Use the dropbox module instead of bundling code - module still needs to be updated in Kodi repo

This commit is contained in:
Rob Weber 2019-11-26 12:58:35 -06:00
parent dd5b99c978
commit 0cc0684263
32 changed files with 4 additions and 160432 deletions

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@ -5,9 +5,7 @@
<import addon="xbmc.python" version="3.0.0"/>
<import addon="script.module.dateutil" version="2.8.0" />
<import addon="script.module.future" version="0.16.0.4"/>
<!-- for dropbox -->
<import addon="script.module.requests" version="2.18.4"/>
<import addon="script.module.six" version="1.11.0"/>
<import addon="script.module.dropbox" version="9.4.0"/>
</requires>
<extension point="xbmc.python.script" library="default.py">
<provides>executable</provides>

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@ -6,7 +6,7 @@ import resources.lib.utils as utils
# don't die on import error yet, these might not even get used
try:
from . import dropbox
from dropbox import dropbox
except ImportError:
pass

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@ -1,4 +0,0 @@
from __future__ import absolute_import
from .dropbox import __version__, Dropbox, DropboxTeam, create_session # noqa: F401
from .oauth import DropboxOAuth2Flow, DropboxOAuth2FlowNoRedirect # noqa: F401

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@ -1,7 +0,0 @@
# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
# If you have issues importing this module because Python recognizes it as a keyword, use async_ instead.
from .async_ import *

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@ -1,332 +0,0 @@
# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
try:
from . import stone_validators as bv
from . import stone_base as bb
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv
import stone_base as bb
class LaunchResultBase(bb.Union):
"""
Result returned by methods that launch an asynchronous job. A method who may
either launch an asynchronous job, or complete the request synchronously,
can use this union by extending it, and adding a 'complete' field with the
type of the synchronous response. See :class:`LaunchEmptyResult` for an
example.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar str async.LaunchResultBase.async_job_id: This response indicates that
the processing is asynchronous. The string is an id that can be used to
obtain the status of the asynchronous job.
"""
_catch_all = None
@classmethod
def async_job_id(cls, val):
"""
Create an instance of this class set to the ``async_job_id`` tag with
value ``val``.
:param str val:
:rtype: LaunchResultBase
"""
return cls('async_job_id', val)
def is_async_job_id(self):
"""
Check if the union tag is ``async_job_id``.
:rtype: bool
"""
return self._tag == 'async_job_id'
def get_async_job_id(self):
"""
This response indicates that the processing is asynchronous. The string
is an id that can be used to obtain the status of the asynchronous job.
Only call this if :meth:`is_async_job_id` is true.
:rtype: str
"""
if not self.is_async_job_id():
raise AttributeError("tag 'async_job_id' not set")
return self._value
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(LaunchResultBase, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'LaunchResultBase(%r, %r)' % (self._tag, self._value)
LaunchResultBase_validator = bv.Union(LaunchResultBase)
class LaunchEmptyResult(LaunchResultBase):
"""
Result returned by methods that may either launch an asynchronous job or
complete synchronously. Upon synchronous completion of the job, no
additional information is returned.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar async.LaunchEmptyResult.complete: The job finished synchronously and
successfully.
"""
# Attribute is overwritten below the class definition
complete = None
def is_complete(self):
"""
Check if the union tag is ``complete``.
:rtype: bool
"""
return self._tag == 'complete'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(LaunchEmptyResult, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'LaunchEmptyResult(%r, %r)' % (self._tag, self._value)
LaunchEmptyResult_validator = bv.Union(LaunchEmptyResult)
class PollArg(bb.Struct):
"""
Arguments for methods that poll the status of an asynchronous job.
:ivar async.PollArg.async_job_id: Id of the asynchronous job. This is the
value of a response returned from the method that launched the job.
"""
__slots__ = [
'_async_job_id_value',
'_async_job_id_present',
]
_has_required_fields = True
def __init__(self,
async_job_id=None):
self._async_job_id_value = None
self._async_job_id_present = False
if async_job_id is not None:
self.async_job_id = async_job_id
@property
def async_job_id(self):
"""
Id of the asynchronous job. This is the value of a response returned
from the method that launched the job.
:rtype: str
"""
if self._async_job_id_present:
return self._async_job_id_value
else:
raise AttributeError("missing required field 'async_job_id'")
@async_job_id.setter
def async_job_id(self, val):
val = self._async_job_id_validator.validate(val)
self._async_job_id_value = val
self._async_job_id_present = True
@async_job_id.deleter
def async_job_id(self):
self._async_job_id_value = None
self._async_job_id_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PollArg, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PollArg(async_job_id={!r})'.format(
self._async_job_id_value,
)
PollArg_validator = bv.Struct(PollArg)
class PollResultBase(bb.Union):
"""
Result returned by methods that poll for the status of an asynchronous job.
Unions that extend this union should add a 'complete' field with a type of
the information returned upon job completion. See :class:`PollEmptyResult`
for an example.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar async.PollResultBase.in_progress: The asynchronous job is still in
progress.
"""
_catch_all = None
# Attribute is overwritten below the class definition
in_progress = None
def is_in_progress(self):
"""
Check if the union tag is ``in_progress``.
:rtype: bool
"""
return self._tag == 'in_progress'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PollResultBase, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PollResultBase(%r, %r)' % (self._tag, self._value)
PollResultBase_validator = bv.Union(PollResultBase)
class PollEmptyResult(PollResultBase):
"""
Result returned by methods that poll for the status of an asynchronous job.
Upon completion of the job, no additional information is returned.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar async.PollEmptyResult.complete: The asynchronous job has completed
successfully.
"""
# Attribute is overwritten below the class definition
complete = None
def is_complete(self):
"""
Check if the union tag is ``complete``.
:rtype: bool
"""
return self._tag == 'complete'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PollEmptyResult, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PollEmptyResult(%r, %r)' % (self._tag, self._value)
PollEmptyResult_validator = bv.Union(PollEmptyResult)
class PollError(bb.Union):
"""
Error returned by methods for polling the status of asynchronous job.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar async.PollError.invalid_async_job_id: The job ID is invalid.
:ivar async.PollError.internal_error: Something went wrong with the job on
Dropbox's end. You'll need to verify that the action you were taking
succeeded, and if not, try again. This should happen very rarely.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
invalid_async_job_id = None
# Attribute is overwritten below the class definition
internal_error = None
# Attribute is overwritten below the class definition
other = None
def is_invalid_async_job_id(self):
"""
Check if the union tag is ``invalid_async_job_id``.
:rtype: bool
"""
return self._tag == 'invalid_async_job_id'
def is_internal_error(self):
"""
Check if the union tag is ``internal_error``.
:rtype: bool
"""
return self._tag == 'internal_error'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PollError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PollError(%r, %r)' % (self._tag, self._value)
PollError_validator = bv.Union(PollError)
AsyncJobId_validator = bv.String(min_length=1)
LaunchResultBase._async_job_id_validator = AsyncJobId_validator
LaunchResultBase._tagmap = {
'async_job_id': LaunchResultBase._async_job_id_validator,
}
LaunchEmptyResult._complete_validator = bv.Void()
LaunchEmptyResult._tagmap = {
'complete': LaunchEmptyResult._complete_validator,
}
LaunchEmptyResult._tagmap.update(LaunchResultBase._tagmap)
LaunchEmptyResult.complete = LaunchEmptyResult('complete')
PollArg._async_job_id_validator = AsyncJobId_validator
PollArg._all_field_names_ = set(['async_job_id'])
PollArg._all_fields_ = [('async_job_id', PollArg._async_job_id_validator)]
PollResultBase._in_progress_validator = bv.Void()
PollResultBase._tagmap = {
'in_progress': PollResultBase._in_progress_validator,
}
PollResultBase.in_progress = PollResultBase('in_progress')
PollEmptyResult._complete_validator = bv.Void()
PollEmptyResult._tagmap = {
'complete': PollEmptyResult._complete_validator,
}
PollEmptyResult._tagmap.update(PollResultBase._tagmap)
PollEmptyResult.complete = PollEmptyResult('complete')
PollError._invalid_async_job_id_validator = bv.Void()
PollError._internal_error_validator = bv.Void()
PollError._other_validator = bv.Void()
PollError._tagmap = {
'invalid_async_job_id': PollError._invalid_async_job_id_validator,
'internal_error': PollError._internal_error_validator,
'other': PollError._other_validator,
}
PollError.invalid_async_job_id = PollError('invalid_async_job_id')
PollError.internal_error = PollError('internal_error')
PollError.other = PollError('other')
ROUTES = {
}

