blob: 6d34c53f3bd1110a4786cc4afcf1053542b07eac [file] [log] [blame]
# Copyright (c) 2014 The Chromium OS Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
import MySQLdb as driver
except ImportError:
# This module (tko) is unconditionally imported by autoserv,
# even in environments where MyQSLdb is unavailable. Thus, we
# need to cope with import failure here.
# See for
# context.
class UtterlyFakeDb(object):
"""Lame fake of MySQLdb for import time needs of this file."""
OperationalError = object()
driver = UtterlyFakeDb
import math
import os
import random
import re
import sys
import time
import common
from autotest_lib.client.common_lib import global_config
from autotest_lib.client.common_lib import utils
from autotest_lib.client.common_lib.cros import retry
from autotest_lib.frontend import database_settings_helper
from chromite.lib import metrics
except ImportError:
metrics = utils.metrics_mock
def _log_error(msg):
"""Log an error message.
@param msg: Message string
print >> sys.stderr, msg
sys.stderr.flush() # we want these msgs to show up immediately
def _format_operational_error(e):
"""Format OperationalError.
@param e: OperationalError instance.
return ("%s: An operational error occurred during a database "
"operation: %s" % (time.strftime("%X %x"), str(e)))
class MySQLTooManyRows(Exception):
"""Too many records."""
def _connection_retry_callback():
"""Callback method used to increment a retry metric."""
class db_sql(object):
"""Data access."""
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
# if not present, insert statuses
self.status_idx = {}
self.status_word = {}
status_rows ='status_idx, word', 'tko_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__),
if os.path.exists(machine_map):
self.machine_map = machine_map
self.machine_map = None
self.machine_group = {}
def _load_config(self, host, database, user, password):
"""Loads configuration settings required to connect to the database.
This will try to connect to use the settings prefixed with global_db_.
If they do not exist, they un-prefixed settings will be used.
If parameters are supplied, these will be taken instead of the values
in global_config.
The setting of 'host' can be a real host, or a unix socket if it starts
with '/'.
@param host: If set, this host will be used, if not, the host will be
retrieved from global_config.
@param database: If set, this database will be used, if not, the
database will be retrieved from global_config.
@param user: If set, this user will be used, if not, the
user will be retrieved from global_config.
@param password: If set, this password will be used, if not, the
password will be retrieved from global_config.
database_settings = database_settings_helper.get_global_db_config()
# grab the host, database = host or database_settings['HOST']
self.database = database or database_settings['NAME']
# grab the user and password
self.user = user or database_settings['USER']
self.password = password or database_settings['PASSWORD']
# grab the timeout configuration
self.query_timeout =(
database_settings.get('OPTIONS', {}).get('timeout', 3600))
# Using fallback to non-global in order to work without configuration
# overhead on non-shard instances.
get_value = global_config.global_config.get_config_value_with_fallback
self.min_delay = get_value("AUTOTEST_WEB", "global_db_min_retry_delay",
"min_retry_delay", type=int, default=20)
self.max_delay = get_value("AUTOTEST_WEB", "global_db_max_retry_delay",
"max_retry_delay", type=int, default=60)
# TODO(beeps): Move this to django settings once we have routers.
# On test instances mysql connects through a different port. No point
# piping this through our entire infrastructure when it is only really
# used for testing; Ideally we would specify this through django
# settings and default it to the empty string so django will figure out
# the default based on the database backend (eg: mysql, 3306), but until
# we have database routers in place any django settings will apply to
# both tko and afe.
# The intended use of this port is to allow a testing shard vm to
# update the master vm's database with test results. Specifying
# and empty string will fallback to not even specifying the port
# to the backend in tko/ Unfortunately this means retries
# won't work on the test cluster till we've migrated to routers.
self.port = global_config.global_config.get_config_value(
"AUTOTEST_WEB", "global_db_port", type=str, default='')
def _init_db(self):
# make sure we clean up any existing connection
if self.con:
self.con = None
# create the db connection and cursor
self.con = self.connect(, self.database,
self.user, self.password, self.port)
self.cur = self.con.cursor()
def _random_delay(self):
delay = random.randint(self.min_delay, self.max_delay)
@retry.retry(driver.OperationalError, timeout_min=10,
delay_sec=5, callback=_connection_retry_callback)
def connect(self, host, database, user, password, port):
"""Open and return a connection to mysql database."""
connection_args = {
'db': database,
'user': user,
'passwd': password,
'connect_timeout': 20,
if port:
connection_args['port'] = int(port)
if host.startswith('/'):
return driver.connect(unix_socket=host, **connection_args)
return driver.connect(host=host, **connection_args)
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 will re-connect to the database, so it is NOT safe
to use this inside of a database transaction.
