from datetime import datetime import logging import urllib from uaclient import clouds from uaclient import exceptions from uaclient import status from uaclient import serviceclient from uaclient import util try: from typing import Any, Dict, List, Optional # noqa: F401 except ImportError: # typing isn't available on trusty, so ignore its absence pass API_ERROR_INVALID_TOKEN = "invalid token" API_V1_CONTEXT_MACHINE_TOKEN = "/v1/context/machines/token" API_V1_TMPL_CONTEXT_MACHINE_TOKEN_RESOURCE = ( "/v1/contracts/{contract}/context/machines/{machine}" ) API_V1_RESOURCES = "/v1/resources" API_V1_TMPL_RESOURCE_MACHINE_ACCESS = ( "/v1/resources/{resource}/context/machines/{machine}" ) API_V1_AUTO_ATTACH_CLOUD_TOKEN = "/v1/clouds/{cloud_type}/token" class ContractAPIError(util.UrlError): def __init__(self, e, error_response): super().__init__(e, e.code, e.headers, e.url) if "error_list" in error_response: self.api_errors = error_response["error_list"] else: self.api_errors = [error_response] for error in self.api_errors: error["code"] = error.get("title", error.get("code")) def __contains__(self, error_code): for error in self.api_errors: if error_code == error.get("code"): return True if error.get("message", "").startswith(error_code): return True return False def __get__(self, error_code, default=None): for error in self.api_errors: if error["code"] == error_code: return error["detail"] return default def __str__(self): prefix = super().__str__() details = [] for err in self.api_errors: if not err.get("extra"): details.append(err.get("detail", err.get("message", ""))) else: for extra in err["extra"].values(): if isinstance(extra, list): details.extend(extra) else: details.append(extra) return prefix + ": [" + self.url + "]" + ", ".join(details) class UAContractClient(serviceclient.UAServiceClient): cfg_url_base_attr = "contract_url" api_error_cls = ContractAPIError def request_contract_machine_attach(self, contract_token, machine_id=None): """Requests machine attach to the provided contact_id. @param contract_id: Unique contract id provided by contract service. @param contract_token: Token string providing authentication to ContractBearer service endpoint. @param machine_id: Optional unique system machine id. When absent, contents of /etc/machine-id will be used. @return: Dict of the JSON response containing the machine-token. """ headers = self.headers() headers.update({"Authorization": "Bearer {}".format(contract_token)}) data = self._get_platform_data(machine_id) machine_token, _headers = self.request_url( API_V1_CONTEXT_MACHINE_TOKEN, data=data, headers=headers ) self.cfg.write_cache("machine-token", machine_token) return machine_token def request_resources(self) -> "Dict[str, Any]": """Requests list of entitlements available to this machine type.""" platform = util.get_platform_info() query_params = { "architecture": platform["arch"], "series": platform["series"], "kernel": platform["kernel"], } resource_response, headers = self.request_url( API_V1_RESOURCES + "?" + urllib.parse.urlencode(query_params) ) return resource_response def request_auto_attach_contract_token( self, *, instance: clouds.AutoAttachCloudInstance ): """Requests contract token for auto-attach images for Pro clouds. @param instance: AutoAttachCloudInstance for the cloud. @return: Dict of the JSON response containing the contract-token. """ response, _headers = self.request_url( API_V1_AUTO_ATTACH_CLOUD_TOKEN.format( cloud_type=instance.cloud_type ), data=instance.identity_doc, ) self.cfg.write_cache("contract-token", response) return response def request_machine_token_update( self, machine_token: str, contract_id: str, machine_id: str = None ) -> "Dict": """Update existing machine-token for an attached machine.""" return self._request_machine_token_update( machine_token=machine_token, contract_id=contract_id, machine_id=machine_id, detach=False, ) def detach_machine_from_contract( self, machine_token: str, contract_id: str, machine_id: str = None ) -> "Dict": """Report the attached machine should be detached from the contract.""" return self._request_machine_token_update( machine_token=machine_token, contract_id=contract_id, machine_id=machine_id, detach=True, ) def _request_machine_token_update( self, machine_token: str, contract_id: str, machine_id: str = None, detach: bool = False, ) -> "Dict": """Request machine token refresh from contract server. @param machine_token: The machine token needed to talk to this contract service endpoint. @param contract_id: Unique contract id provided by contract service. @param machine_id: Optional unique system machine id. When absent, contents of /etc/machine-id will be used. @param detach: Boolean set True if detaching this machine from the active contract. Default is False. @return: Dict of the JSON response containing refreshed machine-token """ headers = self.headers() headers.update({"Authorization": "Bearer {}".format(machine_token)}) data = self._get_platform_data(machine_id) url = API_V1_TMPL_CONTEXT_MACHINE_TOKEN_RESOURCE.format( contract=contract_id, machine=data["machineId"] ) kwargs = {"headers": headers} if detach: kwargs["method"] = "DELETE" else: kwargs["method"] = "POST" kwargs["data"] = data response, headers = self.request_url(url, **kwargs) if headers.get("expires"): response["expires"] = headers["expires"] if not detach: self.cfg.write_cache("machine-token", response) return response def _get_platform_data(self, machine_id): """"Return a dict of platform-relateddata for contract requests""" if not machine_id: machine_id = util.get_machine_id(self.cfg.data_dir) platform = util.get_platform_info() arch = platform.pop("arch") return {"machineId": machine_id, "architecture": arch, "os": platform} def process_entitlement_delta(orig_access, new_access, allow_enable=False): """Process a entitlement access dictionary deltas if they exist. :param orig_access: Dict with original entitlement access details before contract refresh deltas :param orig_access: Dict with updated entitlement access details after contract refresh :param allow_enable: Boolean set True if allowed to perform the enable operation. When False, a message will be logged to inform the user about the recommended enabled service. :raise UserFacingError: on failure to process deltas. :return: Dict of processed deltas """ from uaclient.entitlements import ENTITLEMENT_CLASS_BY_NAME util.apply_series_overrides(new_access) deltas = util.get_dict_deltas(orig_access, new_access) if deltas: name = orig_access.get("entitlement", {}).get("type") if not name: name = deltas.get("entitlement", {}).get("type") if not name: raise RuntimeError( "Could not determine contract delta service type {} {}".format( orig_access, new_access ) ) try: ent_cls = ENTITLEMENT_CLASS_BY_NAME[name] except KeyError: logging.debug( 'Skipping entitlement deltas for "%s". No such class', name ) return deltas entitlement = ent_cls() entitlement.process_contract_deltas( orig_access, deltas, allow_enable=allow_enable ) return deltas def request_updated_contract( cfg, contract_token: "Optional[str]" = None, allow_enable=False ): """Request contract refresh from ua-contracts service. Compare original token to new token and react to entitlement deltas. :param cfg: Instance of UAConfig for this machine. :param contract_token: String contraining an optional contract token. :param allow_enable: Boolean set True if allowed to perform the enable operation. When False, a message will be logged to inform the user about the recommended enabled service. :raise UserFacingError: on failure to update contract or error processing contract deltas :raise UrlError: On failure to contact the server """ orig_token = cfg.machine_token orig_entitlements = cfg.entitlements if orig_token and contract_token: raise RuntimeError( "Got unexpected contract_token on an already attached machine" ) contract_client = UAContractClient(cfg) if contract_token: # We are a mid ua-attach and need to get machinetoken try: new_token = contract_client.request_contract_machine_attach( contract_token=contract_token ) except util.UrlError as e: if isinstance(e, ContractAPIError): if API_ERROR_INVALID_TOKEN in e: raise exceptions.UserFacingError( status.MESSAGE_ATTACH_INVALID_TOKEN ) raise e with util.disable_log_to_console(): logging.exception(str(e)) raise exceptions.UserFacingError(status.MESSAGE_CONNECTIVITY_ERROR) else: machine_token = orig_token["machineToken"] contract_id = orig_token["machineTokenInfo"]["contractInfo"]["id"] new_token = contract_client.request_machine_token_update( machine_token=machine_token, contract_id=contract_id ) expiry = new_token["machineTokenInfo"]["contractInfo"].get("effectiveTo") if expiry: if datetime.strptime(expiry, "%Y-%m-%dT%H:%M:%SZ") < datetime.utcnow(): raise exceptions.UserFacingError( status.MESSAGE_CONTRACT_EXPIRED_ERROR ) delta_error = False unexpected_error = False for name, new_entitlement in sorted(cfg.entitlements.items()): try: process_entitlement_delta( orig_entitlements.get(name, {}), new_entitlement, allow_enable=allow_enable, ) except exceptions.UserFacingError: delta_error = True with util.disable_log_to_console(): logging.exception( "Failed to process contract delta for {name}:" " {delta}".format(name=name, delta=new_entitlement) ) except Exception: unexpected_error = True with util.disable_log_to_console(): logging.exception( "Unexpected error processing contract delta for {name}:" " {delta}".format(name=name, delta=new_entitlement) ) if unexpected_error: raise exceptions.UserFacingError(status.MESSAGE_UNEXPECTED_ERROR) elif delta_error: raise exceptions.UserFacingError( status.MESSAGE_ATTACH_FAILURE_DEFAULT_SERVICES ) def get_available_resources(cfg) -> "List[Dict]": """Query available resources from the contrct server for this machine.""" client = UAContractClient(cfg) resources = client.request_resources() return resources.get("resources", [])