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@ -1,862 +0,0 @@
# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
try:
from . import stone_validators as bv
from . import stone_base as bb
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv
import stone_base as bb
class AccessError(bb.Union):
"""
Error occurred because the account doesn't have permission to access the
resource.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar InvalidAccountTypeError AccessError.invalid_account_type: Current
account type cannot access the resource.
:ivar PaperAccessError AccessError.paper_access_denied: Current account
cannot access Paper.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
other = None
@classmethod
def invalid_account_type(cls, val):
"""
Create an instance of this class set to the ``invalid_account_type`` tag
with value ``val``.
:param InvalidAccountTypeError val:
:rtype: AccessError
"""
return cls('invalid_account_type', val)
@classmethod
def paper_access_denied(cls, val):
"""
Create an instance of this class set to the ``paper_access_denied`` tag
with value ``val``.
:param PaperAccessError val:
:rtype: AccessError
"""
return cls('paper_access_denied', val)
def is_invalid_account_type(self):
"""
Check if the union tag is ``invalid_account_type``.
:rtype: bool
"""
return self._tag == 'invalid_account_type'
def is_paper_access_denied(self):
"""
Check if the union tag is ``paper_access_denied``.
:rtype: bool
"""
return self._tag == 'paper_access_denied'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def get_invalid_account_type(self):
"""
Current account type cannot access the resource.
Only call this if :meth:`is_invalid_account_type` is true.
:rtype: InvalidAccountTypeError
"""
if not self.is_invalid_account_type():
raise AttributeError("tag 'invalid_account_type' not set")
return self._value
def get_paper_access_denied(self):
"""
Current account cannot access Paper.
Only call this if :meth:`is_paper_access_denied` is true.
:rtype: PaperAccessError
"""
if not self.is_paper_access_denied():
raise AttributeError("tag 'paper_access_denied' not set")
return self._value
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(AccessError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'AccessError(%r, %r)' % (self._tag, self._value)
AccessError_validator = bv.Union(AccessError)
class AuthError(bb.Union):
"""
Errors occurred during authentication.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar auth.AuthError.invalid_access_token: The access token is invalid.
:ivar auth.AuthError.invalid_select_user: The user specified in
'Dropbox-API-Select-User' is no longer on the team.
:ivar auth.AuthError.invalid_select_admin: The user specified in
'Dropbox-API-Select-Admin' is not a Dropbox Business team admin.
:ivar auth.AuthError.user_suspended: The user has been suspended.
:ivar auth.AuthError.expired_access_token: The access token has expired.
:ivar TokenScopeError AuthError.missing_scope: The access token does not
have the required scope to access the route.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
invalid_access_token = None
# Attribute is overwritten below the class definition
invalid_select_user = None
# Attribute is overwritten below the class definition
invalid_select_admin = None
# Attribute is overwritten below the class definition
user_suspended = None
# Attribute is overwritten below the class definition
expired_access_token = None
# Attribute is overwritten below the class definition
other = None
@classmethod
def missing_scope(cls, val):
"""
Create an instance of this class set to the ``missing_scope`` tag with
value ``val``.
:param TokenScopeError val:
:rtype: AuthError
"""
return cls('missing_scope', val)
def is_invalid_access_token(self):
"""
Check if the union tag is ``invalid_access_token``.
:rtype: bool
"""
return self._tag == 'invalid_access_token'
def is_invalid_select_user(self):
"""
Check if the union tag is ``invalid_select_user``.
:rtype: bool
"""
return self._tag == 'invalid_select_user'
def is_invalid_select_admin(self):
"""
Check if the union tag is ``invalid_select_admin``.
:rtype: bool
"""
return self._tag == 'invalid_select_admin'
def is_user_suspended(self):
"""
Check if the union tag is ``user_suspended``.
:rtype: bool
"""
return self._tag == 'user_suspended'
def is_expired_access_token(self):
"""
Check if the union tag is ``expired_access_token``.
:rtype: bool
"""
return self._tag == 'expired_access_token'
def is_missing_scope(self):
"""
Check if the union tag is ``missing_scope``.
:rtype: bool
"""
return self._tag == 'missing_scope'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def get_missing_scope(self):
"""
The access token does not have the required scope to access the route.
Only call this if :meth:`is_missing_scope` is true.
:rtype: TokenScopeError
"""
if not self.is_missing_scope():
raise AttributeError("tag 'missing_scope' not set")
return self._value
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(AuthError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'AuthError(%r, %r)' % (self._tag, self._value)
AuthError_validator = bv.Union(AuthError)
class InvalidAccountTypeError(bb.Union):
"""
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar auth.InvalidAccountTypeError.endpoint: Current account type doesn't
have permission to access this route endpoint.
:ivar auth.InvalidAccountTypeError.feature: Current account type doesn't
have permission to access this feature.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
endpoint = None
# Attribute is overwritten below the class definition
feature = None
# Attribute is overwritten below the class definition
other = None
def is_endpoint(self):
"""
Check if the union tag is ``endpoint``.
:rtype: bool
"""
return self._tag == 'endpoint'
def is_feature(self):
"""
Check if the union tag is ``feature``.
:rtype: bool
"""
return self._tag == 'feature'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(InvalidAccountTypeError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'InvalidAccountTypeError(%r, %r)' % (self._tag, self._value)
InvalidAccountTypeError_validator = bv.Union(InvalidAccountTypeError)
class PaperAccessError(bb.Union):
"""
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar auth.PaperAccessError.paper_disabled: Paper is disabled.
:ivar auth.PaperAccessError.not_paper_user: The provided user has not used
Paper yet.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
paper_disabled = None
# Attribute is overwritten below the class definition
not_paper_user = None
# Attribute is overwritten below the class definition
other = None
def is_paper_disabled(self):
"""
Check if the union tag is ``paper_disabled``.
:rtype: bool
"""
return self._tag == 'paper_disabled'
def is_not_paper_user(self):
"""
Check if the union tag is ``not_paper_user``.
:rtype: bool
"""
return self._tag == 'not_paper_user'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PaperAccessError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PaperAccessError(%r, %r)' % (self._tag, self._value)
PaperAccessError_validator = bv.Union(PaperAccessError)
class RateLimitError(bb.Struct):
"""
Error occurred because the app is being rate limited.
:ivar auth.RateLimitError.reason: The reason why the app is being rate
limited.
:ivar auth.RateLimitError.retry_after: The number of seconds that the app
should wait before making another request.
"""
__slots__ = [
'_reason_value',
'_reason_present',
'_retry_after_value',
'_retry_after_present',
]
_has_required_fields = True
def __init__(self,
reason=None,
retry_after=None):
self._reason_value = None
self._reason_present = False
self._retry_after_value = None
self._retry_after_present = False
if reason is not None:
self.reason = reason
if retry_after is not None:
self.retry_after = retry_after
@property
def reason(self):
"""
The reason why the app is being rate limited.
:rtype: RateLimitReason
"""
if self._reason_present:
return self._reason_value
else:
raise AttributeError("missing required field 'reason'")
@reason.setter
def reason(self, val):
self._reason_validator.validate_type_only(val)
self._reason_value = val
self._reason_present = True
@reason.deleter
def reason(self):
self._reason_value = None
self._reason_present = False
@property
def retry_after(self):
"""
The number of seconds that the app should wait before making another
request.
:rtype: int
"""
if self._retry_after_present:
return self._retry_after_value
else:
return 1
@retry_after.setter
def retry_after(self, val):
val = self._retry_after_validator.validate(val)
self._retry_after_value = val
self._retry_after_present = True
@retry_after.deleter
def retry_after(self):
self._retry_after_value = None
self._retry_after_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(RateLimitError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'RateLimitError(reason={!r}, retry_after={!r})'.format(
self._reason_value,
self._retry_after_value,
)
RateLimitError_validator = bv.Struct(RateLimitError)
class RateLimitReason(bb.Union):
"""
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar auth.RateLimitReason.too_many_requests: You are making too many
requests in the past few minutes.
:ivar auth.RateLimitReason.too_many_write_operations: There are currently
too many write operations happening in the user's Dropbox.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
too_many_requests = None
# Attribute is overwritten below the class definition
too_many_write_operations = None
# Attribute is overwritten below the class definition
other = None
def is_too_many_requests(self):
"""
Check if the union tag is ``too_many_requests``.
:rtype: bool
"""
return self._tag == 'too_many_requests'
def is_too_many_write_operations(self):
"""
Check if the union tag is ``too_many_write_operations``.
:rtype: bool
"""
return self._tag == 'too_many_write_operations'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(RateLimitReason, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'RateLimitReason(%r, %r)' % (self._tag, self._value)
RateLimitReason_validator = bv.Union(RateLimitReason)
class TokenFromOAuth1Arg(bb.Struct):
"""
:ivar auth.TokenFromOAuth1Arg.oauth1_token: The supplied OAuth 1.0 access
token.
:ivar auth.TokenFromOAuth1Arg.oauth1_token_secret: The token secret
associated with the supplied access token.
"""
__slots__ = [
'_oauth1_token_value',
'_oauth1_token_present',
'_oauth1_token_secret_value',
'_oauth1_token_secret_present',
]
_has_required_fields = True
def __init__(self,
oauth1_token=None,
oauth1_token_secret=None):
self._oauth1_token_value = None
self._oauth1_token_present = False
self._oauth1_token_secret_value = None
self._oauth1_token_secret_present = False
if oauth1_token is not None:
self.oauth1_token = oauth1_token
if oauth1_token_secret is not None:
self.oauth1_token_secret = oauth1_token_secret
@property
def oauth1_token(self):
"""
The supplied OAuth 1.0 access token.
:rtype: str
"""
if self._oauth1_token_present:
return self._oauth1_token_value
else:
raise AttributeError("missing required field 'oauth1_token'")
@oauth1_token.setter
def oauth1_token(self, val):
val = self._oauth1_token_validator.validate(val)
self._oauth1_token_value = val
self._oauth1_token_present = True
@oauth1_token.deleter
def oauth1_token(self):
self._oauth1_token_value = None
self._oauth1_token_present = False
@property
def oauth1_token_secret(self):
"""
The token secret associated with the supplied access token.
:rtype: str
"""
if self._oauth1_token_secret_present:
return self._oauth1_token_secret_value
else:
raise AttributeError("missing required field 'oauth1_token_secret'")
@oauth1_token_secret.setter
def oauth1_token_secret(self, val):
val = self._oauth1_token_secret_validator.validate(val)
self._oauth1_token_secret_value = val
self._oauth1_token_secret_present = True
@oauth1_token_secret.deleter
def oauth1_token_secret(self):
self._oauth1_token_secret_value = None
self._oauth1_token_secret_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(TokenFromOAuth1Arg, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'TokenFromOAuth1Arg(oauth1_token={!r}, oauth1_token_secret={!r})'.format(
self._oauth1_token_value,
self._oauth1_token_secret_value,
)
TokenFromOAuth1Arg_validator = bv.Struct(TokenFromOAuth1Arg)
class TokenFromOAuth1Error(bb.Union):
"""
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar auth.TokenFromOAuth1Error.invalid_oauth1_token_info: Part or all of
the OAuth 1.0 access token info is invalid.
:ivar auth.TokenFromOAuth1Error.app_id_mismatch: The authorized app does not
match the app associated with the supplied access token.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
invalid_oauth1_token_info = None
# Attribute is overwritten below the class definition
app_id_mismatch = None
# Attribute is overwritten below the class definition
other = None
def is_invalid_oauth1_token_info(self):
"""
Check if the union tag is ``invalid_oauth1_token_info``.
:rtype: bool
"""
return self._tag == 'invalid_oauth1_token_info'
def is_app_id_mismatch(self):
"""
Check if the union tag is ``app_id_mismatch``.
:rtype: bool
"""
return self._tag == 'app_id_mismatch'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(TokenFromOAuth1Error, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'TokenFromOAuth1Error(%r, %r)' % (self._tag, self._value)
TokenFromOAuth1Error_validator = bv.Union(TokenFromOAuth1Error)
class TokenFromOAuth1Result(bb.Struct):
"""
:ivar auth.TokenFromOAuth1Result.oauth2_token: The OAuth 2.0 token generated
from the supplied OAuth 1.0 token.
"""
__slots__ = [
'_oauth2_token_value',
'_oauth2_token_present',
]
_has_required_fields = True
def __init__(self,
oauth2_token=None):
self._oauth2_token_value = None
self._oauth2_token_present = False
if oauth2_token is not None:
self.oauth2_token = oauth2_token
@property
def oauth2_token(self):
"""
The OAuth 2.0 token generated from the supplied OAuth 1.0 token.
:rtype: str
"""
if self._oauth2_token_present:
return self._oauth2_token_value
else:
raise AttributeError("missing required field 'oauth2_token'")
@oauth2_token.setter
def oauth2_token(self, val):
val = self._oauth2_token_validator.validate(val)
self._oauth2_token_value = val
self._oauth2_token_present = True
@oauth2_token.deleter
def oauth2_token(self):
self._oauth2_token_value = None
self._oauth2_token_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(TokenFromOAuth1Result, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'TokenFromOAuth1Result(oauth2_token={!r})'.format(
self._oauth2_token_value,
)
TokenFromOAuth1Result_validator = bv.Struct(TokenFromOAuth1Result)
class TokenScopeError(bb.Struct):
"""
:ivar auth.TokenScopeError.required_scope: The required scope to access the
route.
"""
__slots__ = [
'_required_scope_value',
'_required_scope_present',
]
_has_required_fields = True
def __init__(self,
required_scope=None):
self._required_scope_value = None
self._required_scope_present = False
if required_scope is not None:
self.required_scope = required_scope
@property
def required_scope(self):
"""
The required scope to access the route.
:rtype: str
"""
if self._required_scope_present:
return self._required_scope_value
else:
raise AttributeError("missing required field 'required_scope'")
@required_scope.setter
def required_scope(self, val):
val = self._required_scope_validator.validate(val)
self._required_scope_value = val
self._required_scope_present = True
@required_scope.deleter
def required_scope(self):
self._required_scope_value = None
self._required_scope_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(TokenScopeError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'TokenScopeError(required_scope={!r})'.format(
self._required_scope_value,
)
TokenScopeError_validator = bv.Struct(TokenScopeError)
AccessError._invalid_account_type_validator = InvalidAccountTypeError_validator
AccessError._paper_access_denied_validator = PaperAccessError_validator
AccessError._other_validator = bv.Void()
AccessError._tagmap = {
'invalid_account_type': AccessError._invalid_account_type_validator,
'paper_access_denied': AccessError._paper_access_denied_validator,
'other': AccessError._other_validator,
}
AccessError.other = AccessError('other')
AuthError._invalid_access_token_validator = bv.Void()
AuthError._invalid_select_user_validator = bv.Void()
AuthError._invalid_select_admin_validator = bv.Void()
AuthError._user_suspended_validator = bv.Void()
AuthError._expired_access_token_validator = bv.Void()
AuthError._missing_scope_validator = TokenScopeError_validator
AuthError._other_validator = bv.Void()
AuthError._tagmap = {
'invalid_access_token': AuthError._invalid_access_token_validator,
'invalid_select_user': AuthError._invalid_select_user_validator,
'invalid_select_admin': AuthError._invalid_select_admin_validator,
'user_suspended': AuthError._user_suspended_validator,
'expired_access_token': AuthError._expired_access_token_validator,
'missing_scope': AuthError._missing_scope_validator,
'other': AuthError._other_validator,
}
AuthError.invalid_access_token = AuthError('invalid_access_token')
AuthError.invalid_select_user = AuthError('invalid_select_user')
AuthError.invalid_select_admin = AuthError('invalid_select_admin')
AuthError.user_suspended = AuthError('user_suspended')
AuthError.expired_access_token = AuthError('expired_access_token')
AuthError.other = AuthError('other')
InvalidAccountTypeError._endpoint_validator = bv.Void()
InvalidAccountTypeError._feature_validator = bv.Void()
InvalidAccountTypeError._other_validator = bv.Void()
InvalidAccountTypeError._tagmap = {
'endpoint': InvalidAccountTypeError._endpoint_validator,
'feature': InvalidAccountTypeError._feature_validator,
'other': InvalidAccountTypeError._other_validator,
}
InvalidAccountTypeError.endpoint = InvalidAccountTypeError('endpoint')
InvalidAccountTypeError.feature = InvalidAccountTypeError('feature')
InvalidAccountTypeError.other = InvalidAccountTypeError('other')
PaperAccessError._paper_disabled_validator = bv.Void()
PaperAccessError._not_paper_user_validator = bv.Void()
PaperAccessError._other_validator = bv.Void()
PaperAccessError._tagmap = {
'paper_disabled': PaperAccessError._paper_disabled_validator,
'not_paper_user': PaperAccessError._not_paper_user_validator,
'other': PaperAccessError._other_validator,
}
PaperAccessError.paper_disabled = PaperAccessError('paper_disabled')
PaperAccessError.not_paper_user = PaperAccessError('not_paper_user')
PaperAccessError.other = PaperAccessError('other')
RateLimitError._reason_validator = RateLimitReason_validator
RateLimitError._retry_after_validator = bv.UInt64()
RateLimitError._all_field_names_ = set([
'reason',
'retry_after',
])
RateLimitError._all_fields_ = [
('reason', RateLimitError._reason_validator),
('retry_after', RateLimitError._retry_after_validator),
]
RateLimitReason._too_many_requests_validator = bv.Void()
RateLimitReason._too_many_write_operations_validator = bv.Void()
RateLimitReason._other_validator = bv.Void()
RateLimitReason._tagmap = {
'too_many_requests': RateLimitReason._too_many_requests_validator,
'too_many_write_operations': RateLimitReason._too_many_write_operations_validator,
'other': RateLimitReason._other_validator,
}
RateLimitReason.too_many_requests = RateLimitReason('too_many_requests')
RateLimitReason.too_many_write_operations = RateLimitReason('too_many_write_operations')
RateLimitReason.other = RateLimitReason('other')
TokenFromOAuth1Arg._oauth1_token_validator = bv.String(min_length=1)
TokenFromOAuth1Arg._oauth1_token_secret_validator = bv.String(min_length=1)
TokenFromOAuth1Arg._all_field_names_ = set([
'oauth1_token',
'oauth1_token_secret',
])
TokenFromOAuth1Arg._all_fields_ = [
('oauth1_token', TokenFromOAuth1Arg._oauth1_token_validator),
('oauth1_token_secret', TokenFromOAuth1Arg._oauth1_token_secret_validator),
]
TokenFromOAuth1Error._invalid_oauth1_token_info_validator = bv.Void()
TokenFromOAuth1Error._app_id_mismatch_validator = bv.Void()
TokenFromOAuth1Error._other_validator = bv.Void()
TokenFromOAuth1Error._tagmap = {
'invalid_oauth1_token_info': TokenFromOAuth1Error._invalid_oauth1_token_info_validator,
'app_id_mismatch': TokenFromOAuth1Error._app_id_mismatch_validator,
'other': TokenFromOAuth1Error._other_validator,
}
TokenFromOAuth1Error.invalid_oauth1_token_info = TokenFromOAuth1Error('invalid_oauth1_token_info')
TokenFromOAuth1Error.app_id_mismatch = TokenFromOAuth1Error('app_id_mismatch')
TokenFromOAuth1Error.other = TokenFromOAuth1Error('other')
TokenFromOAuth1Result._oauth2_token_validator = bv.String(min_length=1)
TokenFromOAuth1Result._all_field_names_ = set(['oauth2_token'])
TokenFromOAuth1Result._all_fields_ = [('oauth2_token', TokenFromOAuth1Result._oauth2_token_validator)]
TokenScopeError._required_scope_validator = bv.String()
TokenScopeError._all_field_names_ = set(['required_scope'])
TokenScopeError._all_fields_ = [('required_scope', TokenScopeError._required_scope_validator)]
token_from_oauth1 = bb.Route(
'token/from_oauth1',
1,
False,
TokenFromOAuth1Arg_validator,
TokenFromOAuth1Result_validator,
TokenFromOAuth1Error_validator,
{'host': u'api',
'style': u'rpc'},
)
token_revoke = bb.Route(
'token/revoke',
1,
False,
bv.Void(),
bv.Void(),
bv.Void(),
{'host': u'api',
'style': u'rpc'},
)
ROUTES = {
'token/from_oauth1': token_from_oauth1,
'token/revoke': token_revoke,
}

