import logging import re from string import Template from .errors import ConfigurationError from compose.const import COMPOSEFILE_V1 as V1 from compose.utils import parse_bytes from compose.utils import parse_nanoseconds_int log = logging.getLogger(__name__) class Interpolator: def __init__(self, templater, mapping): self.templater = templater self.mapping = mapping def interpolate(self, string): try: return self.templater(string).substitute(self.mapping) except ValueError: raise InvalidInterpolation(string) def interpolate_environment_variables(version, config, section, environment): if version == V1: interpolator = Interpolator(Template, environment) else: interpolator = Interpolator(TemplateWithDefaults, environment) def process_item(name, config_dict): return { key: interpolate_value(name, key, val, section, interpolator) for key, val in (config_dict or {}).items() } return { name: process_item(name, config_dict or {}) for name, config_dict in config.items() } def get_config_path(config_key, section, name): return '{}/{}/{}'.format(section, name, config_key) def interpolate_value(name, config_key, value, section, interpolator): try: return recursive_interpolate(value, interpolator, get_config_path(config_key, section, name)) except InvalidInterpolation as e: raise ConfigurationError( 'Invalid interpolation format for "{config_key}" option ' 'in {section} "{name}": "{string}"'.format( config_key=config_key, name=name, section=section, string=e.string)) except UnsetRequiredSubstitution as e: raise ConfigurationError( 'Missing mandatory value for "{config_key}" option interpolating {value} ' 'in {section} "{name}": {err}'.format(config_key=config_key, value=value, name=name, section=section, err=e.err) ) def recursive_interpolate(obj, interpolator, config_path): def append(config_path, key): return '{}/{}'.format(config_path, key) if isinstance(obj, str): return converter.convert(config_path, interpolator.interpolate(obj)) if isinstance(obj, dict): return { key: recursive_interpolate(val, interpolator, append(config_path, key)) for key, val in obj.items() } if isinstance(obj, list): return [recursive_interpolate(val, interpolator, config_path) for val in obj] return converter.convert(config_path, obj) class TemplateWithDefaults(Template): pattern = r""" {delim}(?: (?P{delim}) | (?P{id}) | {{(?P{bid})}} | (?P) ) """.format( delim=re.escape('$'), id=r'[_a-z][_a-z0-9]*', bid=r'[_a-z][_a-z0-9]*(?:(?P:?[-?])[^}]*)?', ) @staticmethod def process_braced_group(braced, sep, mapping): if ':-' == sep: var, _, default = braced.partition(':-') return mapping.get(var) or default elif '-' == sep: var, _, default = braced.partition('-') return mapping.get(var, default) elif ':?' == sep: var, _, err = braced.partition(':?') result = mapping.get(var) if not result: err = err or var raise UnsetRequiredSubstitution(err) return result elif '?' == sep: var, _, err = braced.partition('?') if var in mapping: return mapping.get(var) err = err or var raise UnsetRequiredSubstitution(err) # Modified from python2.7/string.py def substitute(self, mapping): # Helper function for .sub() def convert(mo): named = mo.group('named') or mo.group('braced') braced = mo.group('braced') if braced is not None: sep = mo.group('sep') if sep: return self.process_braced_group(braced, sep, mapping) if named is not None: val = mapping[named] if isinstance(val, bytes): val = val.decode('utf-8') return '{}'.format(val) if mo.group('escaped') is not None: return self.delimiter if mo.group('invalid') is not None: self._invalid(mo) raise ValueError('Unrecognized named group in pattern', self.pattern) return self.pattern.sub(convert, self.template) class InvalidInterpolation(Exception): def __init__(self, string): self.string = string class UnsetRequiredSubstitution(Exception): def __init__(self, custom_err_msg): self.err = custom_err_msg PATH_JOKER = '[^/]+' FULL_JOKER = '.