def _check_by_comparison_entities_fetched_by_different_id_types(
cls, query_results: List[SeqscapeEntityQueryAndResults]) -> List:
check_result = CheckResult(
check_name=CHECK_NAMES.
check_entities_in_seqscape_fetched_by_different_ids)
for i in range(1, len(query_results)):
entities_1 = query_results[i - 1]
entities_2 = query_results[i]
if not (set(entities_1.entities_fetched).issubset(
set(entities_2.entities_fetched))
or set(entities_2.entities_fetched).issubset(
set(entities_1.entities_fetched))):
id_type_1 = entities_1.query_id_type
id_type_2 = entities_2.query_id_type
diff_1 = set(entities_1.entities_fetched).difference(
set(entities_2.entities_fetched))
diff_2 = set(entities_2.entities_fetched).difference(
set(entities_1.entities_fetched))
error_message = ""
if diff_1:
error_message = "Extra %s found when querying by %s compared to %s: %s." % (
entities_1.query_entity_type, id_type_1, id_type_2,
diff_1)
if diff_2:
error_message += "Extra %s found when querying by %s compared to %s: %s." % (
entities_2.query_entity_type, id_type_2, id_type_1,
diff_2)
if not diff_2 and not diff_1:
raise ValueError(
"Somehow the entity sets are different, but I can't detect any difference."
)
check_result.error_message = error_message
check_result.result = RESULT.FAILURE
return check_result
def validate_fields(self):
check_results = []
checksum_check_result = CheckResult(
check_name=CHECK_NAMES.check_replica_checksum_valid,
severity=SEVERITY.IMPORTANT)
try:
is_valid_checksum = self._is_checksum_valid(self.checksum)
if not is_valid_checksum:
checksum_check_result.result = RESULT.FAILURE
checksum_check_result.error_message = "The checksum looks invalid: " + str(
self.checksum)
except TypeError as e:
checksum_check_result.result = RESULT.FAILURE
checksum_check_result.error_message = "The checksum looks invalid: " + str(
self.checksum)
valid_replicas_check_result = CheckResult(
check_name=CHECK_NAMES.check_replica_number,
severity=SEVERITY.WARNING)
if not self._is_replica_nr_valid(self.replica_nr):
valid_replicas_check_result.result = RESULT.FAILURE
valid_replicas_check_result.error_message = "The replica number looks invalid: " + str(
self.replica_nr)
check_results.append(checksum_check_result)
check_results.append(valid_replicas_check_result)
return check_results
def check_all_ids_were_found(self) -> List:
ids_missing = self._find_missing_ids()
check_result = CheckResult(check_name=CHECK_NAMES.check_all_irods_ids_found_in_seqscape)
if ids_missing:
check_result.error_message="The following ids weren't found in SequencescapeDB: %s " % ids_missing
check_result.result = RESULT.FAILURE
return check_result
def _check_by_comparison_entities_fetched_by_different_id_types(cls, query_results: List[
SeqscapeEntityQueryAndResults]) -> List:
check_result = CheckResult(check_name=CHECK_NAMES.check_entities_in_seqscape_fetched_by_different_ids)
for i in range(1, len(query_results)):
entities_1 = query_results[i - 1]
entities_2 = query_results[i]
if not (set(entities_1.entities_fetched).issubset(set(entities_2.entities_fetched)) or
set(entities_2.entities_fetched).issubset(set(entities_1.entities_fetched))):
id_type_1 = entities_1.query_id_type
id_type_2 = entities_2.query_id_type
diff_1 = set(entities_1.entities_fetched).difference(set(entities_2.entities_fetched))
diff_2 = set(entities_2.entities_fetched).difference(set(entities_1.entities_fetched))
error_message = ""
if diff_1:
error_message = "Extra %s found when querying by %s compared to %s: %s." % (
entities_1.query_entity_type, id_type_1, id_type_2, diff_1)
if diff_2:
error_message += "Extra %s found when querying by %s compared to %s: %s." % (
entities_2.query_entity_type, id_type_2, id_type_1, diff_2)
if not diff_2 and not diff_1:
raise ValueError("Somehow the entity sets are different, but I can't detect any difference.")