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@ -1,458 +0,0 @@
# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
try:
from . import stone_validators as bv
from . import stone_base as bb
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv
import stone_base as bb
class PathRoot(bb.Union):
"""
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar common.PathRoot.home: Paths are relative to the authenticating user's
home namespace, whether or not that user belongs to a team.
:ivar str common.PathRoot.root: Paths are relative to the authenticating
user's root namespace (This results in
:field:`PathRootError.invalid_root` if the user's root namespace has
changed.).
:ivar str common.PathRoot.namespace_id: Paths are relative to given
namespace id (This results in :field:`PathRootError.no_permission` if
you don't have access to this namespace.).
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
home = None
# Attribute is overwritten below the class definition
other = None
@classmethod
def root(cls, val):
"""
Create an instance of this class set to the ``root`` tag with value
``val``.
:param str val:
:rtype: PathRoot
"""
return cls('root', val)
@classmethod
def namespace_id(cls, val):
"""
Create an instance of this class set to the ``namespace_id`` tag with
value ``val``.
:param str val:
:rtype: PathRoot
"""
return cls('namespace_id', val)
def is_home(self):
"""
Check if the union tag is ``home``.
:rtype: bool
"""
return self._tag == 'home'
def is_root(self):
"""
Check if the union tag is ``root``.
:rtype: bool
"""
return self._tag == 'root'
def is_namespace_id(self):
"""
Check if the union tag is ``namespace_id``.
:rtype: bool
"""
return self._tag == 'namespace_id'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def get_root(self):
"""
Paths are relative to the authenticating user's root namespace (This
results in ``PathRootError.invalid_root`` if the user's root namespace
has changed.).
Only call this if :meth:`is_root` is true.
:rtype: str
"""
if not self.is_root():
raise AttributeError("tag 'root' not set")
return self._value
def get_namespace_id(self):
"""
Paths are relative to given namespace id (This results in
``PathRootError.no_permission`` if you don't have access to this
namespace.).
Only call this if :meth:`is_namespace_id` is true.
:rtype: str
"""
if not self.is_namespace_id():
raise AttributeError("tag 'namespace_id' not set")
return self._value
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PathRoot, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PathRoot(%r, %r)' % (self._tag, self._value)
PathRoot_validator = bv.Union(PathRoot)
class PathRootError(bb.Union):
"""
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar RootInfo PathRootError.invalid_root: The root namespace id in
Dropbox-API-Path-Root header is not valid. The value of this error is
use's latest root info.
:ivar common.PathRootError.no_permission: You don't have permission to
access the namespace id in Dropbox-API-Path-Root header.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
no_permission = None
# Attribute is overwritten below the class definition
other = None
@classmethod
def invalid_root(cls, val):
"""
Create an instance of this class set to the ``invalid_root`` tag with
value ``val``.
:param RootInfo val:
:rtype: PathRootError
"""
return cls('invalid_root', val)
def is_invalid_root(self):
"""
Check if the union tag is ``invalid_root``.
:rtype: bool
"""
return self._tag == 'invalid_root'
def is_no_permission(self):
"""
Check if the union tag is ``no_permission``.
:rtype: bool
"""
return self._tag == 'no_permission'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def get_invalid_root(self):
"""
The root namespace id in Dropbox-API-Path-Root header is not valid. The
value of this error is use's latest root info.
Only call this if :meth:`is_invalid_root` is true.
:rtype: RootInfo
"""
if not self.is_invalid_root():
raise AttributeError("tag 'invalid_root' not set")
return self._value
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PathRootError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PathRootError(%r, %r)' % (self._tag, self._value)
PathRootError_validator = bv.Union(PathRootError)
class RootInfo(bb.Struct):
"""
Information about current user's root.
:ivar common.RootInfo.root_namespace_id: The namespace ID for user's root
namespace. It will be the namespace ID of the shared team root if the
user is member of a team with a separate team root. Otherwise it will be
same as ``RootInfo.home_namespace_id``.
:ivar common.RootInfo.home_namespace_id: The namespace ID for user's home
namespace.
"""
__slots__ = [
'_root_namespace_id_value',
'_root_namespace_id_present',
'_home_namespace_id_value',
'_home_namespace_id_present',
]
_has_required_fields = True
def __init__(self,
root_namespace_id=None,
home_namespace_id=None):
self._root_namespace_id_value = None
self._root_namespace_id_present = False
self._home_namespace_id_value = None
self._home_namespace_id_present = False
if root_namespace_id is not None:
self.root_namespace_id = root_namespace_id
if home_namespace_id is not None:
self.home_namespace_id = home_namespace_id
@property
def root_namespace_id(self):
"""
The namespace ID for user's root namespace. It will be the namespace ID
of the shared team root if the user is member of a team with a separate
team root. Otherwise it will be same as ``RootInfo.home_namespace_id``.
:rtype: str
"""
if self._root_namespace_id_present:
return self._root_namespace_id_value
else:
raise AttributeError("missing required field 'root_namespace_id'")
@root_namespace_id.setter
def root_namespace_id(self, val):
val = self._root_namespace_id_validator.validate(val)
self._root_namespace_id_value = val
self._root_namespace_id_present = True
@root_namespace_id.deleter
def root_namespace_id(self):
self._root_namespace_id_value = None
self._root_namespace_id_present = False
@property
def home_namespace_id(self):
"""
The namespace ID for user's home namespace.
:rtype: str
"""
if self._home_namespace_id_present:
return self._home_namespace_id_value
else:
raise AttributeError("missing required field 'home_namespace_id'")
@home_namespace_id.setter
def home_namespace_id(self, val):
val = self._home_namespace_id_validator.validate(val)
self._home_namespace_id_value = val
self._home_namespace_id_present = True
@home_namespace_id.deleter
def home_namespace_id(self):
self._home_namespace_id_value = None
self._home_namespace_id_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(RootInfo, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'RootInfo(root_namespace_id={!r}, home_namespace_id={!r})'.format(
self._root_namespace_id_value,
self._home_namespace_id_value,
)
RootInfo_validator = bv.StructTree(RootInfo)
class TeamRootInfo(RootInfo):
"""
Root info when user is member of a team with a separate root namespace ID.
:ivar common.TeamRootInfo.home_path: The path for user's home directory
under the shared team root.
"""
__slots__ = [
'_home_path_value',
'_home_path_present',
]
_has_required_fields = True
def __init__(self,
root_namespace_id=None,
home_namespace_id=None,
home_path=None):
super(TeamRootInfo, self).__init__(root_namespace_id,
home_namespace_id)
self._home_path_value = None
self._home_path_present = False
if home_path is not None:
self.home_path = home_path
@property
def home_path(self):
"""
The path for user's home directory under the shared team root.
:rtype: str
"""
if self._home_path_present:
return self._home_path_value
else:
raise AttributeError("missing required field 'home_path'")
@home_path.setter
def home_path(self, val):
val = self._home_path_validator.validate(val)
self._home_path_value = val
self._home_path_present = True
@home_path.deleter
def home_path(self):
self._home_path_value = None
self._home_path_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(TeamRootInfo, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'TeamRootInfo(root_namespace_id={!r}, home_namespace_id={!r}, home_path={!r})'.format(
self._root_namespace_id_value,
self._home_namespace_id_value,
self._home_path_value,
)
TeamRootInfo_validator = bv.Struct(TeamRootInfo)
class UserRootInfo(RootInfo):
"""
Root info when user is not member of a team or the user is a member of a
team and the team does not have a separate root namespace.
"""
__slots__ = [
]
_has_required_fields = True
def __init__(self,
root_namespace_id=None,
home_namespace_id=None):
super(UserRootInfo, self).__init__(root_namespace_id,
home_namespace_id)
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(UserRootInfo, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'UserRootInfo(root_namespace_id={!r}, home_namespace_id={!r})'.format(
self._root_namespace_id_value,
self._home_namespace_id_value,
)
UserRootInfo_validator = bv.Struct(UserRootInfo)
Date_validator = bv.Timestamp(u'%Y-%m-%d')
DisplayName_validator = bv.String(min_length=1, pattern=u'[^/:?*<>"|]*')
DisplayNameLegacy_validator = bv.String()
DropboxTimestamp_validator = bv.Timestamp(u'%Y-%m-%dT%H:%M:%SZ')
EmailAddress_validator = bv.String(max_length=255, pattern=u"^['&A-Za-z0-9._%+-]+@[A-Za-z0-9-][A-Za-z0-9.-]*\\.[A-Za-z]{2,15}$")
# A ISO639-1 code.
LanguageCode_validator = bv.String(min_length=2)
NamePart_validator = bv.String(min_length=1, max_length=100, pattern=u'[^/:?*<>"|]*')
NamespaceId_validator = bv.String(pattern=u'[-_0-9a-zA-Z:]+')
OptionalNamePart_validator = bv.String(max_length=100, pattern=u'[^/:?*<>"|]*')
SessionId_validator = bv.String()
SharedFolderId_validator = NamespaceId_validator
PathRoot._home_validator = bv.Void()
PathRoot._root_validator = NamespaceId_validator
PathRoot._namespace_id_validator = NamespaceId_validator
PathRoot._other_validator = bv.Void()
PathRoot._tagmap = {
'home': PathRoot._home_validator,
'root': PathRoot._root_validator,
'namespace_id': PathRoot._namespace_id_validator,
'other': PathRoot._other_validator,
}
PathRoot.home = PathRoot('home')
PathRoot.other = PathRoot('other')
PathRootError._invalid_root_validator = RootInfo_validator
PathRootError._no_permission_validator = bv.Void()
PathRootError._other_validator = bv.Void()
PathRootError._tagmap = {
'invalid_root': PathRootError._invalid_root_validator,
'no_permission': PathRootError._no_permission_validator,
'other': PathRootError._other_validator,
}
PathRootError.no_permission = PathRootError('no_permission')
PathRootError.other = PathRootError('other')
RootInfo._root_namespace_id_validator = NamespaceId_validator
RootInfo._home_namespace_id_validator = NamespaceId_validator
RootInfo._field_names_ = set([
'root_namespace_id',
'home_namespace_id',
])
RootInfo._all_field_names_ = RootInfo._field_names_
RootInfo._fields_ = [
('root_namespace_id', RootInfo._root_namespace_id_validator),
('home_namespace_id', RootInfo._home_namespace_id_validator),
]
RootInfo._all_fields_ = RootInfo._fields_
RootInfo._tag_to_subtype_ = {
(u'team',): TeamRootInfo_validator,
(u'user',): UserRootInfo_validator,
}
RootInfo._pytype_to_tag_and_subtype_ = {
TeamRootInfo: ((u'team',), TeamRootInfo_validator),
UserRootInfo: ((u'user',), UserRootInfo_validator),
}
RootInfo._is_catch_all_ = True
TeamRootInfo._home_path_validator = bv.String()
TeamRootInfo._field_names_ = set(['home_path'])
TeamRootInfo._all_field_names_ = RootInfo._all_field_names_.union(TeamRootInfo._field_names_)
TeamRootInfo._fields_ = [('home_path', TeamRootInfo._home_path_validator)]
TeamRootInfo._all_fields_ = RootInfo._all_fields_ + TeamRootInfo._fields_
UserRootInfo._field_names_ = set([])
UserRootInfo._all_field_names_ = RootInfo._all_field_names_.union(UserRootInfo._field_names_)
UserRootInfo._fields_ = []
UserRootInfo._all_fields_ = RootInfo._all_fields_ + UserRootInfo._fields_
ROUTES = {
}

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@ -1,176 +0,0 @@
# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
try:
from . import stone_validators as bv
from . import stone_base as bb
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv
import stone_base as bb
try:
from . import (
common,
)
except (ImportError, SystemError, ValueError):
import common
class DeleteManualContactsArg(bb.Struct):
"""
:ivar contacts.DeleteManualContactsArg.email_addresses: List of manually
added contacts to be deleted.
"""
__slots__ = [
'_email_addresses_value',
'_email_addresses_present',
]
_has_required_fields = True
def __init__(self,
email_addresses=None):
self._email_addresses_value = None
self._email_addresses_present = False
if email_addresses is not None:
self.email_addresses = email_addresses
@property
def email_addresses(self):
"""
List of manually added contacts to be deleted.
:rtype: list of [str]
"""
if self._email_addresses_present:
return self._email_addresses_value
else:
raise AttributeError("missing required field 'email_addresses'")
@email_addresses.setter
def email_addresses(self, val):
val = self._email_addresses_validator.validate(val)
self._email_addresses_value = val
self._email_addresses_present = True
@email_addresses.deleter
def email_addresses(self):
self._email_addresses_value = None
self._email_addresses_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(DeleteManualContactsArg, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'DeleteManualContactsArg(email_addresses={!r})'.format(
self._email_addresses_value,
)
DeleteManualContactsArg_validator = bv.Struct(DeleteManualContactsArg)
class DeleteManualContactsError(bb.Union):
"""
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar list of [str] contacts.DeleteManualContactsError.contacts_not_found:
Can't delete contacts from this list. Make sure the list only has
manually added contacts. The deletion was cancelled.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
other = None
@classmethod
def contacts_not_found(cls, val):
"""
Create an instance of this class set to the ``contacts_not_found`` tag
with value ``val``.
:param list of [str] val:
:rtype: DeleteManualContactsError
"""
return cls('contacts_not_found', val)
def is_contacts_not_found(self):
"""
Check if the union tag is ``contacts_not_found``.
:rtype: bool
"""
return self._tag == 'contacts_not_found'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def get_contacts_not_found(self):
"""
Can't delete contacts from this list. Make sure the list only has
manually added contacts. The deletion was cancelled.
Only call this if :meth:`is_contacts_not_found` is true.
:rtype: list of [str]
"""
if not self.is_contacts_not_found():
raise AttributeError("tag 'contacts_not_found' not set")
return self._value
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(DeleteManualContactsError, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'DeleteManualContactsError(%r, %r)' % (self._tag, self._value)
DeleteManualContactsError_validator = bv.Union(DeleteManualContactsError)
DeleteManualContactsArg._email_addresses_validator = bv.List(common.EmailAddress_validator)
DeleteManualContactsArg._all_field_names_ = set(['email_addresses'])
DeleteManualContactsArg._all_fields_ = [('email_addresses', DeleteManualContactsArg._email_addresses_validator)]
DeleteManualContactsError._contacts_not_found_validator = bv.List(common.EmailAddress_validator)
DeleteManualContactsError._other_validator = bv.Void()
DeleteManualContactsError._tagmap = {
'contacts_not_found': DeleteManualContactsError._contacts_not_found_validator,
'other': DeleteManualContactsError._other_validator,
}
DeleteManualContactsError.other = DeleteManualContactsError('other')
delete_manual_contacts = bb.Route(
'delete_manual_contacts',
1,
False,
bv.Void(),
bv.Void(),
bv.Void(),
{'host': u'api',
'style': u'rpc'},
)
delete_manual_contacts_batch = bb.Route(
'delete_manual_contacts_batch',
1,
False,
DeleteManualContactsArg_validator,
bv.Void(),
DeleteManualContactsError_validator,
{'host': u'api',
'style': u'rpc'},
)
ROUTES = {
'delete_manual_contacts': delete_manual_contacts,
'delete_manual_contacts_batch': delete_manual_contacts_batch,
}

