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android / platform / external / python / google-api-python-client / refs/heads/main / . / googleapiclient / discovery.py
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# Copyright 2014 Google Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Client for discovery based APIs.
A client library for Google's discovery based APIs.
"""
from __future__ import absolute_import
__author__ = "jcgregorio@google.com (Joe Gregorio)"
__all__ = ["build", "build_from_document", "fix_method_name", "key2param"]
# Standard library imports
import copy
from collections import OrderedDict
import collections.abc
from email.generator import BytesGenerator
from email.mime.multipart import MIMEMultipart
from email.mime.nonmultipart import MIMENonMultipart
import http.client as http_client
import io
import json
import keyword
import logging
import mimetypes
import os
import re
import urllib
# Third-party imports
import httplib2
import uritemplate
import google.api_core.client_options
from google.auth.transport import mtls
from google.auth.exceptions import MutualTLSChannelError
from google.oauth2 import service_account
try:
import google_auth_httplib2
except ImportError: # pragma: NO COVER
google_auth_httplib2 = None
# Local imports
from googleapiclient import _auth
from googleapiclient import mimeparse
from googleapiclient.errors import HttpError
from googleapiclient.errors import InvalidJsonError
from googleapiclient.errors import MediaUploadSizeError
from googleapiclient.errors import UnacceptableMimeTypeError
from googleapiclient.errors import UnknownApiNameOrVersion
from googleapiclient.errors import UnknownFileType
from googleapiclient.http import build_http
from googleapiclient.http import BatchHttpRequest
from googleapiclient.http import HttpMock
from googleapiclient.http import HttpMockSequence
from googleapiclient.http import HttpRequest
from googleapiclient.http import MediaFileUpload
from googleapiclient.http import MediaUpload
from googleapiclient.model import JsonModel
from googleapiclient.model import MediaModel
from googleapiclient.model import RawModel
from googleapiclient.schema import Schemas
from googleapiclient._helpers import _add_query_parameter
from googleapiclient._helpers import positional
# The client library requires a version of httplib2 that supports RETRIES.
httplib2.RETRIES = 1
logger = logging.getLogger(__name__)
URITEMPLATE = re.compile("{[^}]*}")
VARNAME = re.compile("[a-zA-Z0-9_-]+")
DISCOVERY_URI = (
"https://www.googleapis.com/discovery/v1/apis/" "{api}/{apiVersion}/rest"
)
V1_DISCOVERY_URI = DISCOVERY_URI
V2_DISCOVERY_URI = (
"https://{api}.googleapis.com/$discovery/rest?" "version={apiVersion}"
)
DEFAULT_METHOD_DOC = "A description of how to use this function"
HTTP_PAYLOAD_METHODS = frozenset(["PUT", "POST", "PATCH"])
_MEDIA_SIZE_BIT_SHIFTS = {"KB": 10, "MB": 20, "GB": 30, "TB": 40}
BODY_PARAMETER_DEFAULT_VALUE = {"description": "The request body.", "type": "object"}
MEDIA_BODY_PARAMETER_DEFAULT_VALUE = {
"description": (
"The filename of the media request body, or an instance "
"of a MediaUpload object."
),
"type": "string",
"required": False,
}
MEDIA_MIME_TYPE_PARAMETER_DEFAULT_VALUE = {
"description": (
"The MIME type of the media request body, or an instance "
"of a MediaUpload object."
),
"type": "string",
"required": False,
}
_PAGE_TOKEN_NAMES = ("pageToken", "nextPageToken")
# Parameters controlling mTLS behavior. See https://google.aip.dev/auth/4114.
GOOGLE_API_USE_CLIENT_CERTIFICATE = "GOOGLE_API_USE_CLIENT_CERTIFICATE"
GOOGLE_API_USE_MTLS_ENDPOINT = "GOOGLE_API_USE_MTLS_ENDPOINT"
# Parameters accepted by the stack, but not visible via discovery.
# TODO(dhermes): Remove 'userip' in 'v2'.
STACK_QUERY_PARAMETERS = frozenset(["trace", "pp", "userip", "strict"])
STACK_QUERY_PARAMETER_DEFAULT_VALUE = {"type": "string", "location": "query"}
# Library-specific reserved words beyond Python keywords.
RESERVED_WORDS = frozenset(["body"])
# patch _write_lines to avoid munging '\r' into '\n'
# ( https://bugs.python.org/issue18886 https://bugs.python.org/issue19003 )
class _BytesGenerator(BytesGenerator):
_write_lines = BytesGenerator.write
def fix_method_name(name):
"""Fix method names to avoid '$' characters and reserved word conflicts.
Args:
name: string, method name.
Returns:
The name with '_' appended if the name is a reserved word and '$' and '-'
replaced with '_'.
"""
name = name.replace("$", "_").replace("-", "_")
if keyword.iskeyword(name) or name in RESERVED_WORDS:
return name + "_"
else:
return name
def key2param(key):
"""Converts key names into parameter names.
For example, converting "max-results" -> "max_results"
Args:
key: string, the method key name.
Returns:
A safe method name based on the key name.
"""
result = []
key = list(key)
if not key[0].isalpha():
result.append("x")
for c in key:
if c.isalnum():
result.append(c)
else:
result.append("_")
return "".join(result)
@positional(2)
def build(
serviceName,
version,
http=None,
discoveryServiceUrl=None,
developerKey=None,
model=None,
requestBuilder=HttpRequest,
credentials=None,
cache_discovery=True,
cache=None,
client_options=None,
adc_cert_path=None,
adc_key_path=None,
num_retries=1,
static_discovery=None,
always_use_jwt_access=False,
):
"""Construct a Resource for interacting with an API.
Construct a Resource object for interacting with an API. The serviceName and
version are the names from the Discovery service.
