tko/db.py - platform/external/autotest - Gitiles

 import re, os, sys, types, time, random

 import common
 from autotest_lib.client.common_lib import global_config


 class MySQLTooManyRows(Exception):
 	pass


 class db_sql:
 	def __init__(self, debug=False, autocommit=True, host=None,
 		     database=None, user=None, password=None):
 		self.debug = debug
 		self.autocommit = autocommit

 		self._load_config(host, database, user, password)

 		self.con = None
 		self._init_db()

 		# if not present, insert statuses
 		self.status_idx = {}
 		self.status_word = {}
 		status_rows = self.select('status_idx, word', 'status', None)
 		for s in status_rows:
 			self.status_idx[s[1]] = s[0]
 			self.status_word[s[0]] = s[1]

 		machine_map = os.path.join(os.path.dirname(__file__),
 					   'machines')
 		if os.path.exists(machine_map):
 			self.machine_map = machine_map
 		else:
 			self.machine_map = None
 		self.machine_group = {}


 	def _load_config(self, host, database, user, password):
 		# grab the global config
 		get_value = global_config.global_config.get_config_value

 		# grab the host, database
 		if not host:
 			self.host = get_value("TKO", "host")
 		if not database:
 			self.database = get_value("TKO", "database")

 		# grab the user and password
 		if not user:
 			self.user = get_value("TKO", "user")
 		if not password:
 			self.password = get_value("TKO", "password")

 		# grab the timeout configuration
 		self.query_timeout = get_value("TKO", "query_timeout",
 					       type=int, default=3600)
 		self.min_delay = get_value("TKO", "min_retry_delay", type=int,
 					   default=20)
 		self.max_delay = get_value("TKO", "max_retry_delay", type=int,
 					   default=60)


 	def _init_db(self):
 		# make sure we clean up any existing connection
 		if self.con:
 			self.con.close()
 			self.con = None

 		# create the db connection and cursor
 		self.con = self.connect(self.host, self.database,
 					self.user, self.password)
 		self.cur = self.con.cursor()


 	def _random_delay(self):
 		delay = random.randint(self.min_delay, self.max_delay)
 		time.sleep(delay)


 	def _run_with_retry(self, function, *args, **dargs):
 		"""Call function(*args, **dargs) until either it passes
 		without an operational error, or a timeout is reached. This
 		is intended for internal use with database functions, not
 		for generic use."""
 		OperationalError = _get_error_class("OperationalError")

 		success = False
 		start_time = time.time()
 		while not success:
 			try:
 				result = function(*args, **dargs)
 			except OperationalError, e:
 				self._log_operational_error(e)
 				stop_time = time.time()
 				elapsed_time = stop_time - start_time
 				if elapsed_time > self.query_timeout:
 					raise
 				else:
 					try:
 						self._random_delay()
 						self._init_db()
 					except OperationalError, e:
 						self._log_operational_error(e)
 			else:
 				success = True
 		return result


 	def _log_operational_error(self, e):
 		msg = ("An operational error occured during a database "
 		       "operation: %s" % str(e))
 		print >> sys.stderr, msg
 		sys.stderr.flush() # we want these msgs to show up immediately


 	def dprint(self, value):
 		if self.debug:
 			sys.stdout.write('SQL: ' + str(value) + '\n')


 	def commit(self):
 		self.con.commit()


 	def get_last_autonumber_value(self):
 		self.cur.execute('SELECT LAST_INSERT_ID()', [])
 		return self.cur.fetchall()[0][0]


 	def select(self, fields, table, where, wherein={},
 		   distinct = False, group_by = None, max_rows = None):
 		"""\
 			This selects all the fields requested from a
 			specific table with a particular where clause.
 			The where clause can either be a dictionary of
 			field=value pairs, a string, or a tuple of (string,
 			a list of values).  The last option is what you
 			should use when accepting user input as it'll
 			protect you against sql injection attacks (if
 			all user data is placed in the array rather than
 			the raw SQL).