View File

@ -1,609 +0,0 @@
__all__ = [
'Dropbox',
'DropboxTeam',
'create_session',
]
# This should always be 0.0.0 in master. Only update this after tagging
# before release.
__version__ = '9.4.0'
import contextlib
import json
import logging
import random
import time
import requests
import six
from . import files, stone_serializers
from .auth import (
AuthError_validator,
RateLimitError_validator,
)
from .common import (
PathRoot,
PathRoot_validator,
PathRootError_validator
)
from .base import DropboxBase
from .base_team import DropboxTeamBase
from .exceptions import (
ApiError,
AuthError,
BadInputError,
HttpError,
PathRootError,
InternalServerError,
RateLimitError,
)
from .session import (
API_HOST,
API_CONTENT_HOST,
API_NOTIFICATION_HOST,
HOST_API,
HOST_CONTENT,
HOST_NOTIFY,
pinned_session,
)
PATH_ROOT_HEADER = 'Dropbox-API-Path-Root'
HTTP_STATUS_INVALID_PATH_ROOT = 422
class RouteResult(object):
"""The successful result of a call to a route."""
def __init__(self, obj_result, http_resp=None):
"""
:param str obj_result: The result of a route not including the binary
payload portion, if one exists. Must be serialized JSON.
:param requests.models.Response http_resp: A raw HTTP response. It will
be used to stream the binary-body payload of the response.
"""
assert isinstance(obj_result, six.string_types), \
'obj_result: expected string, got %r' % type(obj_result)
if http_resp is not None:
assert isinstance(http_resp, requests.models.Response), \
'http_resp: expected requests.models.Response, got %r' % \
type(http_resp)
self.obj_result = obj_result
self.http_resp = http_resp
class RouteErrorResult(object):
"""The error result of a call to a route."""
def __init__(self, request_id, obj_result):
"""
:param str request_id: A request_id can be shared with Dropbox Support
to pinpoint the exact request that returns an error.
:param str obj_result: The result of a route not including the binary
payload portion, if one exists.
"""
self.request_id = request_id
self.obj_result = obj_result
def create_session(max_connections=8, proxies=None):
"""
Creates a session object that can be used by multiple :class:`Dropbox` and
:class:`DropboxTeam` instances. This lets you share a connection pool
amongst them, as well as proxy parameters.
:param int max_connections: Maximum connection pool size.
:param dict proxies: See the `requests module
<http://docs.python-requests.org/en/latest/user/advanced/#proxies>`_
for more details.
:rtype: :class:`requests.sessions.Session`. `See the requests module
<http://docs.python-requests.org/en/latest/user/advanced/#session-objects>`_
for more details.
"""
# We only need as many pool_connections as we have unique hostnames.
session = pinned_session(pool_maxsize=max_connections)
if proxies:
session.proxies = proxies
return session
class _DropboxTransport(object):
"""
Responsible for implementing the wire protocol for making requests to the
Dropbox API.
"""
_API_VERSION = '2'
# Download style means that the route argument goes in a Dropbox-API-Arg
# header, and the result comes back in a Dropbox-API-Result header. The
# HTTP response body contains a binary payload.
_ROUTE_STYLE_DOWNLOAD = 'download'
# Upload style means that the route argument goes in a Dropbox-API-Arg
# header. The HTTP request body contains a binary payload. The result
# comes back in a Dropbox-API-Result header.
_ROUTE_STYLE_UPLOAD = 'upload'
# RPC style means that the argument and result of a route are contained in
# the HTTP body.
_ROUTE_STYLE_RPC = 'rpc'
# This is the default longest time we'll block on receiving data from the server
_DEFAULT_TIMEOUT = 30
def __init__(self,
oauth2_access_token,
max_retries_on_error=4,
max_retries_on_rate_limit=None,
user_agent=None,
session=None,
headers=None,
timeout=_DEFAULT_TIMEOUT):
"""
:param str oauth2_access_token: OAuth2 access token for making client
requests.
:param int max_retries_on_error: On 5xx errors, the number of times to
retry.
:param Optional[int] max_retries_on_rate_limit: On 429 errors, the
number of times to retry. If `None`, always retries.
:param str user_agent: The user agent to use when making requests. This
helps us identify requests coming from your application. We
recommend you use the format "AppName/Version". If set, we append
"/OfficialDropboxPythonSDKv2/__version__" to the user_agent,
:param session: If not provided, a new session (connection pool) is
created. To share a session across multiple clients, use
:func:`create_session`.
:type session: :class:`requests.sessions.Session`
:param dict headers: Additional headers to add to requests.
:param Optional[float] timeout: Maximum duration in seconds that
client will wait for any single packet from the
server. After the timeout the client will give up on
connection. If `None`, client will wait forever. Defaults
to 30 seconds.
"""
assert len(oauth2_access_token) > 0, \
'OAuth2 access token cannot be empty.'
assert headers is None or isinstance(headers, dict), \
'Expected dict, got %r' % headers
self._oauth2_access_token = oauth2_access_token
self._max_retries_on_error = max_retries_on_error
self._max_retries_on_rate_limit = max_retries_on_rate_limit
if session:
assert isinstance(session, requests.sessions.Session), \
'Expected requests.sessions.Session, got %r' % session
self._session = session
else:
self._session = create_session()
self._headers = headers
base_user_agent = 'OfficialDropboxPythonSDKv2/' + __version__
if user_agent:
self._raw_user_agent = user_agent
self._user_agent = '{}/{}'.format(user_agent, base_user_agent)
else:
self._raw_user_agent = None
self._user_agent = base_user_agent
self._logger = logging.getLogger('dropbox')
self._host_map = {HOST_API: API_HOST,
HOST_CONTENT: API_CONTENT_HOST,
HOST_NOTIFY: API_NOTIFICATION_HOST}
self._timeout = timeout
def clone(
self,
oauth2_access_token=None,
max_retries_on_error=None,
max_retries_on_rate_limit=None,
user_agent=None,
session=None,
headers=None,
timeout=None):
"""
Creates a new copy of the Dropbox client with the same defaults unless modified by
arguments to clone()
See constructor for original parameter descriptions.
:return: New instance of Dropbox clent
:rtype: Dropbox
"""
return self.__class__(
oauth2_access_token or self._oauth2_access_token,
max_retries_on_error or self._max_retries_on_error,
max_retries_on_rate_limit or self._max_retries_on_rate_limit,
user_agent or self._user_agent,
session or self._session,
headers or self._headers,
timeout or self._timeout
)
def request(self,
route,
namespace,
request_arg,
request_binary,
timeout=None):
"""
Makes a request to the Dropbox API and in the process validates that
the route argument and result are the expected data types. The
request_arg is converted to JSON based on the arg_data_type. Likewise,
the response is deserialized from JSON and converted to an object based
on the {result,error}_data_type.
:param host: The Dropbox API host to connect to.
:param route: The route to make the request to.
:type route: :class:`.datatypes.stone_base.Route`
:param request_arg: Argument for the route that conforms to the
validator specified by route.arg_type.
:param request_binary: String or file pointer representing the binary
payload. Use None if there is no binary payload.
:param Optional[float] timeout: Maximum duration in seconds
that client will wait for any single packet from the
server. After the timeout the client will give up on
connection. If `None`, will use default timeout set on
Dropbox object. Defaults to `None`.
:return: The route's result.
"""
host = route.attrs['host'] or 'api'
route_name = namespace + '/' + route.name
if route.version > 1:
route_name += '_v{}'.format(route.version)
route_style = route.attrs['style'] or 'rpc'
serialized_arg = stone_serializers.json_encode(route.arg_type,
request_arg)
if (timeout is None and
route == files.list_folder_longpoll):
# The client normally sends a timeout value to the
# longpoll route. The server will respond after
# <timeout> + random(0, 90) seconds. We increase the
# socket timeout to the longpoll timeout value plus 90
# seconds so that we don't cut the server response short
# due to a shorter socket timeout.
# NB: This is done here because base.py is auto-generated
timeout = request_arg.timeout + 90
res = self.request_json_string_with_retry(host,
route_name,
route_style,
serialized_arg,
request_binary,
timeout=timeout)
decoded_obj_result = json.loads(res.obj_result)
if isinstance(res, RouteResult):
returned_data_type = route.result_type
obj = decoded_obj_result
elif isinstance(res, RouteErrorResult):
returned_data_type = route.error_type
obj = decoded_obj_result['error']
user_message = decoded_obj_result.get('user_message')
user_message_text = user_message and user_message.get('text')
user_message_locale = user_message and user_message.get('locale')
else:
raise AssertionError('Expected RouteResult or RouteErrorResult, '
'but res is %s' % type(res))
deserialized_result = stone_serializers.json_compat_obj_decode(
returned_data_type, obj, strict=False)
if isinstance(res, RouteErrorResult):
raise ApiError(res.request_id,
deserialized_result,
user_message_text,
user_message_locale)
elif route_style == self._ROUTE_STYLE_DOWNLOAD:
return (deserialized_result, res.http_resp)
else:
return deserialized_result
def request_json_object(self,
host,
route_name,
route_style,
request_arg,
request_binary,
timeout=None):
"""
Makes a request to the Dropbox API, taking a JSON-serializable Python
object as an argument, and returning one as a response.
:param host: The Dropbox API host to connect to.
:param route_name: The name of the route to invoke.
:param route_style: The style of the route.
:param str request_arg: A JSON-serializable Python object representing
the argument for the route.
:param Optional[bytes] request_binary: Bytes representing the binary
payload. Use None if there is no binary payload.
:param Optional[float] timeout: Maximum duration in seconds
that client will wait for any single packet from the
server. After the timeout the client will give up on
connection. If `None`, will use default timeout set on
Dropbox object. Defaults to `None`.
:return: The route's result as a JSON-serializable Python object.
"""
serialized_arg = json.dumps(request_arg)
res = self.request_json_string_with_retry(host,
route_name,
route_style,
serialized_arg,
request_binary,
timeout=timeout)
# This can throw a ValueError if the result is not deserializable,
# but that would be completely unexpected.
deserialized_result = json.loads(res.obj_result)
if isinstance(res, RouteResult) and res.http_resp is not None:
return (deserialized_result, res.http_resp)
else:
return deserialized_result
def request_json_string_with_retry(self,
host,
route_name,
route_style,
request_json_arg,
request_binary,
timeout=None):
"""
See :meth:`request_json_object` for description of parameters.
:param request_json_arg: A string representing the serialized JSON
argument to the route.
"""
attempt = 0
rate_limit_errors = 0
while True:
self._logger.info('Request to %s', route_name)
try:
return self.request_json_string(host,
route_name,
route_style,
request_json_arg,
request_binary,
timeout=timeout)
except InternalServerError as e:
attempt += 1
if attempt <= self._max_retries_on_error:
# Use exponential backoff
backoff = 2**attempt * random.random()
self._logger.info(
'HttpError status_code=%s: Retrying in %.1f seconds',
e.status_code, backoff)
time.sleep(backoff)
else:
raise
except RateLimitError as e:
rate_limit_errors += 1
if (self._max_retries_on_rate_limit is None or
self._max_retries_on_rate_limit >= rate_limit_errors):
# Set default backoff to 5 seconds.
backoff = e.backoff if e.backoff is not None else 5.0
self._logger.info(
'Ratelimit: Retrying in %.1f seconds.', backoff)
time.sleep(backoff)
else:
raise
def request_json_string(self,
host,
func_name,
route_style,
request_json_arg,
request_binary,
timeout=None):
"""
See :meth:`request_json_string_with_retry` for description of
parameters.
"""
if host not in self._host_map:
raise ValueError('Unknown value for host: %r' % host)
if not isinstance(request_binary, (six.binary_type, type(None))):
# Disallow streams and file-like objects even though the underlying
# requests library supports them. This is to prevent incorrect
# behavior when a non-rewindable stream is read from, but the
# request fails and needs to be re-tried at a later time.
raise TypeError('expected request_binary as binary type, got %s' %
type(request_binary))
# Fully qualified hostname
fq_hostname = self._host_map[host]
url = self._get_route_url(fq_hostname, func_name)
headers = {'User-Agent': self._user_agent}
if host != HOST_NOTIFY:
headers['Authorization'] = 'Bearer %s' % self._oauth2_access_token
if self._headers:
headers.update(self._headers)
# The contents of the body of the HTTP request
body = None
# Whether the response should be streamed incrementally, or buffered
# entirely. If stream is True, the caller is responsible for closing
# the HTTP response.
stream = False
if route_style == self._ROUTE_STYLE_RPC:
headers['Content-Type'] = 'application/json'
body = request_json_arg
elif route_style == self._ROUTE_STYLE_DOWNLOAD:
headers['Dropbox-API-Arg'] = request_json_arg
stream = True
elif route_style == self._ROUTE_STYLE_UPLOAD:
headers['Content-Type'] = 'application/octet-stream'
headers['Dropbox-API-Arg'] = request_json_arg
body = request_binary
else:
raise ValueError('Unknown operation style: %r' % route_style)
if timeout is None:
timeout = self._timeout
r = self._session.post(url,
headers=headers,
data=body,
stream=stream,
verify=True,
timeout=timeout,
)
request_id = r.headers.get('x-dropbox-request-id')
if r.status_code >= 500:
raise InternalServerError(request_id, r.status_code, r.text)
elif r.status_code == 400:
raise BadInputError(request_id, r.text)
elif r.status_code == 401:
assert r.headers.get('content-type') == 'application/json', (
'Expected content-type to be application/json, got %r' %
r.headers.get('content-type'))
err = stone_serializers.json_compat_obj_decode(
AuthError_validator, r.json()['error'])
raise AuthError(request_id, err)
elif r.status_code == HTTP_STATUS_INVALID_PATH_ROOT:
err = stone_serializers.json_compat_obj_decode(
PathRootError_validator, r.json()['error'])
raise PathRootError(request_id, err)
elif r.status_code == 429:
err = None
if r.headers.get('content-type') == 'application/json':
err = stone_serializers.json_compat_obj_decode(
RateLimitError_validator, r.json()['error'])
retry_after = err.retry_after
else:
retry_after_str = r.headers.get('retry-after')
if retry_after_str is not None:
retry_after = int(retry_after_str)
else:
retry_after = None
raise RateLimitError(request_id, err, retry_after)
elif 200 <= r.status_code <= 299:
if route_style == self._ROUTE_STYLE_DOWNLOAD:
raw_resp = r.headers['dropbox-api-result']
else:
assert r.headers.get('content-type') == 'application/json', (
'Expected content-type to be application/json, got %r' %
r.headers.get('content-type'))
raw_resp = r.content.decode('utf-8')
if route_style == self._ROUTE_STYLE_DOWNLOAD:
return RouteResult(raw_resp, r)
else:
return RouteResult(raw_resp)
elif r.status_code in (403, 404, 409):
raw_resp = r.content.decode('utf-8')
return RouteErrorResult(request_id, raw_resp)
else:
raise HttpError(request_id, r.status_code, r.text)
def _get_route_url(self, hostname, route_name):
"""Returns the URL of the route.
:param str hostname: Hostname to make the request to.
:param str route_name: Name of the route.
:rtype: str
"""
return 'https://{hostname}/{version}/{route_name}'.format(
hostname=hostname,
version=Dropbox._API_VERSION,
route_name=route_name,
)
def _save_body_to_file(self, download_path, http_resp, chunksize=2**16):
"""
Saves the body of an HTTP response to a file.
:param str download_path: Local path to save data to.
:param http_resp: The HTTP response whose body will be saved.
:type http_resp: :class:`requests.models.Response`
:rtype: None
"""
with open(download_path, 'wb') as f:
with contextlib.closing(http_resp):
for c in http_resp.iter_content(chunksize):
f.write(c)
def with_path_root(self, path_root):
"""
Creates a clone of the Dropbox instance with the Dropbox-API-Path-Root header
as the appropriate serialized instance of PathRoot.
For more information, see
https://www.dropbox.com/developers/reference/namespace-guide#pathrootmodes
:param PathRoot path_root: instance of PathRoot to serialize into the headers field
:return: A :class: `Dropbox`
:rtype: Dropbox
"""
if not isinstance(path_root, PathRoot):
raise ValueError("path_root must be an instance of PathRoot")
return self.clone(
headers={
PATH_ROOT_HEADER: stone_serializers.json_encode(PathRoot_validator, path_root)
}
)
class Dropbox(_DropboxTransport, DropboxBase):
"""
Use this class to make requests to the Dropbox API using a user's access
token. Methods of this class are meant to act on the corresponding user's
Dropbox.
"""
pass
class DropboxTeam(_DropboxTransport, DropboxTeamBase):
"""
Use this class to make requests to the Dropbox API using a team's access
token. Methods of this class are meant to act on the team, but there is
also an :meth:`as_user` method for assuming a team member's identity.
"""
def as_admin(self, team_member_id):
"""
Allows a team credential to assume the identity of an administrator on the team
and perform operations on any team-owned content.
:param str team_member_id: team member id of administrator to perform actions with
:return: A :class:`Dropbox` object that can be used to query on behalf
of this admin of the team.
:rtype: Dropbox
"""
return self._get_dropbox_client_with_select_header('Dropbox-API-Select-Admin',
team_member_id)
def as_user(self, team_member_id):
"""
Allows a team credential to assume the identity of a member of the
team.
:param str team_member_id: team member id of team member to perform actions with
:return: A :class:`Dropbox` object that can be used to query on behalf
of this member of the team.
:rtype: Dropbox
"""
return self._get_dropbox_client_with_select_header('Dropbox-API-Select-User',
team_member_id)
def _get_dropbox_client_with_select_header(self, select_header_name, team_member_id):
"""
Get Dropbox client with modified headers
:param str select_header_name: Header name used to select users
:param str team_member_id: team member id of team member to perform actions with
:return: A :class:`Dropbox` object that can be used to query on behalf
of a member or admin of the team
:rtype: Dropbox
"""
new_headers = self._headers.copy() if self._headers else {}
new_headers[select_header_name] = team_member_id
return Dropbox(
self._oauth2_access_token,
max_retries_on_error=self._max_retries_on_error,
max_retries_on_rate_limit=self._max_retries_on_rate_limit,
timeout=self._timeout,
user_agent=self._raw_user_agent,
session=self._session,
headers=new_headers,
)