Args:
serviceName: string, name of the service.
version: string, the version of the service.
http: httplib2.Http, An instance of httplib2.Http or something that acts
like it that HTTP requests will be made through.
discoveryServiceUrl: string, a URI Template that points to the location of
the discovery service. It should have two parameters {api} and
{apiVersion} that when filled in produce an absolute URI to the discovery
document for that service.
developerKey: string, key obtained from
https://code.google.com/apis/console.
model: googleapiclient.Model, converts to and from the wire format.
requestBuilder: googleapiclient.http.HttpRequest, encapsulator for an HTTP
request.
credentials: oauth2client.Credentials or
google.auth.credentials.Credentials, credentials to be used for
authentication.
cache_discovery: Boolean, whether or not to cache the discovery doc.
cache: googleapiclient.discovery_cache.base.CacheBase, an optional
cache object for the discovery documents.
client_options: Mapping object or google.api_core.client_options, client
options to set user options on the client.
(1) The API endpoint should be set through client_options. If API endpoint
is not set, `GOOGLE_API_USE_MTLS_ENDPOINT` environment variable can be used
to control which endpoint to use.
(2) client_cert_source is not supported, client cert should be provided using
client_encrypted_cert_source instead. In order to use the provided client
cert, `GOOGLE_API_USE_CLIENT_CERTIFICATE` environment variable must be
set to `true`.
More details on the environment variables are here:
https://google.aip.dev/auth/4114
adc_cert_path: str, client certificate file path to save the application
default client certificate for mTLS. This field is required if you want to
use the default client certificate. `GOOGLE_API_USE_CLIENT_CERTIFICATE`
environment variable must be set to `true` in order to use this field,
otherwise this field doesn't nothing.
More details on the environment variables are here:
https://google.aip.dev/auth/4114
adc_key_path: str, client encrypted private key file path to save the
application default client encrypted private key for mTLS. This field is
required if you want to use the default client certificate.
`GOOGLE_API_USE_CLIENT_CERTIFICATE` environment variable must be set to
`true` in order to use this field, otherwise this field doesn't nothing.
More details on the environment variables are here:
https://google.aip.dev/auth/4114
num_retries: Integer, number of times to retry discovery with
randomized exponential backoff in case of intermittent/connection issues.
static_discovery: Boolean, whether or not to use the static discovery docs
included in the library. The default value for `static_discovery` depends
on the value of `discoveryServiceUrl`. `static_discovery` will default to
`True` when `discoveryServiceUrl` is also not provided, otherwise it will
default to `False`.
always_use_jwt_access: Boolean, whether always use self signed JWT for service
account credentials. This only applies to
google.oauth2.service_account.Credentials.
Returns:
A Resource object with methods for interacting with the service.
Raises:
google.auth.exceptions.MutualTLSChannelError: if there are any problems
setting up mutual TLS channel.
"""
params = {"api": serviceName, "apiVersion": version}
# The default value for `static_discovery` depends on the value of
# `discoveryServiceUrl`. `static_discovery` will default to `True` when
# `discoveryServiceUrl` is also not provided, otherwise it will default to
# `False`. This is added for backwards compatability with
# google-api-python-client 1.x which does not support the `static_discovery`
# parameter.
if static_discovery is None:
if discoveryServiceUrl is None:
static_discovery = True
else:
static_discovery = False
if http is None:
discovery_http = build_http()
else:
discovery_http = http
service = None
for discovery_url in _discovery_service_uri_options(discoveryServiceUrl, version):
requested_url = uritemplate.expand(discovery_url, params)
try:
content = _retrieve_discovery_doc(
requested_url,
discovery_http,
cache_discovery,
serviceName,
version,
cache,
developerKey,
num_retries=num_retries,
static_discovery=static_discovery,
)
service = build_from_document(
content,
base=discovery_url,
http=http,
developerKey=developerKey,
model=model,
requestBuilder=requestBuilder,
credentials=credentials,
client_options=client_options,
adc_cert_path=adc_cert_path,
adc_key_path=adc_key_path,
always_use_jwt_access=always_use_jwt_access,
)
break # exit if a service was created
except HttpError as e:
if e.resp.status == http_client.NOT_FOUND:
continue
else:
raise e
# If discovery_http was created by this function, we are done with it
# and can safely close it
if http is None:
discovery_http.close()
if service is None:
raise UnknownApiNameOrVersion("name: %s version: %s" % (serviceName, version))
else:
return service
def _discovery_service_uri_options(discoveryServiceUrl, version):
"""
Returns Discovery URIs to be used for attemnting to build the API Resource.
Args:
discoveryServiceUrl:
string, the Original Discovery Service URL preferred by the customer.
version:
string, API Version requested
Returns:
A list of URIs to be tried for the Service Discovery, in order.
"""
if discoveryServiceUrl is not None:
return [discoveryServiceUrl]
if version is None:
# V1 Discovery won't work if the requested version is None
logger.warning(
"Discovery V1 does not support empty versions. Defaulting to V2..."
)
return [V2_DISCOVERY_URI]
else:
return [DISCOVERY_URI, V2_DISCOVERY_URI]
def _retrieve_discovery_doc(
url,
http,
cache_discovery,
serviceName,
version,
cache=None,
developerKey=None,
num_retries=1,
static_discovery=True
):
"""Retrieves the discovery_doc from cache or the internet.
Args:
url: string, the URL of the discovery document.
http: httplib2.Http, An instance of httplib2.Http or something that acts
like it through which HTTP requests will be made.
cache_discovery: Boolean, whether or not to cache the discovery doc.
serviceName: string, name of the service.
version: string, the version of the service.
cache: googleapiclient.discovery_cache.base.Cache, an optional cache
object for the discovery documents.
developerKey: string, Key for controlling API usage, generated
from the API Console.
num_retries: Integer, number of times to retry discovery with
randomized exponential backoff in case of intermittent/connection issues.
static_discovery: Boolean, whether or not to use the static discovery docs
included in the library.
Returns:
A unicode string representation of the discovery document.