check_result.error_message=error_message
check_result.result = RESULT.FAILURE
return check_result
def check_no_duplicates_found(self) -> List:
check_result = CheckResult(check_name=CHECK_NAMES.check_for_duplicated_ids_within_seqscape)
ids_dupl = self._find_duplicated_ids()
if ids_dupl:
entities_dupl = [ent for ent in self.entities_fetched if getattr(ent, self.query_id_type) in ids_dupl]
check_result.error_message="The following ids: %s are duplicated - entities: %s" % (ids_dupl, entities_dupl)
check_result.result = RESULT.FAILURE
return check_result
def check_all_ids_were_found(self) -> List:
ids_missing = self._find_missing_ids()
check_result = CheckResult(
check_name=CHECK_NAMES.check_all_irods_ids_found_in_seqscape)
if ids_missing:
check_result.error_message = "The following ids weren't found in SequencescapeDB: %s " % ids_missing
check_result.result = RESULT.FAILURE
return check_result
def test_decide_exit_status_when_some_failed(self):
results = {
'path': [
CheckResult(CHECK_NAMES.check_all_id_types_present),
CheckResult(CHECK_NAMES.check_all_id_types_present,
result=RESULT.FAILURE)
]
}
self.assertEqual(decide_exit_status(results), 1)
def test_decide_exit_status_when_failed_irrelevant_tests(self):
results = {
'path': [
CheckResult(CHECK_NAMES.check_all_id_types_present),
CheckResult(CHECK_NAMES.check_for_samples_in_more_studies,
result=RESULT.FAILURE)
]
}
self.assertEqual(decide_exit_status(results), 0)
def check_more_than_one_replicas(cls, replicas) -> CheckResult:
check_result = CheckResult(
check_name=CHECK_NAMES.check_more_than_one_replica,
severity=SEVERITY.WARNING)
if len(replicas) <= 1:
check_result.executed = True
check_result.result = RESULT.FAILURE
check_result.error_message = "File has " + str(
len(replicas)) + " replicas"
return check_result
def check_checksum_in_meta_present(self):
check_result = CheckResult(
check_name=CHECK_NAMES.check_checksum_in_metadata_present,
severity=SEVERITY.WARNING)
if self.checksum_in_meta:
check_result.result = RESULT.SUCCESS
else:
check_result.result = RESULT.FAILURE
check_result.error_message = "Missing checksum from metadata"
return check_result
def _check_for_invalid_ids(cls, multi_ids_dict: typing.Dict, entity_type: str):
check_result = CheckResult(check_name=CHECK_NAMES.check_valid_ids, error_message=[])
if not multi_ids_dict:
check_result.result = RESULT.FAILURE
check_result.error_message.append("No ids found.")
for k, values in multi_ids_dict.items():
wrong_ids = [id for id in values if not cls._is_id_valid(id)]
if wrong_ids:
check_result.error_message.append("Invalid " + str(k) + "(s) for " + str(entity_type) + ": " + str(wrong_ids))
check_result.result = RESULT.FAILURE
return check_result
def test_decide_exit_status_when_all_pass(self):
results = {
'/path': [
CheckResult(CHECK_NAMES.check_all_id_types_present),
CheckResult(CHECK_NAMES.check_for_samples_in_more_studies),
CheckResult(CHECK_NAMES.check_all_replicas_same_checksum),
CheckResult(
CHECK_NAMES.