View File

@ -1,100 +0,0 @@
class DropboxException(Exception):
"""All errors related to making an API request extend this."""
def __init__(self, request_id, *args, **kwargs):
# A request_id can be shared with Dropbox Support to pinpoint the exact
# request that returns an error.
super(DropboxException, self).__init__(request_id, *args, **kwargs)
self.request_id = request_id
def __str__(self):
return repr(self)
class ApiError(DropboxException):
"""Errors produced by the Dropbox API."""
def __init__(self, request_id, error, user_message_text, user_message_locale):
"""
:param (str) request_id: A request_id can be shared with Dropbox
Support to pinpoint the exact request that returns an error.
:param error: An instance of the error data type for the route.
:param (str) user_message_text: A human-readable message that can be
displayed to the end user. Is None, if unavailable.
:param (str) user_message_locale: The locale of ``user_message_text``,
if present.
"""
super(ApiError, self).__init__(request_id, error)
self.error = error
self.user_message_text = user_message_text
self.user_message_locale = user_message_locale
def __repr__(self):
return 'ApiError({!r}, {})'.format(self.request_id, self.error)
class HttpError(DropboxException):
"""Errors produced at the HTTP layer."""
def __init__(self, request_id, status_code, body):
super(HttpError, self).__init__(request_id, status_code, body)
self.status_code = status_code
self.body = body
def __repr__(self):
return 'HttpError({!r}, {}, {!r})'.format(self.request_id,
self.status_code, self.body)
class PathRootError(HttpError):
"""Error caused by an invalid path root."""
def __init__(self, request_id, error=None):
super(PathRootError, self).__init__(request_id, 422, None)
self.error = error
def __repr__(self):
return 'PathRootError({!r}, {!r})'.format(self.request_id, self.error)
class BadInputError(HttpError):
"""Errors due to bad input parameters to an API Operation."""
def __init__(self, request_id, message):
super(BadInputError, self).__init__(request_id, 400, message)
self.message = message
def __repr__(self):
return 'BadInputError({!r}, {!r})'.format(self.request_id, self.message)
class AuthError(HttpError):
"""Errors due to invalid authentication credentials."""
def __init__(self, request_id, error):
super(AuthError, self).__init__(request_id, 401, None)
self.error = error
def __repr__(self):
return 'AuthError({!r}, {!r})'.format(self.request_id, self.error)
class RateLimitError(HttpError):
"""Error caused by rate limiting."""
def __init__(self, request_id, error=None, backoff=None):
super(RateLimitError, self).__init__(request_id, 429, None)
self.error = error
self.backoff = backoff
def __repr__(self):
return 'RateLimitError({!r}, {!r}, {!r})'.format(
self.request_id, self.error, self.backoff)
class InternalServerError(HttpError):
"""Errors due to a problem on Dropbox."""
def __repr__(self):
return 'InternalServerError({!r}, {}, {!r})'.format(
self.request_id, self.status_code, self.body)

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@ -1,515 +0,0 @@
__all__ = [
'BadRequestException',
'BadStateException',
'CsrfException',
'DropboxOAuth2Flow',
'DropboxOAuth2FlowNoRedirect',
'NotApprovedException',
'OAuth2FlowNoRedirectResult',
'OAuth2FlowResult',
'ProviderException',
]
import base64
import os
import six
import urllib
from .session import (
API_HOST,
WEB_HOST,
pinned_session,
)
if six.PY3:
url_path_quote = urllib.parse.quote # pylint: disable=no-member,useless-suppression
url_encode = urllib.parse.urlencode # pylint: disable=no-member,useless-suppression
else:
url_path_quote = urllib.quote # pylint: disable=no-member,useless-suppression
url_encode = urllib.urlencode # pylint: disable=no-member,useless-suppression
class OAuth2FlowNoRedirectResult(object):
"""
Authorization information for an OAuth2Flow performed with no redirect.
"""
def __init__(self, access_token, account_id, user_id):
"""
Args:
access_token (str): Token to be used to authenticate later
requests.
account_id (str): The Dropbox user's account ID.
user_id (str): Deprecated (use account_id instead).
"""
self.access_token = access_token
self.account_id = account_id
self.user_id = user_id
def __repr__(self):
return 'OAuth2FlowNoRedirectResult(%r, %r, %r)' % (
self.access_token,
self.account_id,
self.user_id,
)
class OAuth2FlowResult(OAuth2FlowNoRedirectResult):
"""
Authorization information for an OAuth2Flow with redirect.
"""
def __init__(self, access_token, account_id, user_id, url_state):
"""
Same as OAuth2FlowNoRedirectResult but with url_state.
Args:
url_state (str): The url state that was set by
:meth:`DropboxOAuth2Flow.start`.
"""
super(OAuth2FlowResult, self).__init__(
access_token, account_id, user_id)
self.url_state = url_state
@classmethod
def from_no_redirect_result(cls, result, url_state):
assert isinstance(result, OAuth2FlowNoRedirectResult)
return cls(
result.access_token, result.account_id, result.user_id, url_state)
def __repr__(self):
return 'OAuth2FlowResult(%r, %r, %r, %r)' % (
self.access_token,
self.account_id,
self.user_id,
self.url_state,
)
class DropboxOAuth2FlowBase(object):
def __init__(self, consumer_key, consumer_secret, locale=None):
self.consumer_key = consumer_key
self.consumer_secret = consumer_secret
self.locale = locale
self.requests_session = pinned_session()
def _get_authorize_url(self, redirect_uri, state):
params = dict(response_type='code',
client_id=self.consumer_key)
if redirect_uri is not None:
params['redirect_uri'] = redirect_uri
if state is not None:
params['state'] = state
return self.build_url('/oauth2/authorize', params, WEB_HOST)
def _finish(self, code, redirect_uri):
url = self.build_url('/oauth2/token')
params = {'grant_type': 'authorization_code',
'code': code,
'client_id': self.consumer_key,
'client_secret': self.consumer_secret,
}
if self.locale is not None:
params['locale'] = self.locale
if redirect_uri is not None:
params['redirect_uri'] = redirect_uri
resp = self.requests_session.post(url, data=params)
resp.raise_for_status()
d = resp.json()
if 'team_id' in d:
account_id = d['team_id']
else:
account_id = d['account_id']
access_token = d['access_token']
uid = d['uid']
return OAuth2FlowNoRedirectResult(
access_token,
account_id,
uid)
def build_path(self, target, params=None):
"""Build the path component for an API URL.
This method urlencodes the parameters, adds them
to the end of the target url, and puts a marker for the API
version in front.
:param str target: A target url (e.g. '/files') to build upon.
:param dict params: Optional dictionary of parameters (name to value).
:return: The path and parameters components of an API URL.
:rtype: str
"""
if six.PY2 and isinstance(target, six.text_type):
target = target.encode('utf8')
target_path = url_path_quote(target)
params = params or {}
params = params.copy()
if self.locale:
params['locale'] = self.locale
if params:
query_string = _params_to_urlencoded(params)
return "%s?%s" % (target_path, query_string)
else:
return target_path
def build_url(self, target, params=None, host=API_HOST):
"""Build an API URL.
This method adds scheme and hostname to the path
returned from build_path.
:param str target: A target url (e.g. '/files') to build upon.
:param dict params: Optional dictionary of parameters (name to value).
:return: The full API URL.
:rtype: str
"""
return "https://%s%s" % (host, self.build_path(target, params))
class DropboxOAuth2FlowNoRedirect(DropboxOAuth2FlowBase):
"""
OAuth 2 authorization helper for apps that can't provide a redirect URI
(such as the command-line example apps).
Example::
from dropbox import DropboxOAuth2FlowNoRedirect
auth_flow = DropboxOAuth2FlowNoRedirect(APP_KEY, APP_SECRET)
authorize_url = auth_flow.start()
print "1. Go to: " + authorize_url
print "2. Click \\"Allow\\" (you might have to log in first)."
print "3. Copy the authorization code."
auth_code = raw_input("Enter the authorization code here: ").strip()
try:
oauth_result = auth_flow.finish(auth_code)
except Exception, e:
print('Error: %s' % (e,))
return
dbx = Dropbox(oauth_result.access_token)
"""
def __init__(self, consumer_key, consumer_secret, locale=None): # noqa: E501; pylint: disable=useless-super-delegation
"""
Construct an instance.
Parameters
:param str consumer_key: Your API app's "app key".
:param str consumer_secret: Your API app's "app secret".
:param str locale: The locale of the user of your application. For
example "en" or "en_US". Some API calls return localized data and
error messages; this setting tells the server which locale to use.
By default, the server uses "en_US".
"""
# pylint: disable=useless-super-delegation
super(DropboxOAuth2FlowNoRedirect, self).__init__(
consumer_key,
consumer_secret,
locale,
)
def start(self):
"""
Starts the OAuth 2 authorization process.
:return: The URL for a page on Dropbox's website. This page will let
the user "approve" your app, which gives your app permission to
access the user's Dropbox account. Tell the user to visit this URL
and approve your app.
"""
return self._get_authorize_url(None, None)
def finish(self, code):
"""
If the user approves your app, they will be presented with an
"authorization code". Have the user copy/paste that authorization code
into your app and then call this method to get an access token.
:param str code: The authorization code shown to the user when they
approved your app.
:rtype: OAuth2FlowNoRedirectResult
:raises: The same exceptions as :meth:`DropboxOAuth2Flow.finish()`.
"""
return self._finish(code, None)
class DropboxOAuth2Flow(DropboxOAuth2FlowBase):
"""
OAuth 2 authorization helper. Use this for web apps.
OAuth 2 has a two-step authorization process. The first step is having the
user authorize your app. The second involves getting an OAuth 2 access
token from Dropbox.
Example::
from dropbox import DropboxOAuth2Flow
def get_dropbox_auth_flow(web_app_session):
redirect_uri = "https://my-web-server.org/dropbox-auth-finish"
return DropboxOAuth2Flow(
APP_KEY, APP_SECRET, redirect_uri, web_app_session,
"dropbox-auth-csrf-token")
# URL handler for /dropbox-auth-start
def dropbox_auth_start(web_app_session, request):
authorize_url = get_dropbox_auth_flow(web_app_session).start()
redirect_to(authorize_url)
# URL handler for /dropbox-auth-finish
def dropbox_auth_finish(web_app_session, request):
try:
oauth_result = \\
get_dropbox_auth_flow(web_app_session).finish(
request.query_params)
except BadRequestException, e:
http_status(400)
except BadStateException, e:
# Start the auth flow again.
redirect_to("/dropbox-auth-start")
except CsrfException, e:
http_status(403)
except NotApprovedException, e:
flash('Not approved? Why not?')
return redirect_to("/home")
except ProviderException, e:
logger.log("Auth error: %s" % (e,))
http_status(403)
"""
def __init__(self, consumer_key, consumer_secret, redirect_uri, session,
csrf_token_session_key, locale=None):
"""
Construct an instance.
:param str consumer_key: Your API app's "app key".
:param str consumer_secret: Your API app's "app secret".
:param str redirect_uri: The URI that the Dropbox server will redirect
the user to after the user finishes authorizing your app. This URI
must be HTTPS-based and pre-registered with the Dropbox servers,
though localhost URIs are allowed without pre-registration and can
be either HTTP or HTTPS.
:param dict session: A dict-like object that represents the current
user's web session (will be used to save the CSRF token).
:param str csrf_token_session_key: The key to use when storing the CSRF
token in the session (for example: "dropbox-auth-csrf-token").
:param str locale: The locale of the user of your application. For
example "en" or "en_US". Some API calls return localized data and
error messages; this setting tells the server which locale to use.
By default, the server uses "en_US".
"""
super(DropboxOAuth2Flow, self).__init__(consumer_key, consumer_secret, locale)
self.redirect_uri = redirect_uri
self.session = session
self.csrf_token_session_key = csrf_token_session_key
def start(self, url_state=None):
"""
Starts the OAuth 2 authorization process.
This function builds an "authorization URL". You should redirect your
user's browser to this URL, which will give them an opportunity to
grant your app access to their Dropbox account. When the user
completes this process, they will be automatically redirected to the
``redirect_uri`` you passed in to the constructor.
This function will also save a CSRF token to
``session[csrf_token_session_key]`` (as provided to the constructor).
This CSRF token will be checked on :meth:`finish()` to prevent request
forgery.
:param str url_state: Any data that you would like to keep in the URL
through the authorization process. This exact value will be
returned to you by :meth:`finish()`.
:return: The URL for a page on Dropbox's website. This page will let
the user "approve" your app, which gives your app permission to
access the user's Dropbox account. Tell the user to visit this URL
and approve your app.
"""
csrf_token = base64.urlsafe_b64encode(os.urandom(16)).decode('ascii')
state = csrf_token
if url_state is not None:
state += "|" + url_state
self.session[self.csrf_token_session_key] = csrf_token
return self._get_authorize_url(self.redirect_uri, state)
def finish(self, query_params):
"""
Call this after the user has visited the authorize URL (see
:meth:`start()`), approved your app and was redirected to your redirect
URI.
:param dict query_params: The query parameters on the GET request to
your redirect URI.
:rtype: OAuth2FlowResult
:raises: :class:`BadRequestException` If the redirect URL was missing
parameters or if the given parameters were not valid.
:raises: :class:`BadStateException` If there's no CSRF token in the
session.
:raises: :class:`CsrfException` If the ``state`` query parameter
doesn't contain the CSRF token from the user's session.
:raises: :class:`NotApprovedException` If the user chose not to
approve your app.
:raises: :class:`ProviderException` If Dropbox redirected to your
redirect URI with some unexpected error identifier and error message.
"""
# Check well-formedness of request.
state = query_params.get('state')
if state is None:
raise BadRequestException("Missing query parameter 'state'.")
error = query_params.get('error')
error_description = query_params.get('error_description')
code = query_params.get('code')
if error is not None and code is not None:
raise BadRequestException(
"Query parameters 'code' and 'error' are both set; "
"only one must be set.")
if error is None and code is None:
raise BadRequestException(
"Neither query parameter 'code' or 'error' is set.")
# Check CSRF token
if self.csrf_token_session_key not in self.session:
raise BadStateException('Missing CSRF token in session.')
csrf_token_from_session = self.session[self.csrf_token_session_key]
if len(csrf_token_from_session) <= 20:
raise AssertionError('CSRF token unexpectedly short: %r' %
csrf_token_from_session)
split_pos = state.find('|')
if split_pos < 0:
given_csrf_token = state
url_state = None
else:
given_csrf_token = state[0:split_pos]
url_state = state[split_pos + 1:]
if not _safe_equals(csrf_token_from_session, given_csrf_token):
raise CsrfException('expected %r, got %r' %
(csrf_token_from_session, given_csrf_token))
del self.session[self.csrf_token_session_key]
# Check for error identifier
if error is not None:
if error == 'access_denied':
# The user clicked "Deny"
if error_description is None:
raise NotApprovedException(
'No additional description from Dropbox')
else:
raise NotApprovedException(
'Additional description from Dropbox: %s' %
error_description)
else:
# All other errors
full_message = error
if error_description is not None:
full_message += ": " + error_description
raise ProviderException(full_message)
# If everything went ok, make the network call to get an access token.
no_redirect_result = self._finish(code, self.redirect_uri)
return OAuth2FlowResult.from_no_redirect_result(
no_redirect_result, url_state)
class BadRequestException(Exception):
"""
Thrown if the redirect URL was missing parameters or if the
given parameters were not valid.
The recommended action is to show an HTTP 400 error page.
"""
pass
class BadStateException(Exception):
"""
Thrown if all the parameters are correct, but there's no CSRF token in the
session. This probably means that the session expired.
The recommended action is to redirect the user's browser to try the
approval process again.
"""
pass
class CsrfException(Exception):
"""
Thrown if the given 'state' parameter doesn't contain the CSRF token from
the user's session. This is blocked to prevent CSRF attacks.
The recommended action is to respond with an HTTP 403 error page.
"""
pass
class NotApprovedException(Exception):
"""
The user chose not to approve your app.
"""
pass
class ProviderException(Exception):
"""
Dropbox redirected to your redirect URI with some unexpected error
identifier and error message.
The recommended action is to log the error, tell the user something went
wrong, and let them try again.
"""
pass
def _safe_equals(a, b):
if len(a) != len(b):
return False
res = 0
for ca, cb in zip(a, b):
res |= ord(ca) ^ ord(cb)
return res == 0
def _params_to_urlencoded(params):
"""
Returns a application/x-www-form-urlencoded ``str`` representing the
key/value pairs in ``params``.
Keys are values are ``str()``'d before calling ``urllib.urlencode``, with
the exception of unicode objects which are utf8-encoded.
"""
def encode(o):
if isinstance(o, six.binary_type):
return o
else:
if isinstance(o, six.text_type):
return o.encode('utf-8')
else:
return str(o).encode('utf-8')
utf8_params = {encode(k): encode(v) for k, v in six.iteritems(params)}
return url_encode(utf8_params)