"""
from . import discovery_cache
if cache_discovery:
if cache is None:
cache = discovery_cache.autodetect()
if cache:
content = cache.get(url)
if content:
return content
# When `static_discovery=True`, use static discovery artifacts included
# with the library
if static_discovery:
content = discovery_cache.get_static_doc(serviceName, version)
if content:
return content
else:
raise UnknownApiNameOrVersion("name: %s version: %s" % (serviceName, version))
actual_url = url
# REMOTE_ADDR is defined by the CGI spec [RFC3875] as the environment
# variable that contains the network address of the client sending the
# request. If it exists then add that to the request for the discovery
# document to avoid exceeding the quota on discovery requests.
if "REMOTE_ADDR" in os.environ:
actual_url = _add_query_parameter(url, "userIp", os.environ["REMOTE_ADDR"])
if developerKey:
actual_url = _add_query_parameter(url, "key", developerKey)
logger.debug("URL being requested: GET %s", actual_url)
# Execute this request with retries build into HttpRequest
# Note that it will already raise an error if we don't get a 2xx response
req = HttpRequest(http, HttpRequest.null_postproc, actual_url)
resp, content = req.execute(num_retries=num_retries)
try:
content = content.decode("utf-8")
except AttributeError:
pass
try:
service = json.loads(content)
except ValueError as e:
logger.error("Failed to parse as JSON: " + content)
raise InvalidJsonError()
if cache_discovery and cache:
cache.set(url, content)
return content
@positional(1)
def build_from_document(
service,
base=None,
future=None,
http=None,
developerKey=None,
model=None,
requestBuilder=HttpRequest,
credentials=None,
client_options=None,
adc_cert_path=None,
adc_key_path=None,
always_use_jwt_access=False,
):
"""Create a Resource for interacting with an API.
Same as `build()`, but constructs the Resource object from a discovery
document that is it given, as opposed to retrieving one over HTTP.
Args:
service: string or object, the JSON discovery document describing the API.
The value passed in may either be the JSON string or the deserialized
JSON.
base: string, base URI for all HTTP requests, usually the discovery URI.
This parameter is no longer used as rootUrl and servicePath are included
within the discovery document. (deprecated)
future: string, discovery document with future capabilities (deprecated).
http: httplib2.Http, An instance of httplib2.Http or something that acts
like it that HTTP requests will be made through.
developerKey: string, Key for controlling API usage, generated
from the API Console.
model: Model class instance that serializes and de-serializes requests and
responses.
requestBuilder: Takes an http request and packages it up to be executed.
credentials: oauth2client.Credentials or
google.auth.credentials.Credentials, credentials to be used for
authentication.
client_options: Mapping object or google.api_core.client_options, client
options to set user options on the client.
(1) The API endpoint should be set through client_options. If API endpoint
is not set, `GOOGLE_API_USE_MTLS_ENDPOINT` environment variable can be used
to control which endpoint to use.
(2) client_cert_source is not supported, client cert should be provided using
client_encrypted_cert_source instead. In order to use the provided client
cert, `GOOGLE_API_USE_CLIENT_CERTIFICATE` environment variable must be
set to `true`.
More details on the environment variables are here:
https://google.aip.dev/auth/4114
adc_cert_path: str, client certificate file path to save the application
default client certificate for mTLS. This field is required if you want to
use the default client certificate. `GOOGLE_API_USE_CLIENT_CERTIFICATE`
environment variable must be set to `true` in order to use this field,
otherwise this field doesn't nothing.
More details on the environment variables are here:
https://google.aip.dev/auth/4114
adc_key_path: str, client encrypted private key file path to save the
application default client encrypted private key for mTLS. This field is
required if you want to use the default client certificate.
`GOOGLE_API_USE_CLIENT_CERTIFICATE` environment variable must be set to
`true` in order to use this field, otherwise this field doesn't nothing.
More details on the environment variables are here:
https://google.aip.dev/auth/4114
always_use_jwt_access: Boolean, whether always use self signed JWT for service
account credentials. This only applies to
google.oauth2.service_account.Credentials.
Returns:
A Resource object with methods for interacting with the service.
Raises:
google.auth.exceptions.MutualTLSChannelError: if there are any problems
setting up mutual TLS channel.
"""
if client_options is None:
client_options = google.api_core.client_options.ClientOptions()
if isinstance(client_options, collections.abc.Mapping):
client_options = google.api_core.client_options.from_dict(client_options)
if http is not None:
# if http is passed, the user cannot provide credentials
banned_options = [
(credentials, "credentials"),
(client_options.credentials_file, "client_options.credentials_file"),
]
for option, name in banned_options:
if option is not None:
raise ValueError("Arguments http and {} are mutually exclusive".format(name))
if isinstance(service, str):
service = json.loads(service)
elif isinstance(service, bytes):
service = json.loads(service.decode("utf-8"))
if "rootUrl" not in service and isinstance(http, (HttpMock, HttpMockSequence)):
logger.error(
"You are using HttpMock or HttpMockSequence without"
+ "having the service discovery doc in cache. Try calling "
+ "build() without mocking once first to populate the "
+ "cache."
)
raise InvalidJsonError()
# If an API Endpoint is provided on client options, use that as the base URL
base = urllib.parse.urljoin(service["rootUrl"], service["servicePath"])
audience_for_self_signed_jwt = base
if client_options.api_endpoint:
base = client_options.api_endpoint
schema = Schemas(service)
# If the http client is not specified, then we must construct an http client
# to make requests. If the service has scopes, then we also need to setup
# authentication.
if http is None:
# Does the service require scopes?
scopes = list(
service.get("auth", {}).get("oauth2", {}).get("scopes", {}).keys()
)
# If so, then the we need to setup authentication if no developerKey is
# specified.
if scopes and not developerKey:
# Make sure the user didn't pass multiple credentials
if client_options.credentials_file and credentials:
raise google.api_core.exceptions.DuplicateCredentialArgs(
"client_options.credentials_file and credentials are mutually exclusive."