 			For example:
 			  where = ("a = %s AND b = %s", ['val', 'val'])
 			is better than
 			  where = "a = 'val' AND b = 'val'"
 		"""
 		cmd = ['select']
 		if distinct:
 			cmd.append('distinct')
 		cmd += [fields, 'from', table]

 		values = []
 		if where and isinstance(where, types.DictionaryType):
 			# key/value pairs (which should be equal)
 			keys = [field + '=%s' for field in where.keys()]
 			values = [where[field] for field in where.keys()]

 			cmd.append(' where ' + ' and '.join(keys))
 		elif where and isinstance(where, types.StringTypes):
 			# the exact string
 			cmd.append(' where ' + where)
 		elif where and isinstance(where, types.TupleType):
 			# preformatted where clause + values
 			(sql, vals) = where
 			values = vals
 			cmd.append(' where (%s) ' % sql)

 		# TODO: this assumes there's a where clause...bad
 		if wherein and isinstance(wherein, types.DictionaryType):
 			keys_in = ["%s in (%s) " % (field, ','.join(where))
 				   for field, where in wherein.iteritems()]
 			cmd.append(' and '+' and '.join(keys_in))

 		if group_by:
 			cmd.append(' GROUP BY ' + group_by)

 		self.dprint('%s %s' % (' '.join(cmd), values))

 		# create a re-runable function for executing the query
 		def exec_sql():
 			sql = ' '.join(cmd)
 			numRec = self.cur.execute(sql, values)
 			if max_rows != None and numRec > max_rows:
 				msg = 'Exceeded allowed number of records'
 				raise MySQLTooManyRows(msg)
 			return self.cur.fetchall()

 		# run the query, re-trying after operational errors
 		return self._run_with_retry(exec_sql)


 	def select_sql(self, fields, table, sql, values):
 		"""\
 			select fields from table "sql"
 		"""
 		cmd = 'select %s from %s %s' % (fields, table, sql)
 		self.dprint(cmd)

 		# create a -re-runable function for executing the query
 		def exec_sql():
 			self.cur.execute(cmd, values)
 			return self.cur.fetchall()

 		# run the query, re-trying after operational errors
 		return self._run_with_retry(exec_sql)


 	def _exec_sql_with_commit(self, sql, values, commit):
 		if self.autocommit:
 			# re-run the query until it succeeds
 			def exec_sql():
 				self.cur.execute(sql, values)
 				self.con.commit()
 			self._run_with_retry(exec_sql)
 		else:
 			# take one shot at running the query
 			self.cur.execute(sql, values)
 			if commit:
 				self.con.commit()


 	def insert(self, table, data, commit = None):
 		"""\
 			'insert into table (keys) values (%s ... %s)', values

 			data:
 				dictionary of fields and data
 		"""
 		fields = data.keys()
 		refs = ['%s' for field in fields]
 		values = [data[field] for field in fields]
 		cmd = 'insert into %s (%s) values (%s)' % \
 				(table, ','.join(fields), ','.join(refs))
 		self.dprint('%s %s' % (cmd, values))

 		self._exec_sql_with_commit(cmd, values, commit)


 	def delete(self, table, where, commit = None):
 		cmd = ['delete from', table]
 		if commit == None:
 			commit = self.autocommit
 		if where and isinstance(where, types.DictionaryType):
 			keys = [field + '=%s' for field in where.keys()]
 			values = [where[field] for field in where.keys()]
 			cmd += ['where', ' and '.join(keys)]
 		sql = ' '.join(cmd)
 		self.dprint('%s %s' % (sql, values))

 		self._exec_sql_with_commit(sql, values, commit)


 	def update(self, table, data, where, commit = None):
 		"""\
 			'update table set data values (%s ... %s) where ...'