It can be safely used with transactions, but the
transaction start & end must be completely contained
within the call to 'function'.
@param function: The function to run with retry.
@param args: The arguments
@param dargs: The named arguments.
success = False
start_time = time.time()
while not success:
result = function(*args, **dargs)
except driver.OperationalError, e:
_log_error("%s; retrying, don't panic yet"
% _format_operational_error(e))
stop_time = time.time()
elapsed_time = stop_time - start_time
if elapsed_time > self.query_timeout:
except driver.OperationalError, e:
_log_error('%s; panic now'
% _format_operational_error(e))
success = True
return result
def dprint(self, value):
"""Print out debug value.
@param value: The value to print out.
if self.debug:
sys.stdout.write('SQL: ' + str(value) + '\n')
def _commit(self):
"""Private method for function commit to call for retry.
return self.con.commit()
def commit(self):
"""Commit the sql transaction."""
if self.autocommit:
return self.run_with_retry(self._commit)
return self._commit()
def rollback(self):
"""Rollback the sql transaction."""
def get_last_autonumber_value(self):
"""Gets the last auto number.
@return: The last auto number.
self.cur.execute('SELECT LAST_INSERT_ID()', [])
return self.cur.fetchall()[0][0]
def _quote(self, field):
return '`%s`' % field
def _where_clause(self, where):
if not where:
return '', []
if isinstance(where, dict):
# key/value pairs (which should be equal, or None for null)
keys, values = [], []
for field, value in where.iteritems():
quoted_field = self._quote(field)
if value is None:
keys.append(quoted_field + ' is null')
keys.append(quoted_field + '=%s')
where_clause = ' and '.join(keys)
elif isinstance(where, basestring):
# the exact string
where_clause = where
values = []
elif isinstance(where, tuple):
# preformatted where clause + values
where_clause, values = where
assert where_clause
raise ValueError('Invalid "where" value: %r' % where)
return ' WHERE ' + where_clause, values
def select(self, fields, table, where, distinct=False, group_by=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'"
@param fields: The list of selected fields string.
@param table: The name of the database table.
@param where: The where clause string.
@param distinct: If select distinct values.
@param group_by: Group by clause.
@param max_rows: unused.
cmd = ['select']
if distinct:
cmd += [fields, 'from', table]
where_clause, values = self._where_clause(where)
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():
"""Exeuctes an the sql command."""
sql = ' '.join(cmd)
numRec = self.cur.execute(sql, values)
if max_rows is not 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
if self.autocommit:
return self.run_with_retry(exec_sql)
return exec_sql()
def select_sql(self, fields, table, sql, values):
select fields from table "sql"
@param fields: The list of selected fields string.
@param table: The name of the database table.
@param sql: The sql string.
@param values: The sql string parameter values.
cmd = 'select %s from %s %s' % (fields, table, sql)
# 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
if self.autocommit:
return self.run_with_retry(_exec_sql)
return _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)
# take one shot at running the query
self.cur.execute(sql, values)
if commit:
def insert(self, table, data, commit=None):
'insert into table (keys) values (%s ... %s)', values
dictionary of fields and data
@param table: The name of the table.
@param data: The insert data.
@param commit: If commit the transaction .
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(self._quote(field) for field in fields),
self.dprint('%s %s' % (cmd, values))
self._exec_sql_with_commit(cmd, values, commit)
def delete(self, table, where, commit = None):
"""Delete entries.
@param table: The name of the table.
@param where: The where clause.
@param commit: If commit the transaction .
cmd = ['delete from', table]
if commit is None:
commit = self.autocommit
where_clause, values = self._where_clause(where)
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 ...'
dictionary of fields and data
@param table: The name of the table.
@param data: The sql parameter values.
@param where: The where clause.