check_entities_in_seqscape_fetched_by_different_ids)
]
}
self.assertEqual(decide_exit_status(results), 0)
def test_group_by_executed_when_all_executed(self):
check_res1 = CheckResult(check_name="Some check",
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.IMPORTANT)
check_res2 = CheckResult(check_name="Some check",
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.IMPORTANT)
check_results = [check_res1, check_res2]
res = CheckResultsProcessing.group_by_executed(check_results)
expected = {True: check_results}
self.assertSetEqual(set(res), set(expected))
def _check_entities_have_all_types_of_ids(entity_list, mandatory_id_types, entity_type):
check_result = CheckResult(check_name=CHECK_NAMES.check_all_id_types_present)
for entity in entity_list:
missing_id_types = []
for id_type in mandatory_id_types:
if not getattr(entity, id_type):
missing_id_types.append(id_type)
if missing_id_types:
present_ids = tuple(set(mandatory_id_types).difference(set(missing_id_types)))
present_id_vals = [getattr(entity, id) for id in present_ids]
check_result.error_message='Missing %s %s from %s: %s' % (entity_type, missing_id_types, entity_type, present_id_vals)
check_result.result = RESULT.FAILURE
return check_result
def check_no_duplicates_found(self) -> List:
check_result = CheckResult(
check_name=CHECK_NAMES.check_for_duplicated_ids_within_seqscape)
ids_dupl = self._find_duplicated_ids()
if ids_dupl:
entities_dupl = [
ent for ent in self.entities_fetched
if getattr(ent, self.query_id_type) in ids_dupl
]
check_result.error_message = "The following ids: %s are duplicated - entities: %s" % (
ids_dupl, entities_dupl)
check_result.result = RESULT.FAILURE
return check_result
def test_group_by_result(self):
check_res1 = CheckResult(check_name='Some check1',
executed=False,
result=RESULT.SUCCESS,
severity=SEVERITY.WARNING)
check_res2 = CheckResult(check_name='Some check1',
executed=True,
result=RESULT.FAILURE,
severity=SEVERITY.IMPORTANT)
check_results = [check_res1, check_res2]
res = CheckResultsProcessing.group_by_result(check_results)
expected = {RESULT.SUCCESS: [check_res1], RESULT.FAILURE: [check_res2]}
self.assertDictEqual(res, expected)
def check_read_permission_exists_for_ss_group(
cls, acls) -> List[CheckResult]:
"""
Checks if any of the ACLs is for an ss group.
:param acls:
:return:
"""
# problems = []
check_result_read_permission = CheckResult(
check_name=CHECK_NAMES.check_ss_irods_group_read_permission,
severity=SEVERITY.WARNING)
check_result_ss_group_present = CheckResult(
check_name=CHECK_NAMES.check_there_is_ss_irods_group,
severity=SEVERITY.WARNING)
found_ss_gr_acl = False
for acl in acls:
if acl.provides_access_for_ss_group():
found_ss_gr_acl = True
if not acl.provides_read_permission():
check_result_read_permission.result = RESULT.FAILURE
check_result_read_permission.error_message = "ACL found: " + str(
acl)
break
if not found_ss_gr_acl:
check_result_ss_group_present.result = RESULT.FAILURE
check_result_read_permission.result = RESULT.FAILURE
return [
check_result_ss_group_present, check_result_read_permission
]
def test_group_by_executed_when_some_executed(self):
check_res1 = CheckResult(check_name="Some check",
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.IMPORTANT)
check_res2 = CheckResult(check_name="Some check",
executed=False,
result=None,
severity=SEVERITY.IMPORTANT)
check_results = [check_res1, check_res2]
executed = [check_res1]
not_executed = [check_res2]
res = CheckResultsProcessing.group_by_executed(check_results)
expected = {True: executed, False: not_executed}
self.assertDictEqual(res, expected)
def _check_for_invalid_ids(cls, multi_ids_dict: typing.Dict,
entity_type: str):
check_result = CheckResult(check_name=CHECK_NAMES.check_valid_ids,
error_message=[])
if not multi_ids_dict:
check_result.result = RESULT.FAILURE
check_result.error_message.append("No ids found.")
for k, values in multi_ids_dict.items():
wrong_ids = [id for id in values if not cls._is_id_valid(id)]
if wrong_ids:
check_result.error_message.append("Invalid " + str(k) +
"(s) for " +
str(entity_type) + ": " +
str(wrong_ids))
check_result.result = RESULT.FAILURE
return check_result
def format_output_as_json(check_results_by_path):
"""
This function takes as input a dict where key = filepath, value = list of CheckResults and formats them to json.