 			data:
 				dictionary of fields and data
 		"""
 		if commit == None:
 			commit = self.autocommit
 		cmd = 'update %s ' % table
 		fields = data.keys()
 		data_refs = [field + '=%s' for field in fields]
 		data_values = [data[field] for field in fields]
 		cmd += ' set ' + ' and '.join(data_refs)

 		where_keys = [field + '=%s' for field in where.keys()]
 		where_values = [where[field] for field in where.keys()]
 		cmd += ' where ' + ' and '.join(where_keys)

 		values = data_values + where_values
 		print '%s %s' % (cmd, values)

 		self._exec_sql_with_commit(cmd, values, commit)


 	def delete_job(self, tag, commit = None):
 		job_idx = self.find_job(tag)
 		for test_idx in self.find_tests(job_idx):
 			where = {'test_idx' : test_idx}
 			self.delete('iteration_result', where)
 			self.delete('test_attributes', where)
 		where = {'job_idx' : job_idx}
 		self.delete('tests', where)
 		self.delete('jobs', where)


 	def insert_job(self, tag, job, commit = None):
 		job.machine_idx = self.lookup_machine(job.machine)
 		if not job.machine_idx:
 			job.machine_idx = self.insert_machine(job,
 		                                              commit=commit)
 		self.insert('jobs', {'tag':tag,
                                      'label': job.label,
                                      'username': job.user,
 		                     'machine_idx': job.machine_idx,
 				     'queued_time': job.queued_time,
 				     'started_time': job.started_time,
 				     'finished_time': job.finished_time},
                                      commit=commit)
 		job.index = self.get_last_autonumber_value()
 		for test in job.tests:
 			self.insert_test(job, test, commit=commit)


 	def insert_test(self, job, test, commit = None):
 		kver = self.insert_kernel(test.kernel, commit=commit)
 		data = {'job_idx':job.index, 'test':test.testname,
 			'subdir':test.subdir, 'kernel_idx':kver,
 			'status':self.status_idx[test.status],
 			'reason':test.reason, 'machine_idx':job.machine_idx,
 			'started_time': test.started_time,
 			'finished_time':test.finished_time}
 		self.insert('tests', data, commit=commit)
 		test_idx = self.get_last_autonumber_value()
 		data = { 'test_idx':test_idx }

 		for i in test.iterations:
 			data['iteration'] = i.index
 			for key, value in i.attr_keyval.iteritems():
 				data['attribute'] = key
 				data['value'] = value
 				self.insert('iteration_attributes', data,
 					    commit=commit)
 			for key, value in i.perf_keyval.iteritems():
 				data['attribute'] = key
 				data['value'] = value
 				self.insert('iteration_result', data,
 					    commit=commit)

 		for key, value in test.attributes.iteritems():
 			data = {'test_idx': test_idx, 'attribute': key,
 				'value': value}
 			self.insert('test_attributes', data, commit=commit)


 	def read_machine_map(self):
 		self.machine_group = {}
 		for line in open(self.machine_map, 'r').readlines():
 			(machine, group) = line.split()
 			self.machine_group[machine] = group


 	def insert_machine(self, job, group = None, commit = None):
 		hostname = job.machine
 		if self.machine_map and not self.machine_group:
 			self.read_machine_map()

 		if not group:
 			group = self.machine_group.get(hostname, hostname)
 			if group == hostname and job.machine_owner:
 				group = job.machine_owner + '/' + hostname

 		self.insert('machines',
                             { 'hostname' : hostname ,
 		              'machine_group' : group ,
 			      'owner' : job.machine_owner },
 		            commit=commit)
 		return self.get_last_autonumber_value()


 	def lookup_machine(self, hostname):
 		where = { 'hostname' : hostname }
 		rows = self.select('machine_idx', 'machines', where)
 		if rows:
 			return rows[0][0]
 		else:
 			return None


 	def lookup_kernel(self, kernel):
 		rows = self.select('kernel_idx', 'kernels',
 					{'kernel_hash':kernel.kernel_hash})
 		if rows:
 			return rows[0][0]
 		else:
 			return None


 	def insert_kernel(self, kernel, commit = None):
 		kver = self.lookup_kernel(kernel)
 		if kver:
 			return kver

