lbry-sdk/lbry/wallet/rpc/jsonrpc.py

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# Copyright (c) 2018, Neil Booth
#
# All rights reserved.
#
# The MIT License (MIT)
#
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
#
# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
"""Classes for JSONRPC versions 1.0 and 2.0, and a loose interpretation."""
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__all__ = ('JSONRPC', 'JSONRPCv1', 'JSONRPCv2', 'JSONRPCLoose',
'JSONRPCAutoDetect', 'Request', 'Notification', 'Batch',
'RPCError', 'ProtocolError',
'JSONRPCConnection', 'handler_invocation')
import itertools
import json
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import typing
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import asyncio
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from functools import partial
from numbers import Number
import attr
from asyncio import Queue, Event, CancelledError
from .util import signature_info
class SingleRequest:
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__slots__ = ('method', 'args')
def __init__(self, method, args):
if not isinstance(method, str):
raise ProtocolError(JSONRPC.METHOD_NOT_FOUND,
'method must be a string')
if not isinstance(args, (list, tuple, dict)):
raise ProtocolError.invalid_args('request arguments must be a '
'list or a dictionary')
self.args = args
self.method = method
def __repr__(self):
return f'{self.__class__.__name__}({self.method!r}, {self.args!r})'
def __eq__(self, other):
return (isinstance(other, self.__class__) and
self.method == other.method and self.args == other.args)
class Request(SingleRequest):
def send_result(self, response):
return None
class Notification(SingleRequest):
pass
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class Batch:
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__slots__ = ('items', )
def __init__(self, items):
if not isinstance(items, (list, tuple)):
raise ProtocolError.invalid_request('items must be a list')
if not items:
raise ProtocolError.empty_batch()
if not (all(isinstance(item, SingleRequest) for item in items) or
all(isinstance(item, Response) for item in items)):
raise ProtocolError.invalid_request('batch must be homogeneous')
self.items = items
def __len__(self):
return len(self.items)
def __getitem__(self, item):
return self.items[item]
def __iter__(self):
return iter(self.items)
def __repr__(self):
return f'Batch({len(self.items)} items)'
class Response:
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__slots__ = ('result', )
def __init__(self, result):
# Type checking happens when converting to a message
self.result = result
class CodeMessageError(Exception):
@property
def code(self):
return self.args[0]
@property
def message(self):
return self.args[1]
def __eq__(self, other):
return (isinstance(other, self.__class__) and
self.code == other.code and self.message == other.message)
def __hash__(self):
# overridden to make the exception hashable
# see https://bugs.python.org/issue28603
return hash((self.code, self.message))
@classmethod
def invalid_args(cls, message):
return cls(JSONRPC.INVALID_ARGS, message)
@classmethod
def invalid_request(cls, message):
return cls(JSONRPC.INVALID_REQUEST, message)
@classmethod
def empty_batch(cls):
return cls.invalid_request('batch is empty')
class RPCError(CodeMessageError):
pass
class ProtocolError(CodeMessageError):
def __init__(self, code, message):
super().__init__(code, message)
# If not None send this unframed message over the network
self.error_message = None
# If the error was in a JSON response message; its message ID.
# Since None can be a response message ID, "id" means the
# error was not sent in a JSON response
self.response_msg_id = id
class JSONRPC:
"""Abstract base class that interprets and constructs JSON RPC messages."""
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# Error codes. See http://www.jsonrpc.org/specification
PARSE_ERROR = -32700
INVALID_REQUEST = -32600
METHOD_NOT_FOUND = -32601
INVALID_ARGS = -32602
INTERNAL_ERROR = -32603
QUERY_TIMEOUT = -32000
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# Codes specific to this library
ERROR_CODE_UNAVAILABLE = -100
# Can be overridden by derived classes
allow_batches = True
@classmethod
def _message_id(cls, message, require_id):
"""Validate the message is a dictionary and return its ID.
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Raise an error if the message is invalid or the ID is of an
invalid type. If it has no ID, raise an error if require_id
is True, otherwise return None.
"""
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raise NotImplementedError
@classmethod
def _validate_message(cls, message):
"""Validate other parts of the message other than those
done in _message_id."""
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pass
@classmethod
def _request_args(cls, request):
"""Validate the existence and type of the arguments passed
in the request dictionary."""
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raise NotImplementedError
@classmethod
def _process_request(cls, payload):
request_id = None
try:
request_id = cls._message_id(payload, False)
cls._validate_message(payload)
method = payload.get('method')
if request_id is None:
item = Notification(method, cls._request_args(payload))
else:
item = Request(method, cls._request_args(payload))
return item, request_id
except ProtocolError as error:
code, message = error.code, error.message
raise cls._error(code, message, True, request_id)
@classmethod
def _process_response(cls, payload):
request_id = None
try:
request_id = cls._message_id(payload, True)
cls._validate_message(payload)
return Response(cls.response_value(payload)), request_id
except ProtocolError as error:
code, message = error.code, error.message
raise cls._error(code, message, False, request_id)
@classmethod
def _message_to_payload(cls, message):
"""Returns a Python object or a ProtocolError."""