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@ -1,2 +0,0 @@
def resource_filename(package_or_requirement, resource_name):
return resource_name

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@ -1,158 +0,0 @@
# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
try:
from . import stone_validators as bv
from . import stone_base as bb
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv
import stone_base as bb
class PlatformType(bb.Union):
"""
Possible platforms on which a user may view content.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar seen_state.PlatformType.web: The content was viewed on the web.
:ivar seen_state.PlatformType.desktop: The content was viewed on a desktop
client.
:ivar seen_state.PlatformType.mobile_ios: The content was viewed on a mobile
iOS client.
:ivar seen_state.PlatformType.mobile_android: The content was viewed on a
mobile android client.
:ivar seen_state.PlatformType.api: The content was viewed from an API
client.
:ivar seen_state.PlatformType.unknown: The content was viewed on an unknown
platform.
:ivar seen_state.PlatformType.mobile: The content was viewed on a mobile
client. DEPRECATED: Use mobile_ios or mobile_android instead.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
web = None
# Attribute is overwritten below the class definition
desktop = None
# Attribute is overwritten below the class definition
mobile_ios = None
# Attribute is overwritten below the class definition
mobile_android = None
# Attribute is overwritten below the class definition
api = None
# Attribute is overwritten below the class definition
unknown = None
# Attribute is overwritten below the class definition
mobile = None
# Attribute is overwritten below the class definition
other = None
def is_web(self):
"""
Check if the union tag is ``web``.
:rtype: bool
"""
return self._tag == 'web'
def is_desktop(self):
"""
Check if the union tag is ``desktop``.
:rtype: bool
"""
return self._tag == 'desktop'
def is_mobile_ios(self):
"""
Check if the union tag is ``mobile_ios``.
:rtype: bool
"""
return self._tag == 'mobile_ios'
def is_mobile_android(self):
"""
Check if the union tag is ``mobile_android``.
:rtype: bool
"""
return self._tag == 'mobile_android'
def is_api(self):
"""
Check if the union tag is ``api``.
:rtype: bool
"""
return self._tag == 'api'
def is_unknown(self):
"""
Check if the union tag is ``unknown``.
:rtype: bool
"""
return self._tag == 'unknown'
def is_mobile(self):
"""
Check if the union tag is ``mobile``.
:rtype: bool
"""
return self._tag == 'mobile'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(PlatformType, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'PlatformType(%r, %r)' % (self._tag, self._value)
PlatformType_validator = bv.Union(PlatformType)
PlatformType._web_validator = bv.Void()
PlatformType._desktop_validator = bv.Void()
PlatformType._mobile_ios_validator = bv.Void()
PlatformType._mobile_android_validator = bv.Void()
PlatformType._api_validator = bv.Void()
PlatformType._unknown_validator = bv.Void()
PlatformType._mobile_validator = bv.Void()
PlatformType._other_validator = bv.Void()
PlatformType._tagmap = {
'web': PlatformType._web_validator,
'desktop': PlatformType._desktop_validator,
'mobile_ios': PlatformType._mobile_ios_validator,
'mobile_android': PlatformType._mobile_android_validator,
'api': PlatformType._api_validator,
'unknown': PlatformType._unknown_validator,
'mobile': PlatformType._mobile_validator,
'other': PlatformType._other_validator,
}
PlatformType.web = PlatformType('web')
PlatformType.desktop = PlatformType('desktop')
PlatformType.mobile_ios = PlatformType('mobile_ios')
PlatformType.mobile_android = PlatformType('mobile_android')
PlatformType.api = PlatformType('api')
PlatformType.unknown = PlatformType('unknown')
PlatformType.mobile = PlatformType('mobile')
PlatformType.other = PlatformType('other')
ROUTES = {
}

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from . import pkg_resources
import os
import ssl
import requests
from requests.adapters import HTTPAdapter
from urllib3.poolmanager import PoolManager
API_DOMAIN = os.environ.get('DROPBOX_API_DOMAIN',
os.environ.get('DROPBOX_DOMAIN', '.dropboxapi.com'))
WEB_DOMAIN = os.environ.get('DROPBOX_WEB_DOMAIN',
os.environ.get('DROPBOX_DOMAIN', '.dropbox.com'))
# Default short hostname for RPC-style routes.
HOST_API = 'api'
# Default short hostname for upload and download-style routes.
HOST_CONTENT = 'content'
# Default short hostname for longpoll routes.
HOST_NOTIFY = 'notify'
# Default short hostname for the Drobox website.
HOST_WWW = 'www'
API_HOST = os.environ.get('DROPBOX_API_HOST', HOST_API + API_DOMAIN)
API_CONTENT_HOST = os.environ.get('DROPBOX_API_CONTENT_HOST', HOST_CONTENT + API_DOMAIN)
API_NOTIFICATION_HOST = os.environ.get('DROPBOX_API_NOTIFY_HOST', HOST_NOTIFY + API_DOMAIN)
WEB_HOST = os.environ.get('DROPBOX_WEB_HOST', HOST_WWW + WEB_DOMAIN)
_TRUSTED_CERT_FILE = pkg_resources.resource_filename(__name__, 'trusted-certs.crt')
# TODO(kelkabany): We probably only want to instantiate this once so that even
# if multiple Dropbox objects are instantiated, they all share the same pool.
class _SSLAdapter(HTTPAdapter):
def init_poolmanager(self, connections, maxsize, block=False, **_):
self.poolmanager = PoolManager(
num_pools=connections,
maxsize=maxsize,
block=block,
cert_reqs=ssl.CERT_REQUIRED,
ca_certs=_TRUSTED_CERT_FILE,
)
def pinned_session(pool_maxsize=8):
http_adapter = _SSLAdapter(pool_connections=4, pool_maxsize=pool_maxsize)
_session = requests.session()
_session.mount('https://', http_adapter)
return _session

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"""
Helpers for representing Stone data types in Python.
This module should be dropped into a project that requires the use of Stone. In
the future, this could be imported from a pre-installed Python package, rather
than being added to a project.
"""
from __future__ import absolute_import, unicode_literals
import functools
try:
from . import stone_validators as bv
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv # type: ignore
_MYPY = False
if _MYPY:
import typing # noqa: F401 # pylint: disable=import-error,unused-import,useless-suppression
class AnnotationType(object):
# This is a base class for all annotation types.
pass
if _MYPY:
T = typing.TypeVar('T', bound=AnnotationType)
U = typing.TypeVar('U')
class Struct(object):
# This is a base class for all classes representing Stone structs.
def _process_custom_annotations(self, annotation_type, field_path, processor):
# type: (typing.Type[T], typing.Text, typing.Callable[[T, U], U]) -> None
pass
class Union(object):
# TODO(kelkabany): Possible optimization is to remove _value if a
# union is composed of only symbols.
__slots__ = ['_tag', '_value']
_tagmap = {} # type: typing.Dict[typing.Text, bv.Validator]
_permissioned_tagmaps = set() # type: typing.Set[typing.Text]
def __init__(self, tag, value=None):
validator = None
tagmap_names = ['_{}_tagmap'.format(map_name) for map_name in self._permissioned_tagmaps]
for tagmap_name in ['_tagmap'] + tagmap_names:
if tag in getattr(self, tagmap_name):
validator = getattr(self, tagmap_name)[tag]
assert validator is not None, 'Invalid tag %r.' % tag
if isinstance(validator, bv.Void):
assert value is None, 'Void type union member must have None value.'
elif isinstance(validator, (bv.Struct, bv.Union)):
validator.validate_type_only(value)
else:
validator.validate(value)
self._tag = tag
self._value = value
def __eq__(self, other):
# Also need to check if one class is a subclass of another. If one union extends another,
# the common fields should be able to be compared to each other.
return (
isinstance(other, Union) and
(isinstance(self, other.__class__) or isinstance(other, self.__class__)) and
self._tag == other._tag and self._value == other._value
)
def __ne__(self, other):
return not self == other
def __hash__(self):
return hash((self._tag, self._value))
def _process_custom_annotations(self, annotation_type, field_path, processor):
# type: (typing.Type[T], typing.Text, typing.Callable[[T, U], U]) -> None
pass
@classmethod
def _is_tag_present(cls, tag, caller_permissions):
assert tag, 'tag value should not be None'
if tag in cls._tagmap:
return True
for extra_permission in caller_permissions.permissions:
tagmap_name = '_{}_tagmap'.format(extra_permission)
if hasattr(cls, tagmap_name) and tag in getattr(cls, tagmap_name):
return True
return False
@classmethod
def _get_val_data_type(cls, tag, caller_permissions):
assert tag, 'tag value should not be None'
for extra_permission in caller_permissions.permissions:
tagmap_name = '_{}_tagmap'.format(extra_permission)
if hasattr(cls, tagmap_name) and tag in getattr(cls, tagmap_name):
return getattr(cls, tagmap_name)[tag]
return cls._tagmap[tag]
class Route(object):
def __init__(self, name, version, deprecated, arg_type, result_type, error_type, attrs):
self.name = name
self.version = version
self.deprecated = deprecated
self.arg_type = arg_type
self.result_type = result_type
self.error_type = error_type
assert isinstance(attrs, dict), 'Expected dict, got %r' % attrs
self.attrs = attrs
def __repr__(self):
return 'Route({!r}, {!r}, {!r}, {!r}, {!r}, {!r}, {!r})'.format(
self.name,
self.version,
self.deprecated,
self.arg_type,
self.result_type,
self.error_type,
self.attrs)
# helper functions used when constructing custom annotation processors
# put this here so that every other file doesn't need to import functools
partially_apply = functools.partial
def make_struct_annotation_processor(annotation_type, processor):
def g(field_path, struct):
if struct is None:
return struct
struct._process_custom_annotations(annotation_type, field_path, processor)
return struct
return g
def make_list_annotation_processor(processor):
def g(field_path, list_):
if list_ is None:
return list_
return [processor('{}[{}]'.format(field_path, idx), x) for idx, x in enumerate(list_)]
return g
def make_map_value_annotation_processor(processor):
def g(field_path, map_):
if map_ is None:
return map_
return {k: processor('{}[{}]'.format(field_path, repr(k)), v) for k, v in map_.items()}
return g