@param commit: If commit the transaction .
if commit is None:
commit = self.autocommit
cmd = 'update %s ' % table
fields = data.keys()
data_refs = [self._quote(field) + '=%s' for field in fields]
data_values = [data[field] for field in fields]
cmd += ' set ' + ', '.join(data_refs)
where_clause, where_values = self._where_clause(where)
cmd += where_clause
values = data_values + where_values
self.dprint('%s %s' % (cmd, values))
self._exec_sql_with_commit(cmd, values, commit)
def delete_job(self, tag, commit = None):
"""Delete a tko job.
@param tag: The job tag.
@param commit: If commit the transaction .
job_idx = self.find_job(tag)
for test_idx in self.find_tests(job_idx):
where = {'test_idx' : test_idx}
self.delete('tko_iteration_result', where)
self.delete('tko_iteration_perf_value', where)
self.delete('tko_iteration_attributes', where)
self.delete('tko_test_attributes', where)
self.delete('tko_test_labels_tests', {'test_id': test_idx})
where = {'job_idx' : job_idx}
self.delete('tko_tests', where)
self.delete('tko_jobs', where)
def insert_job(self, tag, job, commit=None):
"""Insert a tko job.
@param tag: The job tag.
@param job: The job object.
@param commit: If commit the transaction .
data = self._get_common_job_data(tag, job)
'afe_job_id': job.afe_job_id,
'afe_parent_job_id': job.afe_parent_job_id,
if job.job_idx is not None:
'tko_jobs', data, {'job_idx': job.job_idx}, commit=commit)
self.insert('tko_jobs', data, commit=commit)
job.job_idx = self.get_last_autonumber_value()
def _get_common_job_data(self, tag, job):
"""Construct a dictionary with the common data to insert in job/task."""
return {
'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,
'build_version': job.build_version,
'board': job.board,
'suite': job.suite,
def insert_or_update_task_reference(self, job, reference_type, commit=None):
"""Insert an entry in the tko_task_references table.
The job should already have been inserted in tko_jobs.
@param job: tko.models.job object.
@param reference_type: The type of reference to insert.
One of: {'afe', 'skylab'}
@param commit: Whether to commit this transaction.
assert reference_type in {'afe', 'skylab'}
if reference_type == 'afe':
task_id = job.afe_job_id
parent_task_id = job.afe_parent_job_id
task_id = job.skylab_task_id
parent_task_id = job.skylab_parent_task_id
data = {
'reference_type': reference_type,
'tko_job_idx': job.job_idx,
'task_id': task_id,
'parent_task_id': parent_task_id,
task_reference_id = self._lookup_task_reference(job)
if task_reference_id is not None:
{'id': task_reference_id},
job.task_reference_id = task_reference_id
self.insert('tko_task_references', data, commit=commit)
job.task_reference_id = self.get_last_autonumber_value()
def update_job_keyvals(self, job, commit=None):
"""Updates the job key values.
@param job: The job object.
@param commit: If commit the transaction .
for key, value in job.keyval_dict.iteritems():
where = {'job_id': job.job_idx, 'key': key}
data = dict(where, value=value)
exists ='id', 'tko_job_keyvals', where=where)
if exists:
self.update('tko_job_keyvals', data, where=where, commit=commit)
self.insert('tko_job_keyvals', data, commit=commit)
def insert_test(self, job, test, commit = None):
"""Inserts a job test.
@param job: The job object.
@param test: The test object.
@param commit: If commit the transaction .
kver = self.insert_kernel(test.kernel, commit=commit)
data = {'job_idx':job.job_idx, 'test':test.testname,
'subdir':test.subdir, 'kernel_idx':kver,
'reason':test.reason, 'machine_idx':job.machine_idx,
'started_time': test.started_time,
is_update = hasattr(test, "test_idx")
if is_update:
test_idx = test.test_idx
self.update('tko_tests', data,
{'test_idx': test_idx}, commit=commit)
where = {'test_idx': test_idx}
self.delete('tko_iteration_result', where)
self.delete('tko_iteration_perf_value', where)
self.delete('tko_iteration_attributes', where)
where['user_created'] = 0
self.delete('tko_test_attributes', where)
self.insert('tko_tests', data, commit=commit)
test_idx = test.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('tko_iteration_attributes', data,
for key, value in i.perf_keyval.iteritems():
data['attribute'] = key
if math.isnan(value) or math.isinf(value):
data['value'] = None
data['value'] = value
self.insert('tko_iteration_result', data,
data = {'test_idx': test_idx}
for key, value in test.attributes.iteritems():
data = {'test_idx': test_idx, 'attribute': key,
'value': value}
self.insert('tko_test_attributes', data, commit=commit)
_log_error('Uploading attribute %r' % (data))
if not is_update:
for label_index in test.labels:
data = {'test_id': test_idx, 'testlabel_id': label_index}
self.insert('tko_test_labels_tests', data, commit=commit)
def read_machine_map(self):
"""Reads the machine map."""