 		# If this kernel has any significant patches, append their hash
 		# as diferentiator.
 		printable = kernel.base
 		patch_count = 0
 		for patch in kernel.patches:
 			match = re.match(r'.*(-mm[0-9]+|-git[0-9]+)\.(bz2|gz)$',
 								patch.reference)
 			if not match:
 				patch_count += 1

 		self.insert('kernels',
                             {'base':kernel.base,
 		             'kernel_hash':kernel.kernel_hash,
 		             'printable':printable},
 		            commit=commit)
 		kver = self.get_last_autonumber_value()

 		if patch_count > 0:
 			printable += ' p%d' % (kver)
 			self.update('kernels',
 				{'printable':printable},
 				{'kernel_idx':kver})

 		for patch in kernel.patches:
 			self.insert_patch(kver, patch, commit=commit)
 		return kver


 	def insert_patch(self, kver, patch, commit = None):
 		print patch.reference
 		name = os.path.basename(patch.reference)[:80]
 		self.insert('patches',
                             {'kernel_idx': kver,
 		             'name':name,
 		             'url':patch.reference,
 		             'hash':patch.hash},
                             commit=commit)


 	def find_test(self, job_idx, subdir):
 		where = { 'job_idx':job_idx , 'subdir':subdir }
 		rows = self.select('test_idx', 'tests', where)
 		if rows:
 			return rows[0][0]
 		else:
 			return None


 	def find_tests(self, job_idx):
 		where = { 'job_idx':job_idx }
 		rows = self.select('test_idx', 'tests', where)
 		if rows:
 			return [row[0] for row in rows]
 		else:
 			return []


 	def find_job(self, tag):
 		rows = self.select('job_idx', 'jobs', {'tag': tag})
 		if rows:
 			return rows[0][0]
 		else:
 			return None


 def _get_db_type():
 	"""Get the database type name to use from the global config."""
 	get_value = global_config.global_config.get_config_value
 	return "db_" + get_value("TKO", "db_type", default="mysql")


 def _get_error_class(class_name):
 	"""Retrieves the appropriate error class by name from the database
 	module."""
 	db_module = __import__("autotest_lib.tko." + _get_db_type(),
 			       globals(), locals(), ["driver"])
 	return getattr(db_module.driver, class_name)


 def db(*args, **dargs):
 	"""Creates an instance of the database class with the arguments
 	provided in args and dargs, using the database type specified by
 	the global configuration (defaulting to mysql)."""
 	db_type = _get_db_type()
 	db_module = __import__("autotest_lib.tko." + db_type, globals(),
 			       locals(), [db_type])
 	db = getattr(db_module, db_type)(*args, **dargs)
 	return db
	import re, os, sys, types, time, random

	import common
	from autotest_lib.client.common_lib import global_config


	class MySQLTooManyRows(Exception):
	pass


	class db_sql:
	def __init__(self, debug=False, autocommit=True, host=None,
	database=None, user=None, password=None):
	self.debug = debug
	self.autocommit = autocommit

	self._load_config(host, database, user, password)

	self.con = None
	self._init_db()

	# if not present, insert statuses
	self.status_idx = {}
	self.status_word = {}
	status_rows = self.select('status_idx, word', 'status', None)
	for s in status_rows:
	self.status_idx[s[1]] = s[0]
	self.status_word[s[0]] = s[1]

	machine_map = os.path.join(os.path.dirname(__file__),
	'machines')
	if os.path.exists(machine_map):
	self.machine_map = machine_map
	else:
	self.machine_map = None
	self.machine_group = {}


	def _load_config(self, host, database, user, password):
	# grab the global config
	get_value = global_config.global_config.get_config_value

	# grab the host, database
	if not host:
	self.host = get_value("TKO", "host")
	if not database:
	self.database = get_value("TKO", "database")

	# grab the user and password
	if not user:
	self.user = get_value("TKO", "user")
	if not password:
	self.password = get_value("TKO", "password")