+' def re_path(*args): return re.compile('^{}$'.format('/'.join(args))) def re_path_basic(section, name): return re_path(section, PATH_JOKER, name) def service_path(*args): return re_path('service', PATH_JOKER, *args) def to_boolean(s): if not isinstance(s, str): return s s = s.lower() if s in ['y', 'yes', 'true', 'on']: return True elif s in ['n', 'no', 'false', 'off']: return False raise ValueError('"{}" is not a valid boolean value'.format(s)) def to_int(s): if not isinstance(s, str): return s # We must be able to handle octal representation for `mode` values notably if re.match('^0[0-9]+$', s.strip()): s = '0o' + s[1:] try: return int(s, base=0) except ValueError: raise ValueError('"{}" is not a valid integer'.format(s)) def to_float(s): if not isinstance(s, str): return s try: return float(s) except ValueError: raise ValueError('"{}" is not a valid float'.format(s)) def to_str(o): if isinstance(o, (bool, float, int)): return '{}'.format(o) return o def bytes_to_int(s): v = parse_bytes(s) if v is None: raise ValueError('"{}" is not a valid byte value'.format(s)) return v def to_microseconds(v): if not isinstance(v, str): return v return int(parse_nanoseconds_int(v) / 1000) class ConversionMap: map = { service_path('blkio_config', 'weight'): to_int, service_path('blkio_config', 'weight_device', 'weight'): to_int, service_path('build', 'labels', FULL_JOKER): to_str, service_path('cpus'): to_float, service_path('cpu_count'): to_int, service_path('cpu_quota'): to_microseconds, service_path('cpu_period'): to_microseconds, service_path('cpu_rt_period'): to_microseconds, service_path('cpu_rt_runtime'): to_microseconds, service_path('configs', 'mode'): to_int, service_path('secrets', 'mode'): to_int, service_path('healthcheck', 'retries'): to_int, service_path('healthcheck', 'disable'): to_boolean, service_path('deploy', 'labels', PATH_JOKER): to_str, service_path('deploy', 'replicas'): to_int, service_path('deploy', 'placement', 'max_replicas_per_node'): to_int, service_path('deploy', 'resources', 'limits', "cpus"): to_float, service_path('deploy', 'update_config', 'parallelism'): to_int, service_path('deploy', 'update_config', 'max_failure_ratio'): to_float, service_path('deploy', 'rollback_config', 'parallelism'): to_int, service_path('deploy', 'rollback_config', 'max_failure_ratio'): to_float, service_path('deploy', 'restart_policy', 'max_attempts'): to_int, service_path('mem_swappiness'): to_int, service_path('labels', FULL_JOKER): to_str, service_path('oom_kill_disable'): to_boolean, service_path('oom_score_adj'): to_int, service_path('ports', 'target'): to_int, service_path('ports', 'published'): to_int, service_path('scale'): to_int, service_path('ulimits', PATH_JOKER): to_int, service_path('ulimits', PATH_JOKER, 'soft'): to_int, service_path('ulimits', PATH_JOKER, 'hard'): to_int, service_path('privileged'): to_boolean, service_path('read_only'): to_boolean, service_path('stdin_open'): to_boolean, service_path('tty'): to_boolean, service_path('volumes', 'read_only'): to_boolean, service_path('volumes', 'volume', 'nocopy'): to_boolean, service_path('volumes', 'tmpfs', 'size'): bytes_to_int, re_path_basic('network', 'attachable'): to_boolean, re_path_basic('network', 'external'): to_boolean, re_path_basic('network', 'internal'): to_boolean, re_path('network', PATH_JOKER, 'labels', FULL_JOKER): to_str, re_path_basic('volume', 'external'): to_boolean, re_path('volume', PATH_JOKER, 'labels', FULL_JOKER): to_str, re_path_basic('secret', 'external'): to_boolean, re_path('secret', PATH_JOKER, 'labels', FULL_JOKER): to_str, re_path_basic('config', 'external'): to_boolean, re_path('config', PATH_JOKER, 'labels', FULL_JOKER): to_str, } def convert(self, path, value): for rexp in self.map.keys(): if rexp.match(path): try: return self.map[rexp](value) except ValueError as e: raise ConfigurationError( 'Error while attempting to convert {} to appropriate type: {}'.format( path.replace('/', '.'), e ) ) return value converter = ConversionMap()