:param check_results_by_path: dict - key = str (filepath), value = list[CheckResult]
:return: json formatted string
"""
CheckResultJSONEncoder = MappingJSONEncoderClassBuilder(CheckResult, CheckResult.to_json_mapping()).build()
return json.dumps(check_results_by_path, cls=CheckResultJSONEncoder)
def validate_fields(self) -> List:
check_results = []
upl_checksum_check = self.check_checksum_at_upload_present()
check_results.append(upl_checksum_check)
meta_checksum_check = self.check_checksum_in_meta_present()
check_results.append(meta_checksum_check)
comp_check = CheckResult(
check_name=CHECK_NAMES.
check_by_comparison_checksum_in_meta_with_checksum_at_upload)
if upl_checksum_check.result == RESULT.SUCCESS and meta_checksum_check.result == RESULT.SUCCESS:
if self.checksum_in_meta != self.checksum_at_upload:
comp_check.result = RESULT.FAILURE
comp_check.error_message = "The checksum in metadata = %s different than checksum at upload = %s" % \
(self.checksum_in_meta, self.checksum_at_upload)
else:
comp_check.result = RESULT.SUCCESS
else:
comp_check.executed = False
comp_check.result = None
check_results.append(comp_check)
check_npg_qc = self.check_npg_qc_field()
check_results.append(check_npg_qc)
check_target_field = self.check_target_field()
check_results.append(check_target_field)
return check_results
def setUp(self):
self.check_result_as_json_dict = {
"check_name": _NAME,
"executed": _EXEUCTED,
"result": _RESULT,
"severity": _SEVERITY,
"error_message": _ERROR_MESSAGE
}
self.CheckResultJSONDecoder = MappingJSONDecoderClassBuilder(CheckResult, CheckResult.to_json_mapping()).build()
def _check_entities_have_all_types_of_ids(entity_list, mandatory_id_types,
entity_type):
check_result = CheckResult(
check_name=CHECK_NAMES.check_all_id_types_present)
for entity in entity_list:
missing_id_types = []
for id_type in mandatory_id_types:
if not getattr(entity, id_type):
missing_id_types.append(id_type)
if missing_id_types:
present_ids = tuple(
set(mandatory_id_types).difference(set(missing_id_types)))
present_id_vals = [getattr(entity, id) for id in present_ids]
check_result.error_message = 'Missing %s %s from %s: %s' % (
entity_type, missing_id_types, entity_type,
present_id_vals)
check_result.result = RESULT.FAILURE
return check_result
def format_output_as_json(check_results_by_path):
"""
This function takes as input a dict where key = filepath, value = list of CheckResults and formats them to json.