	# grab the timeout configuration
	self.query_timeout = get_value("TKO", "query_timeout",
	type=int, default=3600)
	self.min_delay = get_value("TKO", "min_retry_delay", type=int,
	default=20)
	self.max_delay = get_value("TKO", "max_retry_delay", type=int,
	default=60)


	def _init_db(self):
	# make sure we clean up any existing connection
	if self.con:
	self.con.close()
	self.con = None

	# create the db connection and cursor
	self.con = self.connect(self.host, self.database,
	self.user, self.password)
	self.cur = self.con.cursor()


	def _random_delay(self):
	delay = random.randint(self.min_delay, self.max_delay)
	time.sleep(delay)


	def _run_with_retry(self, function, args, *dargs):
	"""Call function(args, *dargs) until either it passes
	without an operational error, or a timeout is reached. This
	is intended for internal use with database functions, not
	for generic use."""
	OperationalError = _get_error_class("OperationalError")

	success = False
	start_time = time.time()
	while not success:
	try:
	result = function(args, *dargs)
	except OperationalError, e:
	self._log_operational_error(e)
	stop_time = time.time()
	elapsed_time = stop_time - start_time
	if elapsed_time > self.query_timeout:
	raise
	else:
	try:
	self._random_delay()
	self._init_db()
	except OperationalError, e:
	self._log_operational_error(e)
	else:
	success = True
	return result


	def _log_operational_error(self, e):
	msg = ("An operational error occured during a database "
	"operation: %s" % str(e))
	print >> sys.stderr, msg
	sys.stderr.flush() # we want these msgs to show up immediately


	def dprint(self, value):
	if self.debug:
	sys.stdout.write('SQL: ' + str(value) + '\n')


	def commit(self):
	self.con.commit()


	def get_last_autonumber_value(self):
	self.cur.execute('SELECT LAST_INSERT_ID()', [])
	return self.cur.fetchall()[0][0]


	def select(self, fields, table, where, wherein={},
	distinct = False, group_by = None, max_rows = None):
	"""\
	This selects all the fields requested from a
	specific table with a particular where clause.
	The where clause can either be a dictionary of
	field=value pairs, a string, or a tuple of (string,
	a list of values). The last option is what you
	should use when accepting user input as it'll
	protect you against sql injection attacks (if
	all user data is placed in the array rather than
	the raw SQL).

	For example:
	where = ("a = %s AND b = %s", ['val', 'val'])
	is better than
	where = "a = 'val' AND b = 'val'"
	"""
	cmd = ['select']
	if distinct:
	cmd.append('distinct')
	cmd += [fields, 'from', table]

	values = []
	if where and isinstance(where, types.DictionaryType):
	# key/value pairs (which should be equal)
	keys = [field + '=%s' for field in where.keys()]
	values = [where[field] for field in where.keys()]

	cmd.append(' where ' + ' and '.join(keys))
	elif where and isinstance(where, types.StringTypes):
	# the exact string
	cmd.append(' where ' + where)
	elif where and isinstance(where, types.TupleType):
	# preformatted where clause + values
	(sql, vals) = where
	values = vals
	cmd.append(' where (%s) ' % sql)

	# TODO: this assumes there's a where clause...bad
	if wherein and isinstance(wherein, types.DictionaryType):
	keys_in = ["%s in (%s) " % (field, ','.join(where))
	for field, where in wherein.iteritems()]
	cmd.append(' and '+' and '.join(keys_in))

	if group_by:
	cmd.append(' GROUP BY ' + group_by)

	self.dprint('%s %s' % (' '.join(cmd), values))

	# create a re-runable function for executing the query
	def exec_sql():
	sql = ' '.join(cmd)
	numRec = self.cur.execute(sql, values)
	if max_rows != None and numRec > max_rows:
	msg = 'Exceeded allowed number of records'
	raise MySQLTooManyRows(msg)
	return self.cur.fetchall()

	# run the query, re-trying after operational errors
	return self._run_with_retry(exec_sql)


	def select_sql(self, fields, table, sql, values):
	"""\
	select fields from table "sql"
	"""
	cmd = 'select %s from %s %s' % (fields, table, sql)
	self.dprint(cmd)

