frontend/tko/tko_rpc_utils.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 from autotest_lib.frontend.afe import rpc_utils
 from autotest_lib.client.common_lib import kernel_versions
 from autotest_lib.frontend.tko import models

 class TooManyRowsError(Exception):
     """
     Raised when a database query returns too many rows.
     """


 class KernelString(str):
     """
     Custom string class that uses correct kernel version comparisons.
     """
     def _map(self):
         return kernel_versions.version_encode(self)


     def __hash__(self):
         return hash(self._map())


     def __eq__(self, other):
         return self._map() == other._map()


     def __ne__(self, other):
         return self._map() != other._map()


     def __lt__(self, other):
         return self._map() < other._map()


     def __lte__(self, other):
         return self._map() <= other._map()


     def __gt__(self, other):
         return self._map() > other._map()


     def __gte__(self, other):
         return self._map() >= other._map()


 # SQL expression to compute passed test count for test groups
 _PASS_COUNT_NAME = 'pass_count'
 _COMPLETE_COUNT_NAME = 'complete_count'
 _INCOMPLETE_COUNT_NAME = 'incomplete_count'
 # Using COUNT instead of SUM here ensures the resulting row has the right type
 # (i.e. numeric, not string).  I don't know why.
 _PASS_COUNT_SQL = 'COUNT(IF(status="GOOD", 1, NULL))'
 _COMPLETE_COUNT_SQL = ('COUNT(IF(status NOT IN ("TEST_NA", "RUNNING", '
                                                '"NOSTATUS"), 1, NULL))')
 _INCOMPLETE_COUNT_SQL = 'COUNT(IF(status="RUNNING", 1, NULL))'
 STATUS_FIELDS = {_PASS_COUNT_NAME : _PASS_COUNT_SQL,
                  _COMPLETE_COUNT_NAME : _COMPLETE_COUNT_SQL,
                  _INCOMPLETE_COUNT_NAME : _INCOMPLETE_COUNT_SQL}
 _INVALID_STATUSES = ('TEST_NA', 'NOSTATUS')


 def add_status_counts(group_dict, status):
     pass_count = complete_count = incomplete_count = 0
     if status == 'GOOD':
         pass_count = complete_count = 1
     elif status == 'RUNNING':
         incomplete_count = 1
     else:
         complete_count = 1
     group_dict[_PASS_COUNT_NAME] = pass_count
     group_dict[_COMPLETE_COUNT_NAME] = complete_count
     group_dict[_INCOMPLETE_COUNT_NAME] = incomplete_count
     group_dict[models.TestView.objects._GROUP_COUNT_NAME] = 1


 def _construct_machine_label_header_sql(machine_labels):
     """
     Example result for machine_labels=['Index', 'Diskful']:
     CONCAT_WS(",",
               IF(FIND_IN_SET("Diskful", tko_test_attributes_host_labels.value),
                  "Diskful", NULL),
               IF(FIND_IN_SET("Index", tko_test_attributes_host_labels.value),
                  "Index", NULL))

     This would result in field values "Diskful,Index", "Diskful", "Index", NULL.
     """
     machine_labels = sorted(machine_labels)
     if_clauses = []
     for label in machine_labels:
         if_clauses.append(
             'IF(FIND_IN_SET("%s", tko_test_attributes_host_labels.value), '
                '"%s", NULL)' % (label, label))
     return 'CONCAT_WS(",", %s)' % ', '.join(if_clauses)


 class GroupDataProcessor(object):
     _MAX_GROUP_RESULTS = 80000

     def __init__(self, query, group_by, header_groups, fixed_headers):
         self._query = query
         self._group_by = self.uniqify(group_by)
         self._header_groups = header_groups
         self._fixed_headers = dict((field, set(values))
                                    for field, values
                                    in fixed_headers.iteritems())

         self._num_group_fields = len(group_by)
         self._header_value_sets = [set() for i
                                    in xrange(len(header_groups))]
         self._group_dicts = []


     @staticmethod
     def uniqify(values):
         return list(set(values))


     def _restrict_header_values(self):
         for header_field, values in self._fixed_headers.iteritems():
             self._query = self._query.filter(**{header_field + '__in' : values})


     def _fetch_data(self):
         self._restrict_header_values()
         self._group_dicts = models.TestView.objects.execute_group_query(
             self._query, self._group_by)


     @staticmethod
     def _get_field(group_dict, field):
         """
         Use special objects for certain fields to achieve custom sorting.
         -Wrap kernel versions with a KernelString
         -Replace null dates with special values
         """
         value = group_dict[field]
         if field == 'kernel':
             return KernelString(value)
         if value is None: # handle null dates as later than everything else
             if field.startswith('DATE('):
                 return rpc_utils.NULL_DATE
             if field.endswith('_time'):
                 return rpc_utils.NULL_DATETIME
         return value


     def _process_group_dict(self, group_dict):
         # compute and aggregate header groups
         for i, group in enumerate(self._header_groups):
             header = tuple(self._get_field(group_dict, field)
                            for field in group)
             self._header_value_sets[i].add(header)
             group_dict.setdefault('header_values', []).append(header)