:param check_results_by_path: dict - key = str (filepath), value = list[CheckResult]
:return: json formatted string
"""
CheckResultJSONEncoder = MappingJSONEncoderClassBuilder(
CheckResult, CheckResult.to_json_mapping()).build()
return json.dumps(check_results_by_path, cls=CheckResultJSONEncoder)
def check_attributes_have_the_right_frequency(cls, standard_attr_dict,
actual_attr_dict):
check_result = CheckResult(
check_name=CHECK_NAMES.check_attribute_count,
executed=True,
result=RESULT.SUCCESS,
error_message=[])
for attr, freq in standard_attr_dict.items():
if not attr in actual_attr_dict:
check_result.result = RESULT.FAILURE
check_result.error_message.append('Missing attribute %s' %
attr)
elif freq != actual_attr_dict[attr]:
check_result.result = RESULT.FAILURE
check_result.error_message.append(
"Attribute %s should appear %s times and instead appears %s times"
% (attr, freq, actual_attr_dict[attr]))
return check_result
def check_samples_fetched_by_studies(self):
check_result = CheckResult(check_name=CHECK_NAMES.check_samples_in_irods_same_as_samples_fetched_by_study_from_seqscape)
#"Check if the sample ids in iRODS for a study belong to the same study in Sqeuencescape ")
if not self.get_entities_by_type('study'):
check_result.executed = False
check_result.result = None
return check_result
samples_by_studies_set = set(self.get_all_entities_by_association_by_type('study', 'sample'))
samples_set = set(self.get_entities_by_type('sample'))
if not samples_set.issubset(samples_by_studies_set):
diff_samples_wrong_study = samples_set.difference(samples_by_studies_set)
error_msg = "Some samples don't appear under study(s): %s in Sequencescape, " \
"but they appear under this study in iRODS. Number of samples: %s, " \
"and ids: %s" % ([study.name for study in self.get_entities_by_type('study')],
str(len(diff_samples_wrong_study)),
[(s.name, s.accession_number) for s in diff_samples_wrong_study])
check_result.error_message = error_msg
check_result.result = RESULT.FAILURE
return check_result
def check_studies_fetched_by_samples(self):
check_results = []
same_study_for_samples_check = CheckResult(
check_name=CHECK_NAMES.
check_studies_in_irods_with_studies_in_seqscape_fetched_by_samples)
#check_for_samples_in_more_studies = CheckResult(check_name=CHECK_NAMES.check_for_samples_in_more_studies, severity=SEVERITY.WARNING)
if not self.get_entities_by_type('sample'):
same_study_for_samples_check.executed = False
same_study_for_samples_check.result = None
# check_for_samples_in_more_studies.executed = False
# check_for_samples_in_more_studies.result = None
# check_results.append(check_for_samples_in_more_studies)
check_results.append(same_study_for_samples_check)
return check_results
studies_by_samples_set = set(
self.get_all_entities_by_association_by_type('sample', 'study'))
studies_set = set(self.get_entities_by_type('study'))
studies_set_names = [study.name for study in studies_set]
studies_by_samples_set_names = [
study.name for study in studies_by_samples_set
]
sample_set_ids = [(sample.name, sample.accession_number)
for sample in self.get_entities_by_type('sample')]
if not studies_set.issubset(studies_by_samples_set):
error_msg = "For the %s given seqscape samples, the studies in iRODS: %s and the studies in Seqscape DISAGREE: %s" % (
str(len(sample_set_ids)), studies_set_names,
studies_by_samples_set_names)
same_study_for_samples_check.result = RESULT.FAILURE
same_study_for_samples_check.error_message = error_msg
else:
diff_wrong_studies_for_samples_in_irods = studies_set.difference(
studies_by_samples_set)
if diff_wrong_studies_for_samples_in_irods:
error_msg = "Studies in Seqscape and in iRODS for %s samples don't agree. Studies in iRODS and not in Seqscape: %s" % (
str(len(sample_set_ids)),
diff_wrong_studies_for_samples_in_irods)
same_study_for_samples_check.result = RESULT.FAILURE
same_study_for_samples_check.error_message = error_msg
check_results.append(same_study_for_samples_check)