)
# Check for credentials file via client options
if client_options.credentials_file:
credentials = _auth.credentials_from_file(
client_options.credentials_file,
scopes=client_options.scopes,
quota_project_id=client_options.quota_project_id,
)
# If the user didn't pass in credentials, attempt to acquire application
# default credentials.
if credentials is None:
credentials = _auth.default_credentials(
scopes=client_options.scopes,
quota_project_id=client_options.quota_project_id,
)
# The credentials need to be scoped.
# If the user provided scopes via client_options don't override them
if not client_options.scopes:
credentials = _auth.with_scopes(credentials, scopes)
# For google-auth service account credentials, enable self signed JWT if
# always_use_jwt_access is true.
if (
credentials
and isinstance(credentials, service_account.Credentials)
and always_use_jwt_access
and hasattr(service_account.Credentials, "with_always_use_jwt_access")
):
credentials = credentials.with_always_use_jwt_access(always_use_jwt_access)
credentials._create_self_signed_jwt(audience_for_self_signed_jwt)
# If credentials are provided, create an authorized http instance;
# otherwise, skip authentication.
if credentials:
http = _auth.authorized_http(credentials)
# If the service doesn't require scopes then there is no need for
# authentication.
else:
http = build_http()
# Obtain client cert and create mTLS http channel if cert exists.
client_cert_to_use = None
use_client_cert = os.getenv(GOOGLE_API_USE_CLIENT_CERTIFICATE, "false")
if not use_client_cert in ("true", "false"):
raise MutualTLSChannelError(
"Unsupported GOOGLE_API_USE_CLIENT_CERTIFICATE value. Accepted values: true, false"
)
if client_options and client_options.client_cert_source:
raise MutualTLSChannelError(
"ClientOptions.client_cert_source is not supported, please use ClientOptions.client_encrypted_cert_source."
)
if use_client_cert == "true":
if (
client_options
and hasattr(client_options, "client_encrypted_cert_source")
and client_options.client_encrypted_cert_source
):
client_cert_to_use = client_options.client_encrypted_cert_source
elif (
adc_cert_path and adc_key_path and mtls.has_default_client_cert_source()
):
client_cert_to_use = mtls.default_client_encrypted_cert_source(
adc_cert_path, adc_key_path
)
if client_cert_to_use:
cert_path, key_path, passphrase = client_cert_to_use()
# The http object we built could be google_auth_httplib2.AuthorizedHttp
# or httplib2.Http. In the first case we need to extract the wrapped
# httplib2.Http object from google_auth_httplib2.AuthorizedHttp.
http_channel = (
http.http
if google_auth_httplib2
and isinstance(http, google_auth_httplib2.AuthorizedHttp)
else http
)
http_channel.add_certificate(key_path, cert_path, "", passphrase)
# If user doesn't provide api endpoint via client options, decide which
# api endpoint to use.
if "mtlsRootUrl" in service and (
not client_options or not client_options.api_endpoint
):
mtls_endpoint = urllib.parse.urljoin(service["mtlsRootUrl"], service["servicePath"])
use_mtls_endpoint = os.getenv(GOOGLE_API_USE_MTLS_ENDPOINT, "auto")
if not use_mtls_endpoint in ("never", "auto", "always"):
raise MutualTLSChannelError(
"Unsupported GOOGLE_API_USE_MTLS_ENDPOINT value. Accepted values: never, auto, always"
)
# Switch to mTLS endpoint, if environment variable is "always", or
# environment varibable is "auto" and client cert exists.
if use_mtls_endpoint == "always" or (
use_mtls_endpoint == "auto" and client_cert_to_use
):
base = mtls_endpoint
if model is None:
features = service.get("features", [])
model = JsonModel("dataWrapper" in features)
return Resource(
http=http,
baseUrl=base,
model=model,
developerKey=developerKey,
requestBuilder=requestBuilder,
resourceDesc=service,
rootDesc=service,
schema=schema,
)
def _cast(value, schema_type):
"""Convert value to a string based on JSON Schema type.
See http://tools.ietf.org/html/draft-zyp-json-schema-03 for more details on
JSON Schema.
Args:
value: any, the value to convert
schema_type: string, the type that value should be interpreted as
Returns:
A string representation of 'value' based on the schema_type.
"""
if schema_type == "string":
if type(value) == type("") or type(value) == type(u""):
return value
else:
return str(value)
elif schema_type == "integer":
return str(int(value))
elif schema_type == "number":
return str(float(value))
elif schema_type == "boolean":
return str(bool(value)).lower()
else:
if type(value) == type("") or type(value) == type(u""):
return value
else:
return str(value)
def _media_size_to_long(maxSize):
"""Convert a string media size, such as 10GB or 3TB into an integer.
Args:
maxSize: string, size as a string, such as 2MB or 7GB.
Returns:
The size as an integer value.
"""
if len(maxSize) < 2:
return 0
units = maxSize[-2:].upper()
bit_shift = _MEDIA_SIZE_BIT_SHIFTS.get(units)
if bit_shift is not None:
return int(maxSize[:-2]) << bit_shift
else:
return int(maxSize)
def _media_path_url_from_info(root_desc, path_url):
"""Creates an absolute media path URL.
Constructed using the API root URI and service path from the discovery
document and the relative path for the API method.
Args:
root_desc: Dictionary; the entire original deserialized discovery document.
path_url: String; the relative URL for the API method. Relative to the API
root, which is specified in the discovery document.
Returns:
String; the absolute URI for media upload for the API method.
"""
return "%(root)supload/%(service_path)s%(path)s" % {
"root": root_desc["rootUrl"],
"service_path": root_desc["servicePath"],
"path": path_url,
}
def _fix_up_parameters(method_desc, root_desc, http_method, schema):
"""Updates parameters of an API method with values specific to this library.
Specifically, adds whatever global parameters are specified by the API to the
parameters for the individual method. Also adds parameters which don't
appear in the discovery document, but are available to all discovery based
APIs (these are listed in STACK_QUERY_PARAMETERS).
SIDE EFFECTS: This updates the parameters dictionary object in the method
description.
Args:
method_desc: Dictionary with metadata describing an API method. Value comes
from the dictionary of methods stored in the 'methods' key in the
deserialized discovery document.
root_desc: Dictionary; the entire original deserialized discovery document.
http_method: String; the HTTP method used to call the API method described
in method_desc.
schema: Object, mapping of schema names to schema descriptions.
Returns:
The updated Dictionary stored in the 'parameters' key of the method
description dictionary.
