return self

             def __next__(self):
                 row = self.cursor.fetchone()
                 if row is None:
                     self.cursor.close()
                     raise StopIteration
                 return f(row)

             def __enter__(self):
                 return self

             def __exit__(self, typ, value, traceback):
                 self.cursor.close()
                 return False

         cursor = self.connection.cursor()
         try:
             cursor.execute(*query)
             return CursorIter(cursor)
         except:
             cursor.close()

     def __enter__(self):
         self.connection.__enter__()
         return self

     def __exit__(self, *excinfo):
         self.connection.__exit__(*excinfo)

     @_Decorators.retry()
     @_Decorators.transaction
     def __getitem__(self, cursor, key):
         cursor.execute("SELECT * from %s where key=?;" % self.table, [key])
         row = cursor.fetchone()
         if row is not None:
             return row[1]
         raise KeyError(key)

     @_Decorators.retry()
     @_Decorators.transaction
     def __delitem__(self, cursor, key):
         if key not in self:
             raise KeyError(key)
         cursor.execute("DELETE from %s where key=?;" % self.table, [key])

     @_Decorators.retry()
     @_Decorators.transaction
     def __setitem__(self, cursor, key, value):
         if not isinstance(key, str):
             raise TypeError('Only string keys are supported')
         elif not isinstance(value, str):
             raise TypeError('Only string values are supported')

         # Ensure the entire transaction (including SELECT) executes under write lock
         cursor.execute("BEGIN EXCLUSIVE")

         cursor.execute("SELECT * from %s where key=?;" % self.table, [key])
         row = cursor.fetchone()
         if row is not None:
             cursor.execute("UPDATE %s SET value=? WHERE key=?;" % self.table, [value, key])
         else:
             cursor.execute("INSERT into %s(key, value) values (?, ?);" % self.table, [key, value])

     @_Decorators.retry()
     @_Decorators.transaction
     def __contains__(self, cursor, key):
         cursor.execute('SELECT * from %s where key=?;' % self.table, [key])
         return cursor.fetchone() is not None

     @_Decorators.retry()
     @_Decorators.transaction
     def __len__(self, cursor):
         cursor.execute("SELECT COUNT(key) FROM %s;" % self.table)
         row = cursor.fetchone()
         if row is not None:
             return row[0]

     def __iter__(self):
         return self._row_iter(lambda row: row[0], "SELECT key from %s;" % self.table)

     def __lt__(self, other):
         if not isinstance(other, Mapping):
             raise NotImplemented

         return len(self) < len(other)

     def get_by_pattern(self, pattern):
         return self._row_iter(lambda row: row[1], "SELECT * FROM %s WHERE key LIKE ?;" %
                               self.table, [pattern])

     def values(self):
         return list(self.itervalues())

     def itervalues(self):
         return self._row_iter(lambda row: row[0], "SELECT value FROM %s;" %
                               self.table)

     def items(self):
         return list(self.iteritems())

     def iteritems(self):
         return self._row_iter(lambda row: (row[0], row[1]), "SELECT * FROM %s;" %
                               self.table)

     @_Decorators.retry()
     @_Decorators.transaction
     def clear(self, cursor):
         cursor.execute("DELETE FROM %s;" % self.table)

     def has_key(self, key):
         return key in self


 class PersistData(object):
     """Deprecated representation of the bitbake persistent data store"""
     def __init__(self, d):
         warnings.warn("Use of PersistData is deprecated.  Please use "
                       "persist(domain, d) instead.",
                       category=DeprecationWarning,
                       stacklevel=2)

         self.data = persist(d)
         logger.debug("Using '%s' as the persistent data cache",
                      self.data.filename)

     def addDomain(self, domain):
         """
         Add a domain (pending deprecation)
         """
         return self.data[domain]

     def delDomain(self, domain):
         """
         Removes a domain and all the data it contains
         """
         del self.data[domain]

     def getKeyValues(self, domain):
         """
         Return a list of key + value pairs for a domain
         """
         return list(self.data[domain].items())

     def getValue(self, domain, key):
         """
         Return the value of a key for a domain
         """
         return self.data[domain][key]

     def setValue(self, domain, key, value):
         """
         Sets the value of a key for a domain
         """
         self.data[domain][key] = value

     def delValue(self, domain, key):
         """
         Deletes a key/value pair
         """
         del self.data[domain][key]

 def persist(domain, d):
     """Convenience factory for SQLTable objects based upon metadata"""
     import bb.utils
     cachedir = (d.getVar("PERSISTENT_DIR") or
                 d.getVar("CACHE"))
     if not cachedir:
         logger.critical("Please set the 'PERSISTENT_DIR' or 'CACHE' variable")
         sys.exit(1)

     bb.utils.mkdirhier(cachedir)
     cachefile = os.path.join(cachedir, "bb_persist_data.sqlite3")
     return SQLTable(cachefile, domain)
	"""BitBake Persistent Data Store