# diff_sam_belongs2more_studies = studies_by_samples_set.difference(studies_set)
# if diff_sam_belongs2more_studies:
# error_msg = "Some samples belong to more than one study. For samples: %s we had these studies as metadata: %s and we found in Seqscape these studies: %s" % (
# sample_set_ids,
# studies_set_names,
# studies_by_samples_set_names)
# check_for_samples_in_more_studies.result = RESULT.FAILURE
# check_for_samples_in_more_studies.error_message = error_msg
# check_results.append(check_for_samples_in_more_studies)
return check_results
def check_attribute_count(
self, avu_counts: List[AttributeCount]) -> List[CheckResult]:
check_result = CheckResult(
check_name=CHECK_NAMES.check_attribute_count,
severity=SEVERITY.IMPORTANT)
wrong_counts = []
for avu_count in avu_counts:
actual_count = self.get_values_count_for_attribute(
avu_count.attribute)
threshold = avu_count.count
if not self._is_true_comparison(actual_count, threshold,
avu_count.operator):
wrong_counts.append(
"attribute %s should appear %s %s times and appears %s" %
(avu_count.attribute, avu_count.operator, threshold,
actual_count))
if wrong_counts:
check_result.result = RESULT.FAILURE
check_result.error_message = ','.join(wrong_counts)
return check_result
def test_failed_check_results_when_all_successful(self):
check_res11 = CheckResult(check_name='check1',
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.WARNING)
check_res12 = CheckResult(check_name='check2',
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.WARNING)
check_res21 = CheckResult(check_name='check1',
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.WARNING)
check_res22 = CheckResult(check_name='check2',
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.WARNING)
check_res31 = CheckResult(check_name='check1',
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.WARNING)
check_res32 = CheckResult(check_name='check2',
executed=True,
result=RESULT.SUCCESS,
severity=SEVERITY.WARNING)
check_results_dict = {
'/seq/1/1.cram': [check_res11, check_res12],
'/seq/2/2.cram': [check_res21, check_res22],
'/seq/3/3.cram': [check_res31, check_res32]
}
result = CheckResultsProcessing.failed_check_results_stats(
check_results_dict)
expected = {}
self.assertDictEqual(result, expected)
def check_reference(self, desired_ref_name: str) -> List[CheckResult]:
check_result = CheckResult(
check_name=CHECK_NAMES.check_desired_reference)
check_result.error_message = []
if not self.get_references():
check_result.result = None
check_result.executed = False
check_result.error_message.append(
"Missing reference from the metadata")
if not desired_ref_name:
check_result.result = None
check_result.executed = False
check_result.error_message.append(
"Missing desired reference parameter")
if not check_result.error_message:
for ref in self.get_references():
if ref.lower().find(desired_ref_name.lower()) == -1:
check_result.result = RESULT.FAILURE
check_result.error_message = "The desired reference is: %s is different thant the metadata reference: %s" % (
desired_ref_name, ref)
return check_result
def check_npg_qc_field(self):
check_npg_qc = CheckResult(check_name=CHECK_NAMES.check_npg_qc_field)
if self.get_npg_qc() is None:
check_npg_qc.result = RESULT.FAILURE
check_npg_qc.error_message = "Missing npg_qc field"
elif not self._is_npg_qc_valid(self.get_npg_qc()):
check_npg_qc.error_message = "This npg_qc field looks invalid: " + str(
self.get_npg_qc())
check_npg_qc.result = RESULT.FAILURE
return check_npg_qc
def check_checksum_at_upload_present(self):
check_result = CheckResult(
check_name=CHECK_NAMES.check_checksum_at_upload_present)
if self.checksum_at_upload:
if type(self.checksum_at_upload) is Iterable and len(
set(self.checksum_at_upload)) > 1:
check_result.result = RESULT.FAILURE
check_result.error_message = "Different checksum values at upload (ichksum)"
else:
check_result.result = RESULT.SUCCESS
else:
check_result.result = RESULT.FAILURE
check_result.error_message = "Missing checksum from ichksum result"
return check_result
def check_target_field(self):
check_target_field = CheckResult(
check_name=CHECK_NAMES.check_target_field)
if self.get_target() is None:
check_target_field.result = RESULT.FAILURE