"""
parameters = method_desc.setdefault("parameters", {})
# Add in the parameters common to all methods.
for name, description in root_desc.get("parameters", {}).items():
parameters[name] = description
# Add in undocumented query parameters.
for name in STACK_QUERY_PARAMETERS:
parameters[name] = STACK_QUERY_PARAMETER_DEFAULT_VALUE.copy()
# Add 'body' (our own reserved word) to parameters if the method supports
# a request payload.
if http_method in HTTP_PAYLOAD_METHODS and "request" in method_desc:
body = BODY_PARAMETER_DEFAULT_VALUE.copy()
body.update(method_desc["request"])
parameters["body"] = body
return parameters
def _fix_up_media_upload(method_desc, root_desc, path_url, parameters):
"""Adds 'media_body' and 'media_mime_type' parameters if supported by method.
SIDE EFFECTS: If there is a 'mediaUpload' in the method description, adds
'media_upload' key to parameters.
Args:
method_desc: Dictionary with metadata describing an API method. Value comes
from the dictionary of methods stored in the 'methods' key in the
deserialized discovery document.
root_desc: Dictionary; the entire original deserialized discovery document.
path_url: String; the relative URL for the API method. Relative to the API
root, which is specified in the discovery document.
parameters: A dictionary describing method parameters for method described
in method_desc.
Returns:
Triple (accept, max_size, media_path_url) where:
- accept is a list of strings representing what content types are
accepted for media upload. Defaults to empty list if not in the
discovery document.
- max_size is a long representing the max size in bytes allowed for a
media upload. Defaults to 0L if not in the discovery document.
- media_path_url is a String; the absolute URI for media upload for the
API method. Constructed using the API root URI and service path from
the discovery document and the relative path for the API method. If
media upload is not supported, this is None.
"""
media_upload = method_desc.get("mediaUpload", {})
accept = media_upload.get("accept", [])
max_size = _media_size_to_long(media_upload.get("maxSize", ""))
media_path_url = None
if media_upload:
media_path_url = _media_path_url_from_info(root_desc, path_url)
parameters["media_body"] = MEDIA_BODY_PARAMETER_DEFAULT_VALUE.copy()
parameters["media_mime_type"] = MEDIA_MIME_TYPE_PARAMETER_DEFAULT_VALUE.copy()
return accept, max_size, media_path_url
def _fix_up_method_description(method_desc, root_desc, schema):
"""Updates a method description in a discovery document.
SIDE EFFECTS: Changes the parameters dictionary in the method description with
extra parameters which are used locally.
Args:
method_desc: Dictionary with metadata describing an API method. Value comes
from the dictionary of methods stored in the 'methods' key in the
deserialized discovery document.
root_desc: Dictionary; the entire original deserialized discovery document.
schema: Object, mapping of schema names to schema descriptions.
Returns:
Tuple (path_url, http_method, method_id, accept, max_size, media_path_url)
where:
- path_url is a String; the relative URL for the API method. Relative to
the API root, which is specified in the discovery document.
- http_method is a String; the HTTP method used to call the API method
described in the method description.
- method_id is a String; the name of the RPC method associated with the
API method, and is in the method description in the 'id' key.
- accept is a list of strings representing what content types are
accepted for media upload. Defaults to empty list if not in the
discovery document.
- max_size is a long representing the max size in bytes allowed for a
media upload. Defaults to 0L if not in the discovery document.
- media_path_url is a String; the absolute URI for media upload for the
API method. Constructed using the API root URI and service path from
the discovery document and the relative path for the API method. If
media upload is not supported, this is None.
"""
path_url = method_desc["path"]
http_method = method_desc["httpMethod"]
method_id = method_desc["id"]
parameters = _fix_up_parameters(method_desc, root_desc, http_method, schema)
# Order is important. `_fix_up_media_upload` needs `method_desc` to have a
# 'parameters' key and needs to know if there is a 'body' parameter because it
# also sets a 'media_body' parameter.
accept, max_size, media_path_url = _fix_up_media_upload(
method_desc, root_desc, path_url, parameters
)
return path_url, http_method, method_id, accept, max_size, media_path_url
def _urljoin(base, url):
"""Custom urljoin replacement supporting : before / in url."""
# In general, it's unsafe to simply join base and url. However, for
# the case of discovery documents, we know:
# * base will never contain params, query, or fragment
# * url will never contain a scheme or net_loc.
# In general, this means we can safely join on /; we just need to
# ensure we end up with precisely one / joining base and url. The
# exception here is the case of media uploads, where url will be an
# absolute url.
if url.startswith("http://") or url.startswith("https://"):
return urllib.parse.urljoin(base, url)
new_base = base if base.endswith("/") else base + "/"
new_url = url[1:] if url.startswith("/") else url
return new_base + new_url
# TODO(dhermes): Convert this class to ResourceMethod and make it callable
class ResourceMethodParameters(object):
"""Represents the parameters associated with a method.
Attributes:
argmap: Map from method parameter name (string) to query parameter name
(string).
required_params: List of required parameters (represented by parameter
name as string).
repeated_params: List of repeated parameters (represented by parameter
name as string).
pattern_params: Map from method parameter name (string) to regular
expression (as a string). If the pattern is set for a parameter, the
value for that parameter must match the regular expression.
query_params: List of parameters (represented by parameter name as string)
that will be used in the query string.
path_params: Set of parameters (represented by parameter name as string)
that will be used in the base URL path.
param_types: Map from method parameter name (string) to parameter type. Type
can be any valid JSON schema type; valid values are 'any', 'array',
'boolean', 'integer', 'number', 'object', or 'string'. Reference:
http://tools.ietf.org/html/draft-zyp-json-schema-03#section-5.1
enum_params: Map from method parameter name (string) to list of strings,
where each list of strings is the list of acceptable enum values.
"""
def __init__(self, method_desc):
"""Constructor for ResourceMethodParameters.
Sets default values and defers to set_parameters to populate.
Args:
method_desc: Dictionary with metadata describing an API method. Value
comes from the dictionary of methods stored in the 'methods' key in
the deserialized discovery document.
"""
self.argmap = {}
self.required_params = []
self.repeated_params = []
self.pattern_params = {}
self.query_params = []
# TODO(dhermes): Change path_params to a list if the extra URITEMPLATE
# parsing is gotten rid of.
self.path_params = set()
self.param_types = {}
self.enum_params = {}
self.set_parameters(method_desc)
def set_parameters(self, method_desc):
"""Populates maps and lists based on method description.