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try:
return json.loads(message.decode())
except UnicodeDecodeError:
message = 'messages must be encoded in UTF-8'
except json.JSONDecodeError:
message = 'invalid JSON'
raise cls._error(cls.PARSE_ERROR, message, True, None)
@classmethod
def _error(cls, code, message, send, msg_id):
error = ProtocolError(code, message)
if send:
error.error_message = cls.response_message(error, msg_id)
else:
error.response_msg_id = msg_id
return error
#
# External API
#
@classmethod
def message_to_item(cls, message):
"""Translate an unframed received message and return an
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(item, request_id) pair.
The item can be a Request, Notification, Response or a list.
A JSON RPC error response is returned as an RPCError inside a
Response object.
If a Batch is returned, request_id is an iterable of request
ids, one per batch member.
If the message violates the protocol in some way a
ProtocolError is returned, except if the message was
determined to be a response, in which case the ProtocolError
is placed inside a Response object. This is so that client
code can mark a request as having been responded to even if
the response was bad.
raises: ProtocolError
"""
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payload = cls._message_to_payload(message)
if isinstance(payload, dict):
if 'method' in payload:
return cls._process_request(payload)
else:
return cls._process_response(payload)
elif isinstance(payload, list) and cls.allow_batches:
if not payload:
raise cls._error(JSONRPC.INVALID_REQUEST, 'batch is empty',
True, None)
return payload, None
raise cls._error(cls.INVALID_REQUEST,
'request object must be a dictionary', True, None)
# Message formation
@classmethod
def request_message(cls, item, request_id):
"""Convert an RPCRequest item to a message."""
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assert isinstance(item, Request)
return cls.encode_payload(cls.request_payload(item, request_id))
@classmethod
def notification_message(cls, item):
"""Convert an RPCRequest item to a message."""
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assert isinstance(item, Notification)
return cls.encode_payload(cls.request_payload(item, None))
@classmethod
def response_message(cls, result, request_id):
"""Convert a response result (or RPCError) to a message."""
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if isinstance(result, CodeMessageError):
payload = cls.error_payload(result, request_id)
else:
payload = cls.response_payload(result, request_id)
return cls.encode_payload(payload)
@classmethod
def batch_message(cls, batch, request_ids):
"""Convert a request Batch to a message."""
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assert isinstance(batch, Batch)
if not cls.allow_batches:
raise ProtocolError.invalid_request(
'protocol does not permit batches')
id_iter = iter(request_ids)
rm = cls.request_message
nm = cls.notification_message
parts = (rm(request, next(id_iter)) if isinstance(request, Request)
else nm(request) for request in batch)
return cls.batch_message_from_parts(parts)
@classmethod
def batch_message_from_parts(cls, messages):
"""Convert messages, one per batch item, into a batch message. At
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least one message must be passed.
"""
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# Comma-separate the messages and wrap the lot in square brackets
middle = b', '.join(messages)
if not middle:
raise ProtocolError.empty_batch()
return b''.join([b'[', middle, b']'])
@classmethod
def encode_payload(cls, payload):
"""Encode a Python object as JSON and convert it to bytes."""
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try:
return json.dumps(payload).encode()
except TypeError:
msg = f'JSON payload encoding error: {payload}'
raise ProtocolError(cls.INTERNAL_ERROR, msg) from None
class JSONRPCv1(JSONRPC):
"""JSON RPC version 1.0."""
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allow_batches = False
@classmethod
def _message_id(cls, message, require_id):
# JSONv1 requires an ID always, but without constraint on its type
# No need to test for a dictionary here as we don't handle batches.
if 'id' not in message:
raise ProtocolError.invalid_request('request has no "id"')
return message['id']
@classmethod
def _request_args(cls, request):
args = request.get('params')
if not isinstance(args, list):
raise ProtocolError.invalid_args(
f'invalid request arguments: {args}')
return args
@classmethod
def _best_effort_error(cls, error):
# Do our best to interpret the error
code = cls.ERROR_CODE_UNAVAILABLE
message = 'no error message provided'
if isinstance(error, str):
message = error
elif isinstance(error, int):
code = error
elif isinstance(error, dict):
if isinstance(error.get('message'), str):
message = error['message']
if isinstance(error.get('code'), int):
code = error['code']
return RPCError(code, message)
@classmethod
def response_value(cls, payload):
if 'result' not in payload or 'error' not in payload:
raise ProtocolError.invalid_request(
'response must contain both "result" and "error"')
result = payload['result']
error = payload['error']
if error is None:
return result # It seems None can be a valid result
if result is not None:
raise ProtocolError.invalid_request(
'response has a "result" and an "error"')
return cls._best_effort_error(error)
@classmethod
def request_payload(cls, request, request_id):
"""JSON v1 request (or notification) payload."""