	Used to store data in a central location such that other threads/tasks can
	access them at some future date. Acts as a convenience wrapper around sqlite,
	currently, providing a key/value store accessed by 'domain'.
	"""

	# Copyright (C) 2007 Richard Purdie
	# Copyright (C) 2010 Chris Larson <chris_larson@mentor.com>
	#
	# SPDX-License-Identifier: GPL-2.0-only
	#

	import collections
	import contextlib
	import functools
	import logging
	import os.path
	import sqlite3
	import sys
	import warnings
	from collections import Mapping

	sqlversion = sqlite3.sqlite_version_info
	if sqlversion[0] < 3 or (sqlversion[0] == 3 and sqlversion[1] < 3):
	raise Exception("sqlite3 version 3.3.0 or later is required.")


	logger = logging.getLogger("BitBake.PersistData")

	@functools.total_ordering
	class SQLTable(collections.MutableMapping):
	class _Decorators(object):
	@staticmethod
	def retry(*, reconnect=True):
	"""
	Decorator that restarts a function if a database locked sqlite
	exception occurs. If reconnect is True, the database connection
	will be closed and reopened each time a failure occurs
	"""
	def retry_wrapper(f):
	def wrap_func(self, args, *kwargs):
	# Reconnect if necessary
	if self.connection is None and reconnect:
	self.reconnect()

	count = 0
	while True:
	try:
	return f(self, args, *kwargs)
	except sqlite3.OperationalError as exc:
	if count < 500 and ('is locked' in str(exc) or 'locking protocol' in str(exc)):
	count = count + 1
	if reconnect:
	self.reconnect()
	continue
	raise
	return wrap_func
	return retry_wrapper

	@staticmethod
	def transaction(f):
	"""
	Decorator that starts a database transaction and creates a database
	cursor for performing queries. If no exception is thrown, the
	database results are commited. If an exception occurs, the database
	is rolled back. In all cases, the cursor is closed after the
	function ends.

	Note that the cursor is passed as an extra argument to the function
	after `self` and before any of the normal arguments
	"""
	def wrap_func(self, args, *kwargs):
	# Context manager will COMMIT the database on success,
	# or ROLLBACK on an exception
	with self.connection:
	# Automatically close the cursor when done
	with contextlib.closing(self.connection.cursor()) as cursor:
	return f(self, cursor, args, *kwargs)
	return wrap_func

	"""Object representing a table/domain in the database"""
	def __init__(self, cachefile, table):
	self.cachefile = cachefile
	self.table = table

	self.connection = None
	self._execute_single("CREATE TABLE IF NOT EXISTS %s(key TEXT PRIMARY KEY NOT NULL, value TEXT);" % table)

	@_Decorators.retry(reconnect=False)
	@_Decorators.transaction
	def _setup_database(self, cursor):
	cursor.execute("pragma synchronous = off;")
	# Enable WAL and keep the autocheckpoint length small (the default is
	# usually 1000). Persistent caches are usually read-mostly, so keeping
	# this short will keep readers running quickly
	cursor.execute("pragma journal_mode = WAL;")
	cursor.execute("pragma wal_autocheckpoint = 100;")

	def reconnect(self):
	if self.connection is not None:
	self.connection.close()
	self.connection = sqlite3.connect(self.cachefile, timeout=5)
	self.connection.text_factory = str
	self._setup_database()

	@_Decorators.retry()
	@_Decorators.transaction
	def _execute_single(self, cursor, *query):
	"""
	Executes a single query and discards the results. This correctly closes
	the database cursor when finished
	"""
	cursor.execute(*query)

	@_Decorators.retry()
	def _row_iter(self, f, *query):
	"""
	Helper function that returns a row iterator. Each time __next__ is
	called on the iterator, the provided function is evaluated to determine
	the return value
	"""
	class CursorIter(object):
	def __init__(self, cursor):
	self.cursor = cursor

	def __iter__(self):
	return self

	def __next__(self):
	row = self.cursor.fetchone()
	if row is None:
	self.cursor.close()
	raise StopIteration
	return f(row)

	def __enter__(self):
	return self

	def __exit__(self, typ, value, traceback):
	self.cursor.close()
	return False

	cursor = self.connection.cursor()
	try:
	cursor.execute(*query)
	return CursorIter(cursor)
	except:
	cursor.close()

	def __enter__(self):
	self.connection.__enter__()
	return self

	def __exit__(self, *excinfo):
	self.connection.__exit__(*excinfo)