Iterates through each parameter for the method and parses the values from
the parameter dictionary.
Args:
method_desc: Dictionary with metadata describing an API method. Value
comes from the dictionary of methods stored in the 'methods' key in
the deserialized discovery document.
"""
parameters = method_desc.get("parameters", {})
sorted_parameters = OrderedDict(sorted(parameters.items()))
for arg, desc in sorted_parameters.items():
param = key2param(arg)
self.argmap[param] = arg
if desc.get("pattern"):
self.pattern_params[param] = desc["pattern"]
if desc.get("enum"):
self.enum_params[param] = desc["enum"]
if desc.get("required"):
self.required_params.append(param)
if desc.get("repeated"):
self.repeated_params.append(param)
if desc.get("location") == "query":
self.query_params.append(param)
if desc.get("location") == "path":
self.path_params.add(param)
self.param_types[param] = desc.get("type", "string")
# TODO(dhermes): Determine if this is still necessary. Discovery based APIs
# should have all path parameters already marked with
# 'location: path'.
for match in URITEMPLATE.finditer(method_desc["path"]):
for namematch in VARNAME.finditer(match.group(0)):
name = key2param(namematch.group(0))
self.path_params.add(name)
if name in self.query_params:
self.query_params.remove(name)
def createMethod(methodName, methodDesc, rootDesc, schema):
"""Creates a method for attaching to a Resource.
Args:
methodName: string, name of the method to use.
methodDesc: object, fragment of deserialized discovery document that
describes the method.
rootDesc: object, the entire deserialized discovery document.
schema: object, mapping of schema names to schema descriptions.
"""
methodName = fix_method_name(methodName)
(
pathUrl,
httpMethod,
methodId,
accept,
maxSize,
mediaPathUrl,
) = _fix_up_method_description(methodDesc, rootDesc, schema)
parameters = ResourceMethodParameters(methodDesc)
def method(self, **kwargs):
# Don't bother with doc string, it will be over-written by createMethod.
for name in kwargs:
if name not in parameters.argmap:
raise TypeError('Got an unexpected keyword argument {}'.format(name))
# Remove args that have a value of None.
keys = list(kwargs.keys())
for name in keys:
if kwargs[name] is None:
del kwargs[name]
for name in parameters.required_params:
if name not in kwargs:
# temporary workaround for non-paging methods incorrectly requiring
# page token parameter (cf. drive.changes.watch vs. drive.changes.list)
if name not in _PAGE_TOKEN_NAMES or _findPageTokenName(
_methodProperties(methodDesc, schema, "response")
):
raise TypeError('Missing required parameter "%s"' % name)
for name, regex in parameters.pattern_params.items():
if name in kwargs:
if isinstance(kwargs[name], str):
pvalues = [kwargs[name]]
else:
pvalues = kwargs[name]
for pvalue in pvalues:
if re.match(regex, pvalue) is None:
raise TypeError(
'Parameter "%s" value "%s" does not match the pattern "%s"'
% (name, pvalue, regex)
)
for name, enums in parameters.enum_params.items():
if name in kwargs:
# We need to handle the case of a repeated enum
# name differently, since we want to handle both
# arg='value' and arg=['value1', 'value2']
if name in parameters.repeated_params and not isinstance(
kwargs[name], str
):
values = kwargs[name]
else:
values = [kwargs[name]]
for value in values:
if value not in enums:
raise TypeError(
'Parameter "%s" value "%s" is not an allowed value in "%s"'
% (name, value, str(enums))
)
actual_query_params = {}
actual_path_params = {}
for key, value in kwargs.items():
to_type = parameters.param_types.get(key, "string")
# For repeated parameters we cast each member of the list.
if key in parameters.repeated_params and type(value) == type([]):
cast_value = [_cast(x, to_type) for x in value]
else:
cast_value = _cast(value, to_type)
if key in parameters.query_params:
actual_query_params[parameters.argmap[key]] = cast_value
if key in parameters.path_params:
actual_path_params[parameters.argmap[key]] = cast_value
body_value = kwargs.get("body", None)
media_filename = kwargs.get("media_body", None)
media_mime_type = kwargs.get("media_mime_type", None)
if self._developerKey:
actual_query_params["key"] = self._developerKey
model = self._model
if methodName.endswith("_media"):
model = MediaModel()
elif "response" not in methodDesc:
model = RawModel()
headers = {}
headers, params, query, body = model.request(
headers, actual_path_params, actual_query_params, body_value
)
expanded_url = uritemplate.expand(pathUrl, params)
url = _urljoin(self._baseUrl, expanded_url + query)
resumable = None
multipart_boundary = ""
if media_filename:
# Ensure we end up with a valid MediaUpload object.
if isinstance(media_filename, str):
if media_mime_type is None:
logger.warning(
"media_mime_type argument not specified: trying to auto-detect for %s",
media_filename,
)
media_mime_type, _ = mimetypes.guess_type(media_filename)
if media_mime_type is None:
raise UnknownFileType(media_filename)
if not mimeparse.best_match([media_mime_type], ",".join(accept)):
raise UnacceptableMimeTypeError(media_mime_type)
media_upload = MediaFileUpload(media_filename, mimetype=media_mime_type)
elif isinstance(media_filename, MediaUpload):
media_upload = media_filename
else:
raise TypeError("media_filename must be str or MediaUpload.")