         # frontend's SelectionManager needs a unique ID
         group_values = [group_dict[field] for field in self._group_by]
         group_dict['id'] = str(group_values)
         return group_dict


     def _find_header_value_set(self, field):
         for i, group in enumerate(self._header_groups):
             if [field] == group:
                 return self._header_value_sets[i]
         raise RuntimeError('Field %s not found in header groups %s' %
                            (field, self._header_groups))


     def _add_fixed_headers(self):
         for field, extra_values in self._fixed_headers.iteritems():
             header_value_set = self._find_header_value_set(field)
             for value in extra_values:
                 header_value_set.add((value,))


     def _get_sorted_header_values(self):
         self._add_fixed_headers()
         sorted_header_values = [sorted(value_set)
                                 for value_set in self._header_value_sets]
         # construct dicts mapping headers to their indices, for use in
         # replace_headers_with_indices()
         self._header_index_maps = []
         for value_list in sorted_header_values:
             index_map = dict((value, i) for i, value in enumerate(value_list))
             self._header_index_maps.append(index_map)

         return sorted_header_values


     def _replace_headers_with_indices(self, group_dict):
         group_dict['header_indices'] = [index_map[header_value]
                                         for index_map, header_value
                                         in zip(self._header_index_maps,
                                                group_dict['header_values'])]
         for field in self._group_by + ['header_values']:
             del group_dict[field]


     def process_group_dicts(self):
         self._fetch_data()
         if len(self._group_dicts) > self._MAX_GROUP_RESULTS:
             raise TooManyRowsError(
                 'Query yielded %d rows, exceeding maximum %d' % (
                 len(self._group_dicts), self._MAX_GROUP_RESULTS))

         for group_dict in self._group_dicts:
             self._process_group_dict(group_dict)
         self._header_values = self._get_sorted_header_values()
         if self._header_groups:
             for group_dict in self._group_dicts:
                 self._replace_headers_with_indices(group_dict)


     def get_info_dict(self):
         return {'groups' : self._group_dicts,
                 'header_values' : self._header_values}
	from autotest_lib.frontend.afe import rpc_utils
	from autotest_lib.client.common_lib import kernel_versions
	from autotest_lib.frontend.tko import models

	class TooManyRowsError(Exception):
	"""
	Raised when a database query returns too many rows.
	"""


	class KernelString(str):
	"""
	Custom string class that uses correct kernel version comparisons.
	"""
	def _map(self):
	return kernel_versions.version_encode(self)


	def __hash__(self):
	return hash(self._map())


	def __eq__(self, other):
	return self._map() == other._map()


	def __ne__(self, other):
	return self._map() != other._map()


	def __lt__(self, other):
	return self._map() < other._map()


	def __lte__(self, other):
	return self._map() <= other._map()


	def __gt__(self, other):
	return self._map() > other._map()


	def __gte__(self, other):
	return self._map() >= other._map()


	# SQL expression to compute passed test count for test groups
	_PASS_COUNT_NAME = 'pass_count'
	_COMPLETE_COUNT_NAME = 'complete_count'
	_INCOMPLETE_COUNT_NAME = 'incomplete_count'
	# Using COUNT instead of SUM here ensures the resulting row has the right type
	# (i.e. numeric, not string). I don't know why.
	_PASS_COUNT_SQL = 'COUNT(IF(status="GOOD", 1, NULL))'
	_COMPLETE_COUNT_SQL = ('COUNT(IF(status NOT IN ("TEST_NA", "RUNNING", '
	'"NOSTATUS"), 1, NULL))')
	_INCOMPLETE_COUNT_SQL = 'COUNT(IF(status="RUNNING", 1, NULL))'
	STATUS_FIELDS = {_PASS_COUNT_NAME : _PASS_COUNT_SQL,
	_COMPLETE_COUNT_NAME : _COMPLETE_COUNT_SQL,
	_INCOMPLETE_COUNT_NAME : _INCOMPLETE_COUNT_SQL}
	_INVALID_STATUSES = ('TEST_NA', 'NOSTATUS')


	def add_status_counts(group_dict, status):
	pass_count = complete_count = incomplete_count = 0
	if status == 'GOOD':
	pass_count = complete_count = 1
	elif status == 'RUNNING':
	incomplete_count = 1
	else:
	complete_count = 1
	group_dict[_PASS_COUNT_NAME] = pass_count
	group_dict[_COMPLETE_COUNT_NAME] = complete_count
	group_dict[_INCOMPLETE_COUNT_NAME] = incomplete_count
	group_dict[models.TestView.objects._GROUP_COUNT_NAME] = 1


	def _construct_machine_label_header_sql(machine_labels):
	"""
	Example result for machine_labels=['Index', 'Diskful']:
	CONCAT_WS(",",
	IF(FIND_IN_SET("Diskful", tko_test_attributes_host_labels.value),
	"Diskful", NULL),
	IF(FIND_IN_SET("Index", tko_test_attributes_host_labels.value),
	"Index", NULL))

