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# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
import re
import yaml
from shared_telemetry_utils import add_expiration_postfix
# The map of containing the allowed scalar types and their mapping to
# nsITelemetry::SCALAR_* type constants.
SCALAR_TYPES_MAP = {
'uint': 'nsITelemetry::SCALAR_COUNT',
'string': 'nsITelemetry::SCALAR_STRING',
'boolean': 'nsITelemetry::SCALAR_BOOLEAN'
}
class ScalarType:
"""A class for representing a scalar definition."""
def __init__(self, group_name, probe_name, definition):
# Validate and set the name, so we don't need to pass it to the other
# validation functions.
self.validate_names(group_name, probe_name)
self._name = probe_name
self._group_name = group_name
# Validating the scalar definition.
self.validate_types(definition)
self.validate_values(definition)
# Everything is ok, set the rest of the data.
self._definition = definition
definition['expires'] = add_expiration_postfix(definition['expires'])
def validate_names(self, group_name, probe_name):
"""Validate the group and probe name:
- Group name must be alpha-numeric + '.', no leading/trailing digit or '.'.
- Probe name must be alpha-numeric + '_', no leading/trailing digit or '_'.
:param group_name: the name of the group the probe is in.
:param probe_name: the name of the scalar probe.
:raises ValueError: if the length of the names exceeds the limit or they don't
conform our name specification.
"""
# Enforce a maximum length on group and probe names.
MAX_NAME_LENGTH = 40
for n in [group_name, probe_name]:
if len(n) > MAX_NAME_LENGTH:
raise ValueError("Name '{}' exceeds maximum name length of {} characters."\
.format(n, MAX_NAME_LENGTH))
def check_name(name, error_msg_prefix, allowed_char_regexp):
# Check if we only have the allowed characters.
chars_regxp = r'^[a-zA-Z0-9' + allowed_char_regexp + r']+$'
if not re.search(chars_regxp, name):
raise ValueError(error_msg_prefix + " name must be alpha-numeric. Got: '{}'".format(name))
# Don't allow leading/trailing digits, '.' or '_'.
if re.search(r'(^[\d\._])|([\d\._])$', name):
raise ValueError(error_msg_prefix +
" name must not have a leading/trailing digit, a dot or underscore. Got: '{}'"\
.format(name))
check_name(group_name, 'Group', r'\.')
check_name(probe_name, 'Probe', r'_')
def validate_types(self, definition):
"""This function performs some basic sanity checks on the scalar definition:
- Checks that all the required fields are available.
- Checks that all the fields have the expected types.
:param definition: the dictionary containing the scalar properties.
:raises TypeError: if a scalar definition field is of the wrong type.
:raise KeyError: if a required field is missing or unknown fields are present.
"""
# The required and optional fields in a scalar type definition.
REQUIRED_FIELDS = {
'bug_numbers': list, # This contains ints. See LIST_FIELDS_CONTENT.
'description': basestring,
'expires': basestring,
'kind': basestring,
'notification_emails': list # This contains strings. See LIST_FIELDS_CONTENT.
}
OPTIONAL_FIELDS = {
'cpp_guard': basestring,
'release_channel_collection': basestring,
'keyed': bool
}
# The types for the data within the fields that hold lists.
LIST_FIELDS_CONTENT = {
'bug_numbers': int,
'notification_emails': basestring
}
# Concatenate the required and optional field definitions.
ALL_FIELDS = REQUIRED_FIELDS.copy()
ALL_FIELDS.update(OPTIONAL_FIELDS)
# Checks that all the required fields are available.
missing_fields = [f for f in REQUIRED_FIELDS.keys() if f not in definition]
if len(missing_fields) > 0:
raise KeyError(self._name + ' - missing required fields: ' + ', '.join(missing_fields))
# Do we have any unknown field?
unknown_fields = [f for f in definition.keys() if f not in ALL_FIELDS]
if len(unknown_fields) > 0:
raise KeyError(self._name + ' - unknown fields: ' + ', '.join(unknown_fields))
# Checks the type for all the fields.
wrong_type_names = ['{} must be {}'.format(f, ALL_FIELDS[f].__name__) \
for f in definition.keys() if not isinstance(definition[f], ALL_FIELDS[f])]
if len(wrong_type_names) > 0:
raise TypeError(self._name + ' - ' + ', '.join(wrong_type_names))
# Check that the lists are not empty and that data in the lists
# have the correct types.
list_fields = [f for f in definition if isinstance(definition[f], list)]
for field in list_fields:
# Check for empty lists.
if len(definition[field]) == 0:
raise TypeError("Field '{}' for probe '{}' must not be empty."