if self.machine_group or not self.machine_map:
for line in open(self.machine_map, 'r').readlines():
(machine, group) = line.split()
self.machine_group[machine] = group
def machine_info_dict(self, job):
"""Reads the machine information of a job.
@param job: The job object.
@return: The machine info dictionary.
hostname = job.machine
group = job.machine_group
owner = job.machine_owner
if not group:
group = self.machine_group.get(hostname, hostname)
if group == hostname and owner:
group = owner + '/' + hostname
return {'hostname': hostname, 'machine_group': group, 'owner': owner}
def insert_or_update_machine(self, job, commit=None):
"""Insert or updates machine information for the given job.
Also updates the job object with new machine index, if any.
@param job: tko.models.job object.
@param commit: Whether to commit the database transaction.
job.machine_idx = self._lookup_machine(job.machine)
if not job.machine_idx:
job.machine_idx = self._insert_machine(job, commit=commit)
elif job.machine:
# Only try to update tko_machines record if machine is set. This
# prevents unnecessary db writes for suite jobs.
self._update_machine_information(job, commit=commit)
def _lookup_task_reference(self, job):
"""Find the task_reference_id for a given job. Return None if not found.
@param job: tko.models.job object.
if job.job_idx is None:
return None
rows =
'id', 'tko_task_references', {'tko_job_idx': job.job_idx})
if not rows:
return None
if len(rows) > 1:
raise MySQLTooManyRows('Got %d tko_task_references for tko_job %d'
% (len(rows), job.job_idx))
return rows[0][0]
def _insert_machine(self, job, commit = None):
"""Inserts the job machine.
@param job: The job object.
@param commit: If commit the transaction .
machine_info = self.machine_info_dict(job)
self.insert('tko_machines', machine_info, commit=commit)
return self.get_last_autonumber_value()
def _update_machine_information(self, job, commit = None):
"""Updates the job machine information.
@param job: The job object.
@param commit: If commit the transaction .
machine_info = self.machine_info_dict(job)
self.update('tko_machines', machine_info,
where={'hostname': machine_info['hostname']},
def _lookup_machine(self, hostname):
"""Look up the machine information.
@param hostname: The hostname as string.
where = { 'hostname' : hostname }
rows ='machine_idx', 'tko_machines', where)
if rows:
return rows[0][0]
return None
def lookup_kernel(self, kernel):
"""Look up the kernel.
@param kernel: The kernel object.
rows ='kernel_idx', 'tko_kernels',
if rows:
return rows[0][0]
return None
def insert_kernel(self, kernel, commit = None):
"""Insert a kernel.
@param kernel: The kernel object.
@param commit: If commit the transaction .
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)$',
if not match:
patch_count += 1
kver = self.get_last_autonumber_value()
if patch_count > 0:
printable += ' p%d' % (kver)
for patch in kernel.patches:
self.insert_patch(kver, patch, commit=commit)
return kver
def insert_patch(self, kver, patch, commit = None):
"""Insert a kernel patch.
@param kver: The kernel version.
@param patch: The kernel patch object.
@param commit: If commit the transaction .
print patch.reference
name = os.path.basename(patch.reference)[:80]
{'kernel_idx': kver,
def find_tests(self, job_idx):
"""Find all tests by job index.
@param job_idx: The job index.
@return: A list of tests.
where = { 'job_idx':job_idx }
rows ='test_idx', 'tko_tests', where)
if rows:
return [row[0] for row in rows]
return []
def find_job(self, tag):
"""Find a job by tag.
@param tag: The job tag name.
@return: The job object or None.
rows ='job_idx', 'tko_jobs', {'tag': tag})
if rows:
return rows[0][0]
return None
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).
@param args: The db_type arguments.
@param dargs: The db_type named arguments.
@return: An db object.
return db_sql(*args, **dargs)