	This would result in field values "Diskful,Index", "Diskful", "Index", NULL.
	"""
	machine_labels = sorted(machine_labels)
	if_clauses = []
	for label in machine_labels:
	if_clauses.append(
	'IF(FIND_IN_SET("%s", tko_test_attributes_host_labels.value), '
	'"%s", NULL)' % (label, label))
	return 'CONCAT_WS(",", %s)' % ', '.join(if_clauses)


	class GroupDataProcessor(object):
	_MAX_GROUP_RESULTS = 80000

	def __init__(self, query, group_by, header_groups, fixed_headers):
	self._query = query
	self._group_by = self.uniqify(group_by)
	self._header_groups = header_groups
	self._fixed_headers = dict((field, set(values))
	for field, values
	in fixed_headers.iteritems())

	self._num_group_fields = len(group_by)
	self._header_value_sets = [set() for i
	in xrange(len(header_groups))]
	self._group_dicts = []


	@staticmethod
	def uniqify(values):
	return list(set(values))


	def _restrict_header_values(self):
	for header_field, values in self._fixed_headers.iteritems():
	self._query = self._query.filter(**{header_field + '__in' : values})


	def _fetch_data(self):
	self._restrict_header_values()
	self._group_dicts = models.TestView.objects.execute_group_query(
	self._query, self._group_by)


	@staticmethod
	def _get_field(group_dict, field):
	"""
	Use special objects for certain fields to achieve custom sorting.
	-Wrap kernel versions with a KernelString
	-Replace null dates with special values
	"""
	value = group_dict[field]
	if field == 'kernel':
	return KernelString(value)
	if value is None: # handle null dates as later than everything else
	if field.startswith('DATE('):
	return rpc_utils.NULL_DATE
	if field.endswith('_time'):
	return rpc_utils.NULL_DATETIME
	return value


	def _process_group_dict(self, group_dict):
	# compute and aggregate header groups
	for i, group in enumerate(self._header_groups):
	header = tuple(self._get_field(group_dict, field)
	for field in group)
	self._header_value_sets[i].add(header)
	group_dict.setdefault('header_values', []).append(header)

	# frontend's SelectionManager needs a unique ID
	group_values = [group_dict[field] for field in self._group_by]
	group_dict['id'] = str(group_values)
	return group_dict


	def _find_header_value_set(self, field):
	for i, group in enumerate(self._header_groups):
	if [field] == group:
	return self._header_value_sets[i]
	raise RuntimeError('Field %s not found in header groups %s' %
	(field, self._header_groups))


	def _add_fixed_headers(self):
	for field, extra_values in self._fixed_headers.iteritems():
	header_value_set = self._find_header_value_set(field)
	for value in extra_values:
	header_value_set.add((value,))


	def _get_sorted_header_values(self):
	self._add_fixed_headers()
	sorted_header_values = [sorted(value_set)
	for value_set in self._header_value_sets]
	# construct dicts mapping headers to their indices, for use in
	# replace_headers_with_indices()
	self._header_index_maps = []
	for value_list in sorted_header_values:
	index_map = dict((value, i) for i, value in enumerate(value_list))
	self._header_index_maps.append(index_map)

	return sorted_header_values


	def _replace_headers_with_indices(self, group_dict):
	group_dict['header_indices'] = [index_map[header_value]
	for index_map, header_value
	in zip(self._header_index_maps,
	group_dict['header_values'])]
	for field in self._group_by + ['header_values']:
	del group_dict[field]


	def process_group_dicts(self):
	self._fetch_data()
	if len(self._group_dicts) > self._MAX_GROUP_RESULTS:
	raise TooManyRowsError(
	'Query yielded %d rows, exceeding maximum %d' % (
	len(self._group_dicts), self._MAX_GROUP_RESULTS))

	for group_dict in self._group_dicts:
	self._process_group_dict(group_dict)
	self._header_values = self._get_sorted_header_values()
	if self._header_groups:
	for group_dict in self._group_dicts:
	self._replace_headers_with_indices(group_dict)


	def get_info_dict(self):
	return {'groups' : self._group_dicts,
	'header_values' : self._header_values}