	# create a -re-runable function for executing the query
	def exec_sql():
	self.cur.execute(cmd, values)
	return self.cur.fetchall()

	# run the query, re-trying after operational errors
	return self._run_with_retry(exec_sql)


	def _exec_sql_with_commit(self, sql, values, commit):
	if self.autocommit:
	# re-run the query until it succeeds
	def exec_sql():
	self.cur.execute(sql, values)
	self.con.commit()
	self._run_with_retry(exec_sql)
	else:
	# take one shot at running the query
	self.cur.execute(sql, values)
	if commit:
	self.con.commit()


	def insert(self, table, data, commit = None):
	"""\
	'insert into table (keys) values (%s ... %s)', values

	data:
	dictionary of fields and data
	"""
	fields = data.keys()
	refs = ['%s' for field in fields]
	values = [data[field] for field in fields]
	cmd = 'insert into %s (%s) values (%s)' % \
	(table, ','.join(fields), ','.join(refs))
	self.dprint('%s %s' % (cmd, values))

	self._exec_sql_with_commit(cmd, values, commit)


	def delete(self, table, where, commit = None):
	cmd = ['delete from', table]
	if commit == None:
	commit = self.autocommit
	if where and isinstance(where, types.DictionaryType):
	keys = [field + '=%s' for field in where.keys()]
	values = [where[field] for field in where.keys()]
	cmd += ['where', ' and '.join(keys)]
	sql = ' '.join(cmd)
	self.dprint('%s %s' % (sql, values))

	self._exec_sql_with_commit(sql, values, commit)


	def update(self, table, data, where, commit = None):
	"""\
	'update table set data values (%s ... %s) where ...'

	data:
	dictionary of fields and data
	"""
	if commit == None:
	commit = self.autocommit
	cmd = 'update %s ' % table
	fields = data.keys()
	data_refs = [field + '=%s' for field in fields]
	data_values = [data[field] for field in fields]
	cmd += ' set ' + ' and '.join(data_refs)

	where_keys = [field + '=%s' for field in where.keys()]
	where_values = [where[field] for field in where.keys()]
	cmd += ' where ' + ' and '.join(where_keys)

	values = data_values + where_values
	print '%s %s' % (cmd, values)

	self._exec_sql_with_commit(cmd, values, commit)


	def delete_job(self, tag, commit = None):
	job_idx = self.find_job(tag)
	for test_idx in self.find_tests(job_idx):
	where = {'test_idx' : test_idx}
	self.delete('iteration_result', where)
	self.delete('test_attributes', where)
	where = {'job_idx' : job_idx}
	self.delete('tests', where)
	self.delete('jobs', where)


	def insert_job(self, tag, job, commit = None):
	job.machine_idx = self.lookup_machine(job.machine)
	if not job.machine_idx:
	job.machine_idx = self.insert_machine(job,
	commit=commit)
	self.insert('jobs', {'tag':tag,
	'label': job.label,
	'username': job.user,
	'machine_idx': job.machine_idx,
	'queued_time': job.queued_time,
	'started_time': job.started_time,
	'finished_time': job.finished_time},
	commit=commit)
	job.index = self.get_last_autonumber_value()
	for test in job.tests:
	self.insert_test(job, test, commit=commit)


	def insert_test(self, job, test, commit = None):
	kver = self.insert_kernel(test.kernel, commit=commit)
	data = {'job_idx':job.index, 'test':test.testname,
	'subdir':test.subdir, 'kernel_idx':kver,
	'status':self.status_idx[test.status],
	'reason':test.reason, 'machine_idx':job.machine_idx,
	'started_time': test.started_time,
	'finished_time':test.finished_time}
	self.insert('tests', data, commit=commit)
	test_idx = self.get_last_autonumber_value()
	data = { 'test_idx':test_idx }

	for i in test.iterations:
	data['iteration'] = i.index
	for key, value in i.attr_keyval.iteritems():
	data['attribute'] = key
	data['value'] = value
	self.insert('iteration_attributes', data,
	commit=commit)
	for key, value in i.perf_keyval.iteritems():
	data['attribute'] = key
	data['value'] = value
	self.insert('iteration_result', data,
	commit=commit)