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if isinstance(request.args, dict):
raise ProtocolError.invalid_args(
'JSONRPCv1 does not support named arguments')
return {
'method': request.method,
'params': request.args,
'id': request_id
}
@classmethod
def response_payload(cls, result, request_id):
"""JSON v1 response payload."""
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return {
'result': result,
'error': None,
'id': request_id
}
@classmethod
def error_payload(cls, error, request_id):
return {
'result': None,
'error': {'code': error.code, 'message': error.message},
'id': request_id
}
class JSONRPCv2(JSONRPC):
"""JSON RPC version 2.0."""
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@classmethod
def _message_id(cls, message, require_id):
if not isinstance(message, dict):
raise ProtocolError.invalid_request(
'request object must be a dictionary')
if 'id' in message:
request_id = message['id']
if not isinstance(request_id, (Number, str, type(None))):
raise ProtocolError.invalid_request(
f'invalid "id": {request_id}')
return request_id
else:
if require_id:
raise ProtocolError.invalid_request('request has no "id"')
return None
@classmethod
def _validate_message(cls, message):
if message.get('jsonrpc') != '2.0':
raise ProtocolError.invalid_request('"jsonrpc" is not "2.0"')
@classmethod
def _request_args(cls, request):
args = request.get('params', [])
if not isinstance(args, (dict, list)):
raise ProtocolError.invalid_args(
f'invalid request arguments: {args}')
return args
@classmethod
def response_value(cls, payload):
if 'result' in payload:
if 'error' in payload:
raise ProtocolError.invalid_request(
'response contains both "result" and "error"')
return payload['result']
if 'error' not in payload:
raise ProtocolError.invalid_request(
'response contains neither "result" nor "error"')
# Return an RPCError object
error = payload['error']
if isinstance(error, dict):
code = error.get('code')
message = error.get('message')
if isinstance(code, int) and isinstance(message, str):
return RPCError(code, message)
raise ProtocolError.invalid_request(
f'ill-formed response error object: {error}')
@classmethod
def request_payload(cls, request, request_id):
"""JSON v2 request (or notification) payload."""
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payload = {
'jsonrpc': '2.0',
'method': request.method,
}
# A notification?
if request_id is not None:
payload['id'] = request_id
# Preserve empty dicts as missing params is read as an array
if request.args or request.args == {}:
payload['params'] = request.args
return payload
@classmethod
def response_payload(cls, result, request_id):
"""JSON v2 response payload."""
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return {
'jsonrpc': '2.0',
'result': result,
'id': request_id
}
@classmethod
def error_payload(cls, error, request_id):
return {
'jsonrpc': '2.0',
'error': {'code': error.code, 'message': error.message},
'id': request_id
}
class JSONRPCLoose(JSONRPC):
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"""A relaxed version of JSON RPC."""
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# Don't be so loose we accept any old message ID
_message_id = JSONRPCv2._message_id
_validate_message = JSONRPC._validate_message
_request_args = JSONRPCv2._request_args
# Outoing messages are JSONRPCv2 so we give the other side the
# best chance to assume / detect JSONRPCv2 as default protocol.
error_payload = JSONRPCv2.error_payload
request_payload = JSONRPCv2.request_payload
response_payload = JSONRPCv2.response_payload
@classmethod
def response_value(cls, payload):
# Return result, unless it is None and there is an error
if payload.get('error') is not None:
if payload.get('result') is not None:
raise ProtocolError.invalid_request(
'response contains both "result" and "error"')
return JSONRPCv1._best_effort_error(payload['error'])
if 'result' not in payload:
raise ProtocolError.invalid_request(
'response contains neither "result" nor "error"')
# Can be None
return payload['result']
class JSONRPCAutoDetect(JSONRPCv2):
@classmethod
def message_to_item(cls, message):
return cls.detect_protocol(message), None
@classmethod
def detect_protocol(cls, message):
"""Attempt to detect the protocol from the message."""