# Check the maxSize
if media_upload.size() is not None and media_upload.size() > maxSize > 0:
raise MediaUploadSizeError("Media larger than: %s" % maxSize)
# Use the media path uri for media uploads
expanded_url = uritemplate.expand(mediaPathUrl, params)
url = _urljoin(self._baseUrl, expanded_url + query)
if media_upload.resumable():
url = _add_query_parameter(url, "uploadType", "resumable")
if media_upload.resumable():
# This is all we need to do for resumable, if the body exists it gets
# sent in the first request, otherwise an empty body is sent.
resumable = media_upload
else:
# A non-resumable upload
if body is None:
# This is a simple media upload
headers["content-type"] = media_upload.mimetype()
body = media_upload.getbytes(0, media_upload.size())
url = _add_query_parameter(url, "uploadType", "media")
else:
# This is a multipart/related upload.
msgRoot = MIMEMultipart("related")
# msgRoot should not write out it's own headers
setattr(msgRoot, "_write_headers", lambda self: None)
# attach the body as one part
msg = MIMENonMultipart(*headers["content-type"].split("/"))
msg.set_payload(body)
msgRoot.attach(msg)
# attach the media as the second part
msg = MIMENonMultipart(*media_upload.mimetype().split("/"))
msg["Content-Transfer-Encoding"] = "binary"
payload = media_upload.getbytes(0, media_upload.size())
msg.set_payload(payload)
msgRoot.attach(msg)
# encode the body: note that we can't use `as_string`, because
# it plays games with `From ` lines.
fp = io.BytesIO()
g = _BytesGenerator(fp, mangle_from_=False)
g.flatten(msgRoot, unixfrom=False)
body = fp.getvalue()
multipart_boundary = msgRoot.get_boundary()
headers["content-type"] = (
"multipart/related; " 'boundary="%s"'
) % multipart_boundary
url = _add_query_parameter(url, "uploadType", "multipart")
logger.debug("URL being requested: %s %s" % (httpMethod, url))
return self._requestBuilder(
self._http,
model.response,
url,
method=httpMethod,
body=body,
headers=headers,
methodId=methodId,
resumable=resumable,
)
docs = [methodDesc.get("description", DEFAULT_METHOD_DOC), "\n\n"]
if len(parameters.argmap) > 0:
docs.append("Args:\n")
# Skip undocumented params and params common to all methods.
skip_parameters = list(rootDesc.get("parameters", {}).keys())
skip_parameters.extend(STACK_QUERY_PARAMETERS)
all_args = list(parameters.argmap.keys())
args_ordered = [key2param(s) for s in methodDesc.get("parameterOrder", [])]
# Move body to the front of the line.
if "body" in all_args:
args_ordered.append("body")
for name in sorted(all_args):
if name not in args_ordered:
args_ordered.append(name)
for arg in args_ordered:
if arg in skip_parameters:
continue
repeated = ""
if arg in parameters.repeated_params:
repeated = " (repeated)"
required = ""
if arg in parameters.required_params:
required = " (required)"
paramdesc = methodDesc["parameters"][parameters.argmap[arg]]
paramdoc = paramdesc.get("description", "A parameter")
if "$ref" in paramdesc:
docs.append(
(" %s: object, %s%s%s\n The object takes the form of:\n\n%s\n\n")
% (
arg,
paramdoc,
required,
repeated,
schema.prettyPrintByName(paramdesc["$ref"]),
)
)
else:
paramtype = paramdesc.get("type", "string")
docs.append(
" %s: %s, %s%s%s\n" % (arg, paramtype, paramdoc, required, repeated)
)
enum = paramdesc.get("enum", [])
enumDesc = paramdesc.get("enumDescriptions", [])
if enum and enumDesc:
docs.append(" Allowed values\n")
for (name, desc) in zip(enum, enumDesc):
docs.append(" %s - %s\n" % (name, desc))
if "response" in methodDesc:
if methodName.endswith("_media"):
docs.append("\nReturns:\n The media object as a string.\n\n ")
else:
docs.append("\nReturns:\n An object of the form:\n\n ")
docs.append(schema.prettyPrintSchema(methodDesc["response"]))
setattr(method, "__doc__", "".join(docs))
return (methodName, method)
def createNextMethod(
methodName,
pageTokenName="pageToken",
nextPageTokenName="nextPageToken",
isPageTokenParameter=True,
):
"""Creates any _next methods for attaching to a Resource.
The _next methods allow for easy iteration through list() responses.
Args:
methodName: string, name of the method to use.
pageTokenName: string, name of request page token field.
nextPageTokenName: string, name of response page token field.
isPageTokenParameter: Boolean, True if request page token is a query
parameter, False if request page token is a field of the request body.
"""
methodName = fix_method_name(methodName)
def methodNext(self, previous_request, previous_response):
"""Retrieves the next page of results.
Args:
previous_request: The request for the previous page. (required)
previous_response: The response from the request for the previous page. (required)
Returns:
A request object that you can call 'execute()' on to request the next
page. Returns None if there are no more items in the collection.
"""
# Retrieve nextPageToken from previous_response
# Use as pageToken in previous_request to create new request.
nextPageToken = previous_response.get(nextPageTokenName, None)
if not nextPageToken:
return None
request = copy.copy(previous_request)
if isPageTokenParameter:
# Replace pageToken value in URI
request.uri = _add_query_parameter(
request.uri, pageTokenName, nextPageToken
)
logger.debug("Next page request URL: %s %s" % (methodName, request.uri))
else:
# Replace pageToken value in request body
model = self._model
body = model.deserialize(request.body)
body[pageTokenName] = nextPageToken
request.body = model.serialize(body)
request.body_size = len(request.body)
if "content-length" in request.headers:
del request.headers["content-length"]
logger.debug("Next page request body: %s %s" % (methodName, body))
return request
return (methodName, methodNext)
class Resource(object):
"""A class for interacting with a resource."""
def __init__(
self,
http,
baseUrl,
model,
requestBuilder,
developerKey,
resourceDesc,
rootDesc,
schema,
):
"""Build a Resource from the API description.
Args:
http: httplib2.Http, Object to make http requests with.
baseUrl: string, base URL for the API. All requests are relative to this
URI.
model: googleapiclient.Model, converts to and from the wire format.
requestBuilder: class or callable that instantiates an
googleapiclient.HttpRequest object.
developerKey: string, key obtained from
https://code.google.com/apis/console
resourceDesc: object, section of deserialized discovery document that
describes a resource. Note that the top level discovery document
is considered a resource.
rootDesc: object, the entire deserialized discovery document.
schema: object, mapping of schema names to schema descriptions.