	for key, value in test.attributes.iteritems():
	data = {'test_idx': test_idx, 'attribute': key,
	'value': value}
	self.insert('test_attributes', data, commit=commit)


	def read_machine_map(self):
	self.machine_group = {}
	for line in open(self.machine_map, 'r').readlines():
	(machine, group) = line.split()
	self.machine_group[machine] = group


	def insert_machine(self, job, group = None, commit = None):
	hostname = job.machine
	if self.machine_map and not self.machine_group:
	self.read_machine_map()

	if not group:
	group = self.machine_group.get(hostname, hostname)
	if group == hostname and job.machine_owner:
	group = job.machine_owner + '/' + hostname

	self.insert('machines',
	{ 'hostname' : hostname ,
	'machine_group' : group ,
	'owner' : job.machine_owner },
	commit=commit)
	return self.get_last_autonumber_value()


	def lookup_machine(self, hostname):
	where = { 'hostname' : hostname }
	rows = self.select('machine_idx', 'machines', where)
	if rows:
	return rows[0][0]
	else:
	return None


	def lookup_kernel(self, kernel):
	rows = self.select('kernel_idx', 'kernels',
	{'kernel_hash':kernel.kernel_hash})
	if rows:
	return rows[0][0]
	else:
	return None


	def insert_kernel(self, kernel, commit = None):
	kver = self.lookup_kernel(kernel)
	if kver:
	return kver

	# If this kernel has any significant patches, append their hash
	# as diferentiator.
	printable = kernel.base
	patch_count = 0
	for patch in kernel.patches:
	match = re.match(r'.*(-mm[0-9]+\|-git[0-9]+)\.(bz2\|gz)$',
	patch.reference)
	if not match:
	patch_count += 1

	self.insert('kernels',
	{'base':kernel.base,
	'kernel_hash':kernel.kernel_hash,
	'printable':printable},
	commit=commit)
	kver = self.get_last_autonumber_value()

	if patch_count > 0:
	printable += ' p%d' % (kver)
	self.update('kernels',
	{'printable':printable},
	{'kernel_idx':kver})

	for patch in kernel.patches:
	self.insert_patch(kver, patch, commit=commit)
	return kver


	def insert_patch(self, kver, patch, commit = None):
	print patch.reference
	name = os.path.basename(patch.reference)[:80]
	self.insert('patches',
	{'kernel_idx': kver,
	'name':name,
	'url':patch.reference,
	'hash':patch.hash},
	commit=commit)


	def find_test(self, job_idx, subdir):
	where = { 'job_idx':job_idx , 'subdir':subdir }
	rows = self.select('test_idx', 'tests', where)
	if rows:
	return rows[0][0]
	else:
	return None


	def find_tests(self, job_idx):
	where = { 'job_idx':job_idx }
	rows = self.select('test_idx', 'tests', where)
	if rows:
	return [row[0] for row in rows]
	else:
	return []


	def find_job(self, tag):
	rows = self.select('job_idx', 'jobs', {'tag': tag})
	if rows:
	return rows[0][0]
	else:
	return None


	def _get_db_type():
	"""Get the database type name to use from the global config."""
	get_value = global_config.global_config.get_config_value
	return "db_" + get_value("TKO", "db_type", default="mysql")


	def _get_error_class(class_name):
	"""Retrieves the appropriate error class by name from the database
	module."""
	db_module = __import__("autotest_lib.tko." + _get_db_type(),
	globals(), locals(), ["driver"])
	return getattr(db_module.driver, class_name)


	def db(args, *dargs):
	"""Creates an instance of the database class with the arguments
	provided in args and dargs, using the database type specified by
	the global configuration (defaulting to mysql)."""
	db_type = _get_db_type()
	db_module = __import__("autotest_lib.tko." + db_type, globals(),
	locals(), [db_type])
	db = getattr(db_module, db_type)(args, *dargs)
	return db