	@_Decorators.retry()
	@_Decorators.transaction
	def __getitem__(self, cursor, key):
	cursor.execute("SELECT * from %s where key=?;" % self.table, [key])
	row = cursor.fetchone()
	if row is not None:
	return row[1]
	raise KeyError(key)

	@_Decorators.retry()
	@_Decorators.transaction
	def __delitem__(self, cursor, key):
	if key not in self:
	raise KeyError(key)
	cursor.execute("DELETE from %s where key=?;" % self.table, [key])

	@_Decorators.retry()
	@_Decorators.transaction
	def __setitem__(self, cursor, key, value):
	if not isinstance(key, str):
	raise TypeError('Only string keys are supported')
	elif not isinstance(value, str):
	raise TypeError('Only string values are supported')

	# Ensure the entire transaction (including SELECT) executes under write lock
	cursor.execute("BEGIN EXCLUSIVE")

	cursor.execute("SELECT * from %s where key=?;" % self.table, [key])
	row = cursor.fetchone()
	if row is not None:
	cursor.execute("UPDATE %s SET value=? WHERE key=?;" % self.table, [value, key])
	else:
	cursor.execute("INSERT into %s(key, value) values (?, ?);" % self.table, [key, value])

	@_Decorators.retry()
	@_Decorators.transaction
	def __contains__(self, cursor, key):
	cursor.execute('SELECT * from %s where key=?;' % self.table, [key])
	return cursor.fetchone() is not None

	@_Decorators.retry()
	@_Decorators.transaction
	def __len__(self, cursor):
	cursor.execute("SELECT COUNT(key) FROM %s;" % self.table)
	row = cursor.fetchone()
	if row is not None:
	return row[0]

	def __iter__(self):
	return self._row_iter(lambda row: row[0], "SELECT key from %s;" % self.table)

	def __lt__(self, other):
	if not isinstance(other, Mapping):
	raise NotImplemented

	return len(self) < len(other)

	def get_by_pattern(self, pattern):
	return self._row_iter(lambda row: row[1], "SELECT * FROM %s WHERE key LIKE ?;" %
	self.table, [pattern])

	def values(self):
	return list(self.itervalues())

	def itervalues(self):
	return self._row_iter(lambda row: row[0], "SELECT value FROM %s;" %
	self.table)

	def items(self):
	return list(self.iteritems())

	def iteritems(self):
	return self._row_iter(lambda row: (row[0], row[1]), "SELECT * FROM %s;" %
	self.table)

	@_Decorators.retry()
	@_Decorators.transaction
	def clear(self, cursor):
	cursor.execute("DELETE FROM %s;" % self.table)

	def has_key(self, key):
	return key in self


	class PersistData(object):
	"""Deprecated representation of the bitbake persistent data store"""
	def __init__(self, d):
	warnings.warn("Use of PersistData is deprecated. Please use "
	"persist(domain, d) instead.",
	category=DeprecationWarning,
	stacklevel=2)

	self.data = persist(d)
	logger.debug("Using '%s' as the persistent data cache",
	self.data.filename)

	def addDomain(self, domain):
	"""
	Add a domain (pending deprecation)
	"""
	return self.data[domain]

	def delDomain(self, domain):
	"""
	Removes a domain and all the data it contains
	"""
	del self.data[domain]

	def getKeyValues(self, domain):
	"""
	Return a list of key + value pairs for a domain
	"""
	return list(self.data[domain].items())

	def getValue(self, domain, key):
	"""
	Return the value of a key for a domain
	"""
	return self.data[domain][key]

	def setValue(self, domain, key, value):
	"""
	Sets the value of a key for a domain
	"""
	self.data[domain][key] = value

	def delValue(self, domain, key):
	"""
	Deletes a key/value pair
	"""
	del self.data[domain][key]

	def persist(domain, d):
	"""Convenience factory for SQLTable objects based upon metadata"""
	import bb.utils
	cachedir = (d.getVar("PERSISTENT_DIR") or
	d.getVar("CACHE"))
	if not cachedir:
	logger.critical("Please set the 'PERSISTENT_DIR' or 'CACHE' variable")
	sys.exit(1)

	bb.utils.mkdirhier(cachedir)
	cachefile = os.path.join(cachedir, "bb_persist_data.sqlite3")
	return SQLTable(cachefile, domain)