"""
self._dynamic_attrs = []
self._http = http
self._baseUrl = baseUrl
self._model = model
self._developerKey = developerKey
self._requestBuilder = requestBuilder
self._resourceDesc = resourceDesc
self._rootDesc = rootDesc
self._schema = schema
self._set_service_methods()
def _set_dynamic_attr(self, attr_name, value):
"""Sets an instance attribute and tracks it in a list of dynamic attributes.
Args:
attr_name: string; The name of the attribute to be set
value: The value being set on the object and tracked in the dynamic cache.
"""
self._dynamic_attrs.append(attr_name)
self.__dict__[attr_name] = value
def __getstate__(self):
"""Trim the state down to something that can be pickled.
Uses the fact that the instance variable _dynamic_attrs holds attrs that
will be wiped and restored on pickle serialization.
"""
state_dict = copy.copy(self.__dict__)
for dynamic_attr in self._dynamic_attrs:
del state_dict[dynamic_attr]
del state_dict["_dynamic_attrs"]
return state_dict
def __setstate__(self, state):
"""Reconstitute the state of the object from being pickled.
Uses the fact that the instance variable _dynamic_attrs holds attrs that
will be wiped and restored on pickle serialization.
"""
self.__dict__.update(state)
self._dynamic_attrs = []
self._set_service_methods()
def __enter__(self):
return self
def __exit__(self, exc_type, exc, exc_tb):
self.close()
def close(self):
"""Close httplib2 connections."""
# httplib2 leaves sockets open by default.
# Cleanup using the `close` method.
# https://github.com/httplib2/httplib2/issues/148
self._http.close()
def _set_service_methods(self):
self._add_basic_methods(self._resourceDesc, self._rootDesc, self._schema)
self._add_nested_resources(self._resourceDesc, self._rootDesc, self._schema)
self._add_next_methods(self._resourceDesc, self._schema)
def _add_basic_methods(self, resourceDesc, rootDesc, schema):
# If this is the root Resource, add a new_batch_http_request() method.
if resourceDesc == rootDesc:
batch_uri = "%s%s" % (
rootDesc["rootUrl"],
rootDesc.get("batchPath", "batch"),
)
def new_batch_http_request(callback=None):
"""Create a BatchHttpRequest object based on the discovery document.
Args:
callback: callable, A callback to be called for each response, of the
form callback(id, response, exception). The first parameter is the
request id, and the second is the deserialized response object. The
third is an apiclient.errors.HttpError exception object if an HTTP
error occurred while processing the request, or None if no error
occurred.
Returns:
A BatchHttpRequest object based on the discovery document.
"""
return BatchHttpRequest(callback=callback, batch_uri=batch_uri)
self._set_dynamic_attr("new_batch_http_request", new_batch_http_request)
# Add basic methods to Resource
if "methods" in resourceDesc:
for methodName, methodDesc in resourceDesc["methods"].items():
fixedMethodName, method = createMethod(
methodName, methodDesc, rootDesc, schema
)
self._set_dynamic_attr(
fixedMethodName, method.__get__(self, self.__class__)
)
# Add in _media methods. The functionality of the attached method will
# change when it sees that the method name ends in _media.
if methodDesc.get("supportsMediaDownload", False):
fixedMethodName, method = createMethod(
methodName + "_media", methodDesc, rootDesc, schema
)
self._set_dynamic_attr(
fixedMethodName, method.__get__(self, self.__class__)
)
def _add_nested_resources(self, resourceDesc, rootDesc, schema):
# Add in nested resources
if "resources" in resourceDesc:
def createResourceMethod(methodName, methodDesc):
"""Create a method on the Resource to access a nested Resource.
Args:
methodName: string, name of the method to use.
methodDesc: object, fragment of deserialized discovery document that
describes the method.
"""
methodName = fix_method_name(methodName)
def methodResource(self):
return Resource(
http=self._http,
baseUrl=self._baseUrl,
model=self._model,
developerKey=self._developerKey,
requestBuilder=self._requestBuilder,
resourceDesc=methodDesc,
rootDesc=rootDesc,
schema=schema,
)
setattr(methodResource, "__doc__", "A collection resource.")
setattr(methodResource, "__is_resource__", True)
return (methodName, methodResource)
for methodName, methodDesc in resourceDesc["resources"].items():
fixedMethodName, method = createResourceMethod(methodName, methodDesc)
self._set_dynamic_attr(
fixedMethodName, method.__get__(self, self.__class__)
)
def _add_next_methods(self, resourceDesc, schema):
# Add _next() methods if and only if one of the names 'pageToken' or
# 'nextPageToken' occurs among the fields of both the method's response
# type either the method's request (query parameters) or request body.
if "methods" not in resourceDesc:
return
for methodName, methodDesc in resourceDesc["methods"].items():
nextPageTokenName = _findPageTokenName(
_methodProperties(methodDesc, schema, "response")
)
if not nextPageTokenName:
continue
isPageTokenParameter = True
pageTokenName = _findPageTokenName(methodDesc.get("parameters", {}))
if not pageTokenName:
isPageTokenParameter = False
pageTokenName = _findPageTokenName(
_methodProperties(methodDesc, schema, "request")
)
if not pageTokenName:
continue
fixedMethodName, method = createNextMethod(
methodName + "_next",
pageTokenName,
nextPageTokenName,
isPageTokenParameter,
)
self._set_dynamic_attr(
fixedMethodName, method.__get__(self, self.__class__)
)
def _findPageTokenName(fields):
"""Search field names for one like a page token.
Args:
fields: container of string, names of fields.
Returns:
First name that is either 'pageToken' or 'nextPageToken' if one exists,
otherwise None.
"""
return next(
(tokenName for tokenName in _PAGE_TOKEN_NAMES if tokenName in fields), None
)
def _methodProperties(methodDesc, schema, name):
"""Get properties of a field in a method description.
Args:
methodDesc: object, fragment of deserialized discovery document that
describes the method.
schema: object, mapping of schema names to schema descriptions.
name: string, name of top-level field in method description.
Returns:
Object representing fragment of deserialized discovery document
corresponding to 'properties' field of object corresponding to named field
in method description, if it exists, otherwise empty dict.
"""
desc = methodDesc.get(name, {})
if "$ref" in desc:
desc = schema.get(desc["$ref"], {})
return desc.get("properties", {})