.format(field, self._name))
# Check the type of the list content.
broken_types =\
[not isinstance(v, LIST_FIELDS_CONTENT[field]) for v in definition[field]]
if any(broken_types):
raise TypeError("Field '{}' for probe '{}' must only contain values of type {}"
.format(field, self._name, LIST_FIELDS_CONTENT[field].__name__))
def validate_values(self, definition):
"""This function checks that the fields have the correct values.
:param definition: the dictionary containing the scalar properties.
:raises ValueError: if a scalar definition field contains an unexpected value.
"""
# Validate the scalar kind.
scalar_kind = definition.get('kind')
if scalar_kind not in SCALAR_TYPES_MAP.keys():
raise ValueError(self._name + ' - unknown scalar kind: ' + scalar_kind)
# Validate the collection policy.
collection_policy = definition.get('release_channel_collection', None)
if collection_policy and collection_policy not in ['opt-in', 'opt-out']:
raise ValueError(self._name + ' - unknown collection policy: ' + collection_policy)
# Validate the cpp_guard.
cpp_guard = definition.get('cpp_guard')
if cpp_guard and re.match(r'\W', cpp_guard):
raise ValueError(self._name + ' - invalid cpp_guard: ' + cpp_guard)
@property
def name(self):
"""Get the scalar name"""
return self._name
@property
def label(self):
"""Get the scalar label generated from the scalar and group names."""
return self._group_name + '.' + self._name
@property
def enum_label(self):
"""Get the enum label generated from the scalar and group names. This is used to
generate the enum tables."""
# The scalar name can contain informations about its hierarchy (e.g. 'a.b.scalar').
# We can't have dots in C++ enums, replace them with an underscore. Also, make the
# label upper case for consistency with the histogram enums.
return self.label.replace('.', '_').upper()
@property
def bug_numbers(self):
"""Get the list of related bug numbers"""
return self._definition['bug_numbers']
@property
def description(self):
"""Get the scalar description"""
return self._definition['description']
@property
def expires(self):
"""Get the scalar expiration"""
return self._definition['expires']
@property
def kind(self):
"""Get the scalar kind"""
return self._definition['kind']
@property
def keyed(self):
"""Boolean indicating whether this is a keyed scalar"""
return self._definition.get('keyed', False)
@property
def nsITelemetry_kind(self):
"""Get the scalar kind constant defined in nsITelemetry"""
return SCALAR_TYPES_MAP.get(self.kind)
@property
def notification_emails(self):
"""Get the list of notification emails"""
return self._definition['notification_emails']
@property
def dataset(self):
"""Get the nsITelemetry constant equivalent to the chose release channel collection
policy for the scalar.
"""
# The collection policy is optional, but we still define a default
# behaviour for it.
release_channel_collection = \
self._definition.get('release_channel_collection', 'opt-in')
return 'nsITelemetry::' + ('DATASET_RELEASE_CHANNEL_OPTOUT' \
if release_channel_collection == 'opt-out' else 'DATASET_RELEASE_CHANNEL_OPTIN')
@property
def cpp_guard(self):
"""Get the cpp guard for this scalar"""
return self._definition.get('cpp_guard')
def load_scalars(filename):
"""Parses a YAML file containing the scalar definition.
:param filename: the YAML file containing the scalars definition.
:raises Exception: if the scalar file cannot be opened or parsed.
"""
# Parse the scalar definitions from the YAML file.
scalars = None
try:
with open(filename, 'r') as f:
scalars = yaml.safe_load(f)
except IOError, e:
raise Exception('Error opening ' + filename + ': ' + e.message)
except ValueError, e:
raise Exception('Error parsing scalars in ' + filename + ': ' + e.message)
scalar_list = []
# Scalars are defined in a fixed two-level hierarchy within the definition file.
# The first level contains the group name, while the second level contains the
# probe name (e.g. "group.name: probe: ...").
for group_name in scalars:
group = scalars[group_name]
# Make sure that the group has at least one probe in it.
if not group or len(group) == 0:
raise ValueError(group_name + ' must have at least a probe in it')
for probe_name in group:
# We found a scalar type. Go ahead and parse it.
scalar_info = group[probe_name]
scalar_list.append(ScalarType(group_name, probe_name, scalar_info))
return scalar_list
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