check_target_field.error_message = "Missing target field"
elif not self._is_target_valid(self.get_target()):
check_target_field.error_message = "The target field looks invalid: " + str(
self.get_target())
check_target_field.result = RESULT.FAILURE
return check_target_field
def validate_fields(self):
check_results = []
zone_check_result = CheckResult(
check_name=CHECK_NAMES.check_irods_zone_within_acl,
severity=SEVERITY.WARNING)
if not self._is_irods_zone_valid(self.zone):
zone_check_result.result = RESULT.FAILURE
zone_check_result.error_message = "The iRODS zone seems wrong: " + str(
self.zone) + " in acl = " + str(self)
check_results.append(zone_check_result)
permission_check_result = CheckResult(
check_name=CHECK_NAMES.check_irods_permission_within_acl,
severity=SEVERITY.WARNING)
if not self._is_permission_valid(self.permission):
permission_check_result.result = RESULT.FAILURE
permission_check_result.error_message = "The iRODS permission seems wrong: " + str(
self.permission) + " in acl = " + str(self)
check_results.append(permission_check_result)
return check_results
def validate_fields(self):
check_results = []
zone_check_result = CheckResult(check_name=CHECK_NAMES.check_irods_zone_within_acl, severity=SEVERITY.WARNING)
if not self._is_irods_zone_valid(self.zone):
zone_check_result.result = RESULT.FAILURE
zone_check_result.error_message="The iRODS zone seems wrong: " + str(self.zone) + " in acl = " + str(self)
check_results.append(zone_check_result)
permission_check_result = CheckResult(check_name=CHECK_NAMES.check_irods_permission_within_acl, severity=SEVERITY.WARNING)
if not self._is_permission_valid(self.permission):
permission_check_result.result = RESULT.FAILURE
permission_check_result.error_message = "The iRODS permission seems wrong: " + str(self.permission) + " in acl = " + str(self)
check_results.append(permission_check_result)
return check_results
def validate_fields(self):
check_results = []
checksum_check_result = CheckResult(check_name=CHECK_NAMES.check_replica_checksum_valid,
severity=SEVERITY.IMPORTANT)
try:
is_valid_checksum = self._is_checksum_valid(self.checksum)
if not is_valid_checksum:
checksum_check_result.result = RESULT.FAILURE
checksum_check_result.error_message = "The checksum looks invalid: " + str(self.checksum)
except TypeError as e:
checksum_check_result.result = RESULT.FAILURE
checksum_check_result.error_message = "The checksum looks invalid: " + str(self.checksum)
valid_replicas_check_result = CheckResult(check_name=CHECK_NAMES.check_replica_number,
severity=SEVERITY.WARNING)
if not self._is_replica_nr_valid(self.replica_nr):
valid_replicas_check_result.result = RESULT.FAILURE
valid_replicas_check_result.error_message = "The replica number looks invalid: " + str(self.replica_nr)
check_results.append(checksum_check_result)
check_results.append(valid_replicas_check_result)
return check_results
def check_studies_fetched_by_samples(self):
check_results = []
same_study_for_samples_check = CheckResult(check_name=CHECK_NAMES.check_studies_in_irods_with_studies_in_seqscape_fetched_by_samples)
#check_for_samples_in_more_studies = CheckResult(check_name=CHECK_NAMES.check_for_samples_in_more_studies, severity=SEVERITY.WARNING)
if not self.get_entities_by_type('sample'):
same_study_for_samples_check.executed = False
same_study_for_samples_check.result = None
# check_for_samples_in_more_studies.executed = False
# check_for_samples_in_more_studies.result = None
# check_results.append(check_for_samples_in_more_studies)
check_results.append(same_study_for_samples_check)
return check_results
studies_by_samples_set = set(self.get_all_entities_by_association_by_type('sample', 'study'))
studies_set = set(self.get_entities_by_type('study'))
studies_set_names = [study.name for study in studies_set]
studies_by_samples_set_names = [study.name for study in studies_by_samples_set]
sample_set_ids = [(sample.name, sample.accession_number) for sample in self.get_entities_by_type('sample')]
if not studies_set.issubset(studies_by_samples_set):