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@ -1,673 +0,0 @@
"""
Defines classes to represent each Stone type in Python. These classes should
be used to validate Python objects and normalize them for a given type.
The data types defined here should not be specific to an RPC or serialization
format.
This module should be dropped into a project that requires the use of Stone. In
the future, this could be imported from a pre-installed Python package, rather
than being added to a project.
"""
from __future__ import absolute_import, unicode_literals
from abc import ABCMeta, abstractmethod
import datetime
import hashlib
import math
import numbers
import re
import six
_MYPY = False
if _MYPY:
import typing # noqa: F401 # pylint: disable=import-error,unused-import,useless-suppression
# See <http://python3porting.com/differences.html#buffer>
if six.PY3:
_binary_types = (bytes, memoryview) # noqa: E501,F821 # pylint: disable=undefined-variable,useless-suppression
else:
_binary_types = (bytes, buffer) # noqa: E501,F821 # pylint: disable=undefined-variable,useless-suppression
class ValidationError(Exception):
"""Raised when a value doesn't pass validation by its validator."""
def __init__(self, message, parent=None):
"""
Args:
message (str): Error message detailing validation failure.
parent (str): Adds the parent as the closest reference point for
the error. Use :meth:`add_parent` to add more.
"""
super(ValidationError, self).__init__(message)
self.message = message
self._parents = []
if parent:
self._parents.append(parent)
def add_parent(self, parent):
"""
Args:
parent (str): Adds the parent to the top of the tree of references
that lead to the validator that failed.
"""
self._parents.append(parent)
def __str__(self):
"""
Returns:
str: A descriptive message of the validation error that may also
include the path to the validator that failed.
"""
if self._parents:
return '{}: {}'.format('.'.join(self._parents[::-1]), self.message)
else:
return self.message
def __repr__(self):
# Not a perfect repr, but includes the error location information.
return 'ValidationError(%r)' % six.text_type(self)
def generic_type_name(v):
"""Return a descriptive type name that isn't Python specific. For example,
an int value will return 'integer' rather than 'int'."""
if isinstance(v, bool):
# Must come before any numbers checks since booleans are integers too
return 'boolean'
elif isinstance(v, numbers.Integral):
# Must come before real numbers check since integrals are reals too
return 'integer'
elif isinstance(v, numbers.Real):
return 'float'
elif isinstance(v, (tuple, list)):
return 'list'
elif isinstance(v, six.string_types):
return 'string'
elif v is None:
return 'null'
else:
return type(v).__name__
class Validator(object):
"""All primitive and composite data types should be a subclass of this."""
__metaclass__ = ABCMeta
@abstractmethod
def validate(self, val):
"""Validates that val is of this data type.
Returns: A normalized value if validation succeeds.
Raises: ValidationError
"""
pass
def has_default(self):
return False
def get_default(self):
raise AssertionError('No default available.')
class Primitive(Validator):
"""A basic type that is defined by Stone."""
# pylint: disable=abstract-method
pass
class Boolean(Primitive):
def validate(self, val):
if not isinstance(val, bool):
raise ValidationError('%r is not a valid boolean' % val)
return val
class Integer(Primitive):
"""
Do not use this class directly. Extend it and specify a 'minimum' and
'maximum' value as class variables for a more restrictive integer range.
"""
minimum = None # type: typing.Optional[int]
maximum = None # type: typing.Optional[int]
def __init__(self, min_value=None, max_value=None):
"""
A more restrictive minimum or maximum value can be specified than the
range inherent to the defined type.
"""
if min_value is not None:
assert isinstance(min_value, numbers.Integral), \
'min_value must be an integral number'
assert min_value >= self.minimum, \
'min_value cannot be less than the minimum value for this ' \
'type (%d < %d)' % (min_value, self.minimum)
self.minimum = min_value
if max_value is not None:
assert isinstance(max_value, numbers.Integral), \
'max_value must be an integral number'
assert max_value <= self.maximum, \
'max_value cannot be greater than the maximum value for ' \
'this type (%d < %d)' % (max_value, self.maximum)
self.maximum = max_value
def validate(self, val):
if not isinstance(val, numbers.Integral):
raise ValidationError('expected integer, got %s'
% generic_type_name(val))
elif not (self.minimum <= val <= self.maximum):
raise ValidationError('%d is not within range [%d, %d]'
% (val, self.minimum, self.maximum))
return val
def __repr__(self):
return '%s()' % self.__class__.__name__
class Int32(Integer):
minimum = -2**31
maximum = 2**31 - 1
class UInt32(Integer):
minimum = 0
maximum = 2**32 - 1
class Int64(Integer):
minimum = -2**63
maximum = 2**63 - 1
class UInt64(Integer):
minimum = 0
maximum = 2**64 - 1
class Real(Primitive):
"""
Do not use this class directly. Extend it and optionally set a 'minimum'
and 'maximum' value to enforce a range that's a subset of the Python float
implementation. Python floats are doubles.
"""
minimum = None # type: typing.Optional[float]
maximum = None # type: typing.Optional[float]
def __init__(self, min_value=None, max_value=None):
"""
A more restrictive minimum or maximum value can be specified than the
range inherent to the defined type.
"""
if min_value is not None:
assert isinstance(min_value, numbers.Real), \
'min_value must be a real number'
if not isinstance(min_value, float):
try:
min_value = float(min_value)
except OverflowError:
raise AssertionError('min_value is too small for a float')
if self.minimum is not None and min_value < self.minimum:
raise AssertionError('min_value cannot be less than the '
'minimum value for this type (%f < %f)' %
(min_value, self.minimum))
self.minimum = min_value
if max_value is not None:
assert isinstance(max_value, numbers.Real), \
'max_value must be a real number'
if not isinstance(max_value, float):
try:
max_value = float(max_value)
except OverflowError:
raise AssertionError('max_value is too large for a float')
if self.maximum is not None and max_value > self.maximum:
raise AssertionError('max_value cannot be greater than the '
'maximum value for this type (%f < %f)' %
(max_value, self.maximum))
self.maximum = max_value
def validate(self, val):
if not isinstance(val, numbers.Real):
raise ValidationError('expected real number, got %s' %
generic_type_name(val))
if not isinstance(val, float):
# This checks for the case where a number is passed in with a
# magnitude larger than supported by float64.
try:
val = float(val)
except OverflowError:
raise ValidationError('too large for float')
if math.isnan(val) or math.isinf(val):
raise ValidationError('%f values are not supported' % val)
if self.minimum is not None and val < self.minimum:
raise ValidationError('%f is not greater than %f' %
(val, self.minimum))
if self.maximum is not None and val > self.maximum:
raise ValidationError('%f is not less than %f' %
(val, self.maximum))
return val
def __repr__(self):
return '%s()' % self.__class__.__name__
class Float32(Real):
# Maximum and minimums from the IEEE 754-1985 standard
minimum = -3.40282 * 10**38
maximum = 3.40282 * 10**38
class Float64(Real):
pass
class String(Primitive):
"""Represents a unicode string."""
def __init__(self, min_length=None, max_length=None, pattern=None):
if min_length is not None:
assert isinstance(min_length, numbers.Integral), \
'min_length must be an integral number'
assert min_length >= 0, 'min_length must be >= 0'
if max_length is not None:
assert isinstance(max_length, numbers.Integral), \
'max_length must be an integral number'
assert max_length > 0, 'max_length must be > 0'
if min_length and max_length:
assert max_length >= min_length, 'max_length must be >= min_length'
if pattern is not None:
assert isinstance(pattern, six.string_types), \
'pattern must be a string'
self.min_length = min_length
self.max_length = max_length
self.pattern = pattern
self.pattern_re = None
if pattern:
try:
self.pattern_re = re.compile(r"\A(?:" + pattern + r")\Z")
except re.error as e:
raise AssertionError('Regex {!r} failed: {}'.format(
pattern, e.args[0]))
def validate(self, val):
"""
A unicode string of the correct length and pattern will pass validation.
In PY2, we enforce that a str type must be valid utf-8, and a unicode
string will be returned.
"""
if not isinstance(val, six.string_types):
raise ValidationError("'%s' expected to be a string, got %s"
% (val, generic_type_name(val)))
if not six.PY3 and isinstance(val, str):
try:
val = val.decode('utf-8')
except UnicodeDecodeError:
raise ValidationError("'%s' was not valid utf-8")
if self.max_length is not None and len(val) > self.max_length:
raise ValidationError("'%s' must be at most %d characters, got %d"
% (val, self.max_length, len(val)))
if self.min_length is not None and len(val) < self.min_length:
raise ValidationError("'%s' must be at least %d characters, got %d"
% (val, self.min_length, len(val)))
if self.pattern and not self.pattern_re.match(val):
raise ValidationError("'%s' did not match pattern '%s'"
% (val, self.pattern))
return val
class Bytes(Primitive):
def __init__(self, min_length=None, max_length=None):
if min_length is not None:
assert isinstance(min_length, numbers.Integral), \
'min_length must be an integral number'
assert min_length >= 0, 'min_length must be >= 0'
if max_length is not None:
assert isinstance(max_length, numbers.Integral), \
'max_length must be an integral number'
assert max_length > 0, 'max_length must be > 0'
if min_length is not None and max_length is not None:
assert max_length >= min_length, 'max_length must be >= min_length'
self.min_length = min_length
self.max_length = max_length
def validate(self, val):
if not isinstance(val, _binary_types):
raise ValidationError("expected bytes type, got %s"
% generic_type_name(val))
elif self.max_length is not None and len(val) > self.max_length:
raise ValidationError("'%s' must have at most %d bytes, got %d"
% (val, self.max_length, len(val)))
elif self.min_length is not None and len(val) < self.min_length:
raise ValidationError("'%s' has fewer than %d bytes, got %d"
% (val, self.min_length, len(val)))
return val
class Timestamp(Primitive):
"""Note that while a format is specified, it isn't used in validation
since a native Python datetime object is preferred. The format, however,
can and should be used by serializers."""
def __init__(self, fmt):
"""fmt must be composed of format codes that the C standard (1989)
supports, most notably in its strftime() function."""
assert isinstance(fmt, six.text_type), 'format must be a string'
self.format = fmt
def validate(self, val):
if not isinstance(val, datetime.datetime):
raise ValidationError('expected timestamp, got %s'
% generic_type_name(val))
elif val.tzinfo is not None and \
val.tzinfo.utcoffset(val).total_seconds() != 0:
raise ValidationError('timestamp should have either a UTC '
'timezone or none set at all')
return val
class Composite(Validator):
"""Validator for a type that builds on other primitive and composite
types."""
# pylint: disable=abstract-method
pass
class List(Composite):
"""Assumes list contents are homogeneous with respect to types."""
def __init__(self, item_validator, min_items=None, max_items=None):
"""Every list item will be validated with item_validator."""
self.item_validator = item_validator
if min_items is not None:
assert isinstance(min_items, numbers.Integral), \
'min_items must be an integral number'
assert min_items >= 0, 'min_items must be >= 0'
if max_items is not None:
assert isinstance(max_items, numbers.Integral), \
'max_items must be an integral number'
assert max_items > 0, 'max_items must be > 0'
if min_items is not None and max_items is not None:
assert max_items >= min_items, 'max_items must be >= min_items'
self.min_items = min_items
self.max_items = max_items
def validate(self, val):
if not isinstance(val, (tuple, list)):
raise ValidationError('%r is not a valid list' % val)
elif self.max_items is not None and len(val) > self.max_items:
raise ValidationError('%r has more than %s items'
% (val, self.max_items))
elif self.min_items is not None and len(val) < self.min_items:
raise ValidationError('%r has fewer than %s items'
% (val, self.min_items))
return [self.item_validator.validate(item) for item in val]
class Map(Composite):
"""Assumes map keys and values are homogeneous with respect to types."""
def __init__(self, key_validator, value_validator):
"""
Every Map key/value pair will be validated with item_validator.
key validators must be a subclass of a String validator
"""
self.key_validator = key_validator
self.value_validator = value_validator
def validate(self, val):
if not isinstance(val, dict):
raise ValidationError('%r is not a valid dict' % val)
return {
self.key_validator.validate(key):
self.value_validator.validate(value) for key, value in val.items()
}
class Struct(Composite):
def __init__(self, definition):
"""
Args:
definition (class): A generated class representing a Stone struct
from a spec. Must have a _fields_ attribute with the following
structure:
_fields_ = [(field_name, validator), ...]
where
field_name: Name of the field (str).
validator: Validator object.
"""
super(Struct, self).__init__()
self.definition = definition
def validate(self, val):
"""
For a val to pass validation, val must be of the correct type and have
all required fields present.
"""
self.validate_type_only(val)
self.validate_fields_only(val)
return val
def validate_with_permissions(self, val, caller_permissions):
"""
For a val to pass validation, val must be of the correct type and have
all required permissioned fields present. Should only be called
for callers with extra permissions.
"""
self.validate(val)
self.validate_fields_only_with_permissions(val, caller_permissions)
return val
def validate_fields_only(self, val):
"""
To pass field validation, no required field should be missing.
This method assumes that the contents of each field have already been
validated on assignment, so it's merely a presence check.
FIXME(kelkabany): Since the definition object does not maintain a list
of which fields are required, all fields are scanned.
"""
for field_name in self.definition._all_field_names_:
if not hasattr(val, field_name):
raise ValidationError("missing required field '%s'" %
field_name)
def validate_fields_only_with_permissions(self, val, caller_permissions):
"""
To pass field validation, no required field should be missing.
This method assumes that the contents of each field have already been
validated on assignment, so it's merely a presence check.
Should only be called for callers with extra permissions.
"""
self.validate_fields_only(val)
# check if type has been patched
for extra_permission in caller_permissions.permissions:
all_field_names = '_all_{}_field_names_'.format(extra_permission)
for field_name in getattr(self.definition, all_field_names, set()):
if not hasattr(val, field_name):
raise ValidationError("missing required field '%s'" % field_name)
def validate_type_only(self, val):
"""
Use this when you only want to validate that the type of an object
is correct, but not yet validate each field.
"""
# Since the definition maintains the list of fields for serialization,
# we're okay with a subclass that might have extra information. This
# makes it easier to return one subclass for two routes, one of which
# relies on the parent class.
if not isinstance(val, self.definition):
raise ValidationError('expected type %s, got %s' %
(self.definition.__name__, generic_type_name(val)))
def has_default(self):
return not self.definition._has_required_fields
def get_default(self):
assert not self.definition._has_required_fields, 'No default available.'
return self.definition()
class StructTree(Struct):
"""Validator for structs with enumerated subtypes.
NOTE: validate_fields_only() validates the fields known to this base
struct, but does not do any validation specific to the subtype.
"""
# See PyCQA/pylint#1043 for why this is disabled; this should show up
# as a usless-suppression (and can be removed) once a fix is released
def __init__(self, definition): # pylint: disable=useless-super-delegation
super(StructTree, self).__init__(definition)
class Union(Composite):
def __init__(self, definition):
"""
Args:
definition (class): A generated class representing a Stone union
from a spec. Must have a _tagmap attribute with the following
structure:
_tagmap = {field_name: validator, ...}
where
field_name (str): Tag name.
validator (Validator): Tag value validator.
"""
self.definition = definition
def validate(self, val):
"""
For a val to pass validation, it must have a _tag set. This assumes
that the object validated that _tag is a valid tag, and that any
associated value has also been validated.
"""
self.validate_type_only(val)
if not hasattr(val, '_tag') or val._tag is None:
raise ValidationError('no tag set')
return val
def validate_type_only(self, val):
"""
Use this when you only want to validate that the type of an object
is correct, but not yet validate each field.
We check whether val is a Python parent class of the definition. This
is because Union subtyping works in the opposite direction of Python
inheritance. For example, if a union U2 extends U1 in Python, this
validator will accept U1 in places where U2 is expected.
"""
if not issubclass(self.definition, type(val)):
raise ValidationError('expected type %s or subtype, got %s' %
(self.definition.__name__, generic_type_name(val)))
class Void(Primitive):
def validate(self, val):
if val is not None:
raise ValidationError('expected NoneType, got %s' %
generic_type_name(val))
def has_default(self):
return True
def get_default(self):
return None
class Nullable(Validator):
def __init__(self, validator):
assert isinstance(validator, (Primitive, Composite)), \
'validator must be for a primitive or composite type'
assert not isinstance(validator, Nullable), \
'nullables cannot be stacked'
assert not isinstance(validator, Void), \
'void cannot be made nullable'
self.validator = validator
def validate(self, val):
if val is None:
return
else:
return self.validator.validate(val)
def validate_type_only(self, val):
"""Use this only if Nullable is wrapping a Composite."""
if val is None:
return
else:
return self.validator.validate_type_only(val)
def has_default(self):
return True
def get_default(self):
return None
class Redactor(object):
def __init__(self, regex):
"""
Args:
regex: What parts of the field to redact.
"""
self.regex = regex
@abstractmethod
def apply(self, val):
"""Redacts information from annotated field.
Returns: A redacted version of the string provided.
"""
pass
def _get_matches(self, val):
if not self.regex:
return None
try:
return re.search(self.regex, val)
except TypeError:
return None
class HashRedactor(Redactor):
def apply(self, val):
matches = self._get_matches(val)
val_to_hash = str(val) if isinstance(val, int) or isinstance(val, float) else val
try:
# add string literal to ensure unicode
hashed = hashlib.md5(val_to_hash.encode('utf-8')).hexdigest() + ''
except [AttributeError, ValueError]:
hashed = None
if matches:
blotted = '***'.join(matches.groups())
if hashed:
return '{} ({})'.format(hashed, blotted)
return blotted
return hashed
class BlotRedactor(Redactor):
def apply(self, val):
matches = self._get_matches(val)
if matches:
return '***'.join(matches.groups())
return '********'