error_msg = "For the %s given seqscape samples, the studies in iRODS: %s and the studies in Seqscape DISAGREE: %s" % (str(len(sample_set_ids)), studies_set_names, studies_by_samples_set_names)
same_study_for_samples_check.result = RESULT.FAILURE
same_study_for_samples_check.error_message=error_msg
else:
diff_wrong_studies_for_samples_in_irods = studies_set.difference(studies_by_samples_set)
if diff_wrong_studies_for_samples_in_irods:
error_msg = "Studies in Seqscape and in iRODS for %s samples don't agree. Studies in iRODS and not in Seqscape: %s" % (
str(len(sample_set_ids)), diff_wrong_studies_for_samples_in_irods)
same_study_for_samples_check.result = RESULT.FAILURE
same_study_for_samples_check.error_message = error_msg
check_results.append(same_study_for_samples_check)
# diff_sam_belongs2more_studies = studies_by_samples_set.difference(studies_set)
# if diff_sam_belongs2more_studies:
# error_msg = "Some samples belong to more than one study. For samples: %s we had these studies as metadata: %s and we found in Seqscape these studies: %s" % (
# sample_set_ids,
# studies_set_names,
# studies_by_samples_set_names)
# check_for_samples_in_more_studies.result = RESULT.FAILURE
# check_for_samples_in_more_studies.error_message = error_msg
# check_results.append(check_for_samples_in_more_studies)
return check_results
def check_all_replicas_have_same_checksum(cls,
replicas) -> CheckResult:
result = CheckResult(
check_name=CHECK_NAMES.check_all_replicas_same_checksum,
severity=SEVERITY.IMPORTANT)
if not replicas:
result.executed = False
result.error_message = ["No replicas to compare with."]
result.result = None
return result
first_replica = replicas[0]
error_message = ''
for replica in replicas:
if not replica.checksum == first_replica.checksum:
result.result = RESULT.FAILURE
error_message += "Replica: " + str(
replica
) + " has different checksum than replica: " + str(
first_replica)
if error_message:
result.error_message = error_message
return result
def checksum_comparison_check(self):
check_result = CheckResult(
check_name=CHECK_NAMES.
check_by_comparison_checksum_in_meta_with_checksum_at_upload,
error_message=[])
impossible_to_exec = False
if not self.checksum_at_upload:
check_result.executed = False
check_result.error_message.append("Missing ichecksum result.")
impossible_to_exec = True
if not self.checksum_in_meta:
check_result.executed = False
check_result.error_message.append("Missing checksum from metadata")
impossible_to_exec = True
if not impossible_to_exec and self.checksum_in_meta != self.checksum_at_upload:
check_result.result = RESULT.FAILURE
check_result.error_message = "The checksum in metadata = %s different than checksum at upload = %s" % \
(self.checksum_in_meta, self.checksum_at_upload)
return check_result
def test_failed_check_results_stats(self):
check_res11 = CheckResult(check_name='Some check1',
executed=True,
result=RESULT.FAILURE,
severity=SEVERITY.WARNING)
check_res12 = CheckResult(check_name='Some check2',
executed=True,
result=RESULT.FAILURE,
severity=SEVERITY.WARNING)
check_res13 = CheckResult(check_name='Some check3',
executed=True,
result=RESULT.FAILURE,
severity=SEVERITY.WARNING)
check_res21 = CheckResult(check_name='Some check1',
executed=True,
result=RESULT.FAILURE,
severity=SEVERITY.WARNING)
check_res22 = CheckResult(check_name='Some check2',
executed=True,
result=RESULT.FAILURE,
severity=SEVERITY.WARNING)
check_res23 = CheckResult(check_name='Some check3',
executed=True,
result=RESULT.FAILURE,
severity=SEVERITY.WARNING)
check_results_dict = {
'/seq/123/123.cram': [check_res21, check_res22, check_res23],
'/seq/456/456.cram': [check_res11, check_res12, check_res13]
}
expected_counter = {
'Some check1': 2,
'Some check2': 2,
'Some check3': 2
}
result = CheckResultsProcessing.failed_check_results_stats(
check_results_dict)
self.assertDictEqual(expected_counter, result)
def setUp(self):
self.check_result = CheckResult(
_NAME, executed=_EXEUCTED, result=_RESULT, severity=_SEVERITY, error_message=_ERROR_MESSAGE)
self.CheckResultJSONEncoder = MappingJSONEncoderClassBuilder(CheckResult, CheckResult.to_json_mapping()).build()