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# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
try:
from . import stone_validators as bv
from . import stone_base as bb
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv
import stone_base as bb
try:
from . import (
common,
)
except (ImportError, SystemError, ValueError):
import common
class GroupManagementType(bb.Union):
"""
The group type determines how a group is managed.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar team_common.GroupManagementType.user_managed: A group which is managed
by selected users.
:ivar team_common.GroupManagementType.company_managed: A group which is
managed by team admins only.
:ivar team_common.GroupManagementType.system_managed: A group which is
managed automatically by Dropbox.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
user_managed = None
# Attribute is overwritten below the class definition
company_managed = None
# Attribute is overwritten below the class definition
system_managed = None
# Attribute is overwritten below the class definition
other = None
def is_user_managed(self):
"""
Check if the union tag is ``user_managed``.
:rtype: bool
"""
return self._tag == 'user_managed'
def is_company_managed(self):
"""
Check if the union tag is ``company_managed``.
:rtype: bool
"""
return self._tag == 'company_managed'
def is_system_managed(self):
"""
Check if the union tag is ``system_managed``.
:rtype: bool
"""
return self._tag == 'system_managed'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(GroupManagementType, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'GroupManagementType(%r, %r)' % (self._tag, self._value)
GroupManagementType_validator = bv.Union(GroupManagementType)
class GroupSummary(bb.Struct):
"""
Information about a group.
:ivar team_common.GroupSummary.group_external_id: External ID of group. This
is an arbitrary ID that an admin can attach to a group.
:ivar team_common.GroupSummary.member_count: The number of members in the
group.
:ivar team_common.GroupSummary.group_management_type: Who is allowed to
manage the group.
"""
__slots__ = [
'_group_name_value',
'_group_name_present',
'_group_id_value',
'_group_id_present',
'_group_external_id_value',
'_group_external_id_present',
'_member_count_value',
'_member_count_present',
'_group_management_type_value',
'_group_management_type_present',
]
_has_required_fields = True
def __init__(self,
group_name=None,
group_id=None,
group_management_type=None,
group_external_id=None,
member_count=None):
self._group_name_value = None
self._group_name_present = False
self._group_id_value = None
self._group_id_present = False
self._group_external_id_value = None
self._group_external_id_present = False
self._member_count_value = None
self._member_count_present = False
self._group_management_type_value = None
self._group_management_type_present = False
if group_name is not None:
self.group_name = group_name
if group_id is not None:
self.group_id = group_id
if group_external_id is not None:
self.group_external_id = group_external_id
if member_count is not None:
self.member_count = member_count
if group_management_type is not None:
self.group_management_type = group_management_type
@property
def group_name(self):
"""
:rtype: str
"""
if self._group_name_present:
return self._group_name_value
else:
raise AttributeError("missing required field 'group_name'")
@group_name.setter
def group_name(self, val):
val = self._group_name_validator.validate(val)
self._group_name_value = val
self._group_name_present = True
@group_name.deleter
def group_name(self):
self._group_name_value = None
self._group_name_present = False
@property
def group_id(self):
"""
:rtype: str
"""
if self._group_id_present:
return self._group_id_value
else:
raise AttributeError("missing required field 'group_id'")
@group_id.setter
def group_id(self, val):
val = self._group_id_validator.validate(val)
self._group_id_value = val
self._group_id_present = True
@group_id.deleter
def group_id(self):
self._group_id_value = None
self._group_id_present = False
@property
def group_external_id(self):
"""
External ID of group. This is an arbitrary ID that an admin can attach
to a group.
:rtype: str
"""
if self._group_external_id_present:
return self._group_external_id_value
else:
return None
@group_external_id.setter
def group_external_id(self, val):
if val is None:
del self.group_external_id
return
val = self._group_external_id_validator.validate(val)
self._group_external_id_value = val
self._group_external_id_present = True
@group_external_id.deleter
def group_external_id(self):
self._group_external_id_value = None
self._group_external_id_present = False
@property
def member_count(self):
"""
The number of members in the group.
:rtype: int
"""
if self._member_count_present:
return self._member_count_value
else:
return None
@member_count.setter
def member_count(self, val):
if val is None:
del self.member_count
return
val = self._member_count_validator.validate(val)
self._member_count_value = val
self._member_count_present = True
@member_count.deleter
def member_count(self):
self._member_count_value = None
self._member_count_present = False
@property
def group_management_type(self):
"""
Who is allowed to manage the group.
:rtype: GroupManagementType
"""
if self._group_management_type_present:
return self._group_management_type_value
else:
raise AttributeError("missing required field 'group_management_type'")
@group_management_type.setter
def group_management_type(self, val):
self._group_management_type_validator.validate_type_only(val)
self._group_management_type_value = val
self._group_management_type_present = True
@group_management_type.deleter
def group_management_type(self):
self._group_management_type_value = None
self._group_management_type_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(GroupSummary, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'GroupSummary(group_name={!r}, group_id={!r}, group_management_type={!r}, group_external_id={!r}, member_count={!r})'.format(
self._group_name_value,
self._group_id_value,
self._group_management_type_value,
self._group_external_id_value,
self._member_count_value,
)
GroupSummary_validator = bv.Struct(GroupSummary)
class GroupType(bb.Union):
"""
The group type determines how a group is created and managed.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar team_common.GroupType.team: A group to which team members are
automatically added. Applicable to `team folders
<https://www.dropbox.com/help/986>`_ only.
:ivar team_common.GroupType.user_managed: A group is created and managed by
a user.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
team = None
# Attribute is overwritten below the class definition
user_managed = None
# Attribute is overwritten below the class definition
other = None
def is_team(self):
"""
Check if the union tag is ``team``.
:rtype: bool
"""
return self._tag == 'team'
def is_user_managed(self):
"""
Check if the union tag is ``user_managed``.
:rtype: bool
"""
return self._tag == 'user_managed'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(GroupType, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'GroupType(%r, %r)' % (self._tag, self._value)
GroupType_validator = bv.Union(GroupType)
class MemberSpaceLimitType(bb.Union):
"""
The type of the space limit imposed on a team member.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar team_common.MemberSpaceLimitType.off: The team member does not have
imposed space limit.
:ivar team_common.MemberSpaceLimitType.alert_only: The team member has soft
imposed space limit - the limit is used for display and for
notifications.
:ivar team_common.MemberSpaceLimitType.stop_sync: The team member has hard
imposed space limit - Dropbox file sync will stop after the limit is
reached.
"""
_catch_all = 'other'
# Attribute is overwritten below the class definition
off = None
# Attribute is overwritten below the class definition
alert_only = None
# Attribute is overwritten below the class definition
stop_sync = None
# Attribute is overwritten below the class definition
other = None
def is_off(self):
"""
Check if the union tag is ``off``.
:rtype: bool
"""
return self._tag == 'off'
def is_alert_only(self):
"""
Check if the union tag is ``alert_only``.
:rtype: bool
"""
return self._tag == 'alert_only'
def is_stop_sync(self):
"""
Check if the union tag is ``stop_sync``.
:rtype: bool
"""
return self._tag == 'stop_sync'
def is_other(self):
"""
Check if the union tag is ``other``.
:rtype: bool
"""
return self._tag == 'other'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(MemberSpaceLimitType, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'MemberSpaceLimitType(%r, %r)' % (self._tag, self._value)
MemberSpaceLimitType_validator = bv.Union(MemberSpaceLimitType)
class TimeRange(bb.Struct):
"""
Time range.
:ivar team_common.TimeRange.start_time: Optional starting time (inclusive).
:ivar team_common.TimeRange.end_time: Optional ending time (exclusive).
"""
__slots__ = [
'_start_time_value',
'_start_time_present',
'_end_time_value',
'_end_time_present',
]
_has_required_fields = False
def __init__(self,
start_time=None,
end_time=None):
self._start_time_value = None
self._start_time_present = False
self._end_time_value = None
self._end_time_present = False
if start_time is not None:
self.start_time = start_time
if end_time is not None:
self.end_time = end_time
@property
def start_time(self):
"""
Optional starting time (inclusive).
:rtype: datetime.datetime
"""
if self._start_time_present:
return self._start_time_value
else:
return None
@start_time.setter
def start_time(self, val):
if val is None:
del self.start_time
return
val = self._start_time_validator.validate(val)
self._start_time_value = val
self._start_time_present = True
@start_time.deleter
def start_time(self):
self._start_time_value = None
self._start_time_present = False
@property
def end_time(self):
"""
Optional ending time (exclusive).
:rtype: datetime.datetime
"""
if self._end_time_present:
return self._end_time_value
else:
return None
@end_time.setter
def end_time(self, val):
if val is None:
del self.end_time
return
val = self._end_time_validator.validate(val)
self._end_time_value = val
self._end_time_present = True
@end_time.deleter
def end_time(self):
self._end_time_value = None
self._end_time_present = False
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(TimeRange, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'TimeRange(start_time={!r}, end_time={!r})'.format(
self._start_time_value,
self._end_time_value,
)
TimeRange_validator = bv.Struct(TimeRange)
GroupExternalId_validator = bv.String()
GroupId_validator = bv.String()
MemberExternalId_validator = bv.String(max_length=64)
ResellerId_validator = bv.String()
TeamMemberId_validator = bv.String()
GroupManagementType._user_managed_validator = bv.Void()
GroupManagementType._company_managed_validator = bv.Void()
GroupManagementType._system_managed_validator = bv.Void()
GroupManagementType._other_validator = bv.Void()
GroupManagementType._tagmap = {
'user_managed': GroupManagementType._user_managed_validator,
'company_managed': GroupManagementType._company_managed_validator,
'system_managed': GroupManagementType._system_managed_validator,
'other': GroupManagementType._other_validator,
}
GroupManagementType.user_managed = GroupManagementType('user_managed')
GroupManagementType.company_managed = GroupManagementType('company_managed')
GroupManagementType.system_managed = GroupManagementType('system_managed')
GroupManagementType.other = GroupManagementType('other')
GroupSummary._group_name_validator = bv.String()
GroupSummary._group_id_validator = GroupId_validator
GroupSummary._group_external_id_validator = bv.Nullable(GroupExternalId_validator)
GroupSummary._member_count_validator = bv.Nullable(bv.UInt32())
GroupSummary._group_management_type_validator = GroupManagementType_validator
GroupSummary._all_field_names_ = set([
'group_name',
'group_id',
'group_external_id',
'member_count',
'group_management_type',
])
GroupSummary._all_fields_ = [
('group_name', GroupSummary._group_name_validator),
('group_id', GroupSummary._group_id_validator),
('group_external_id', GroupSummary._group_external_id_validator),
('member_count', GroupSummary._member_count_validator),
('group_management_type', GroupSummary._group_management_type_validator),
]
GroupType._team_validator = bv.Void()
GroupType._user_managed_validator = bv.Void()
GroupType._other_validator = bv.Void()
GroupType._tagmap = {
'team': GroupType._team_validator,
'user_managed': GroupType._user_managed_validator,
'other': GroupType._other_validator,
}
GroupType.team = GroupType('team')
GroupType.user_managed = GroupType('user_managed')
GroupType.other = GroupType('other')
MemberSpaceLimitType._off_validator = bv.Void()
MemberSpaceLimitType._alert_only_validator = bv.Void()
MemberSpaceLimitType._stop_sync_validator = bv.Void()
MemberSpaceLimitType._other_validator = bv.Void()
MemberSpaceLimitType._tagmap = {
'off': MemberSpaceLimitType._off_validator,
'alert_only': MemberSpaceLimitType._alert_only_validator,
'stop_sync': MemberSpaceLimitType._stop_sync_validator,
'other': MemberSpaceLimitType._other_validator,
}
MemberSpaceLimitType.off = MemberSpaceLimitType('off')
MemberSpaceLimitType.alert_only = MemberSpaceLimitType('alert_only')
MemberSpaceLimitType.stop_sync = MemberSpaceLimitType('stop_sync')
MemberSpaceLimitType.other = MemberSpaceLimitType('other')
TimeRange._start_time_validator = bv.Nullable(common.DropboxTimestamp_validator)
TimeRange._end_time_validator = bv.Nullable(common.DropboxTimestamp_validator)
TimeRange._all_field_names_ = set([
'start_time',
'end_time',
])
TimeRange._all_fields_ = [
('start_time', TimeRange._start_time_validator),
('end_time', TimeRange._end_time_validator),
]
ROUTES = {
}

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@ -1,88 +0,0 @@
# -*- coding: utf-8 -*-
# Auto-generated by Stone, do not modify.
# @generated
# flake8: noqa
# pylint: skip-file
"""
This namespace contains common data types used within the users namespace.
"""
try:
from . import stone_validators as bv
from . import stone_base as bb
except (ImportError, SystemError, ValueError):
# Catch errors raised when importing a relative module when not in a package.
# This makes testing this file directly (outside of a package) easier.
import stone_validators as bv
import stone_base as bb
class AccountType(bb.Union):
"""
What type of account this user has.
This class acts as a tagged union. Only one of the ``is_*`` methods will
return true. To get the associated value of a tag (if one exists), use the
corresponding ``get_*`` method.
:ivar users_common.AccountType.basic: The basic account type.
:ivar users_common.AccountType.pro: The Dropbox Pro account type.
:ivar users_common.AccountType.business: The Dropbox Business account type.
"""
_catch_all = None
# Attribute is overwritten below the class definition
basic = None
# Attribute is overwritten below the class definition
pro = None
# Attribute is overwritten below the class definition
business = None
def is_basic(self):
"""
Check if the union tag is ``basic``.
:rtype: bool
"""
return self._tag == 'basic'
def is_pro(self):
"""
Check if the union tag is ``pro``.
:rtype: bool
"""
return self._tag == 'pro'
def is_business(self):
"""
Check if the union tag is ``business``.
:rtype: bool
"""
return self._tag == 'business'
def _process_custom_annotations(self, annotation_type, field_path, processor):
super(AccountType, self)._process_custom_annotations(annotation_type, field_path, processor)
def __repr__(self):
return 'AccountType(%r, %r)' % (self._tag, self._value)
AccountType_validator = bv.Union(AccountType)
AccountId_validator = bv.String(min_length=40, max_length=40)
AccountType._basic_validator = bv.Void()
AccountType._pro_validator = bv.Void()
AccountType._business_validator = bv.Void()
AccountType._tagmap = {
'basic': AccountType._basic_validator,
'pro': AccountType._pro_validator,
'business': AccountType._business_validator,
}
AccountType.basic = AccountType('basic')
AccountType.pro = AccountType('pro')
AccountType.business = AccountType('business')
ROUTES = {
}

View File

@ -5,9 +5,9 @@ import sys
import xbmc
import xbmcvfs
import xbmcgui
from . import dropbox
from dropbox import dropbox
from . import utils as utils
from .dropbox.files import WriteMode, CommitInfo, UploadSessionCursor
from dropbox.files import WriteMode, CommitInfo, UploadSessionCursor
from . authorizers import DropboxAuthorizer