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main = cls._message_to_payload(message)
def protocol_for_payload(payload):
if not isinstance(payload, dict):
return JSONRPCLoose # Will error
# Obey an explicit "jsonrpc"
version = payload.get('jsonrpc')
if version == '2.0':
return JSONRPCv2
if version == '1.0':
return JSONRPCv1
# Now to decide between JSONRPCLoose and JSONRPCv1 if possible
if 'result' in payload and 'error' in payload:
return JSONRPCv1
return JSONRPCLoose
if isinstance(main, list):
parts = {protocol_for_payload(payload) for payload in main}
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# If all same protocol, return it
if len(parts) == 1:
return parts.pop()
# If strict protocol detected, return it, preferring JSONRPCv2.
# This means a batch of JSONRPCv1 will fail
for protocol in (JSONRPCv2, JSONRPCv1):
if protocol in parts:
return protocol
# Will error if no parts
return JSONRPCLoose
return protocol_for_payload(main)
class JSONRPCConnection:
"""Maintains state of a JSON RPC connection, in particular
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encapsulating the handling of request IDs.
protocol - the JSON RPC protocol to follow
max_response_size - responses over this size send an error response
instead.
"""
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_id_counter = itertools.count()
def __init__(self, protocol):
self._protocol = protocol
# Sent Requests and Batches that have not received a response.
# The key is its request ID; for a batch it is sorted tuple
# of request IDs
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self._requests: typing.Dict[str, typing.Tuple[Request, Event]] = {}
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# A public attribute intended to be settable dynamically
self.max_response_size = 0
def _oversized_response_message(self, request_id):
text = f'response too large (over {self.max_response_size:,d} bytes'
error = RPCError.invalid_request(text)
return self._protocol.response_message(error, request_id)
def _receive_response(self, result, request_id):
if request_id not in self._requests:
if request_id is None and isinstance(result, RPCError):
message = f'diagnostic error received: {result}'
else:
message = f'response to unsent request (ID: {request_id})'
raise ProtocolError.invalid_request(message) from None
request, event = self._requests.pop(request_id)
event.result = result
event.set()
return []
def _receive_request_batch(self, payloads):
def item_send_result(request_id, result):
nonlocal size
part = protocol.response_message(result, request_id)
size += len(part) + 2
if size > self.max_response_size > 0:
part = self._oversized_response_message(request_id)
parts.append(part)
if len(parts) == count:
return protocol.batch_message_from_parts(parts)
return None
parts = []
items = []
size = 0
count = 0
protocol = self._protocol
for payload in payloads:
try:
item, request_id = protocol._process_request(payload)
items.append(item)
if isinstance(item, Request):
count += 1
item.send_result = partial(item_send_result, request_id)
except ProtocolError as error:
count += 1
parts.append(error.error_message)
if not items and parts:
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protocol_error = ProtocolError(0, "")
protocol_error.error_message = protocol.batch_message_from_parts(parts)
raise protocol_error
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return items
def _receive_response_batch(self, payloads):
request_ids = []
results = []
for payload in payloads:
# Let ProtocolError exceptions through
item, request_id = self._protocol._process_response(payload)
request_ids.append(request_id)
results.append(item.result)
ordered = sorted(zip(request_ids, results), key=lambda t: t[0])
ordered_ids, ordered_results = zip(*ordered)
if ordered_ids not in self._requests:
raise ProtocolError.invalid_request('response to unsent batch')
request_batch, event = self._requests.pop(ordered_ids)
event.result = ordered_results
event.set()
return []
def _send_result(self, request_id, result):
message = self._protocol.response_message(result, request_id)
if len(message) > self.max_response_size > 0:
message = self._oversized_response_message(request_id)
return message
def _event(self, request, request_id):
event = Event()
self._requests[request_id] = (request, event)
return event
#
# External API
#
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def send_request(self, request: Request) -> typing.Tuple[bytes, Event]:
"""Send a Request. Return a (message, event) pair.
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The message is an unframed message to send over the network.
Wait on the event for the response; which will be in the
"result" attribute.
Raises: ProtocolError if the request violates the protocol
in some way..
"""
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request_id = next(self._id_counter)
message = self._protocol.request_message(request, request_id)
return message, self._event(request, request_id)
def send_notification(self, notification):
return self._protocol.notification_message(notification)
def send_batch(self, batch):
ids = tuple(next(self._id_counter)
for request in batch if isinstance(request, Request))
message = self._protocol.batch_message(batch, ids)
event = self._event(batch, ids) if ids else None
return message, event
def receive_message(self, message):
"""Call with an unframed message received from the network.
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Raises: ProtocolError if the message violates the protocol in
some way. However, if it happened in a response that can be
paired with a request, the ProtocolError is instead set in the
result attribute of the send_request() that caused the error.
"""
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try:
item, request_id = self._protocol.message_to_item(message)
except ProtocolError as e:
if e.response_msg_id is not id:
return self._receive_response(e, e.response_msg_id)
raise
if isinstance(item, Request):
item.send_result = partial(self._send_result, request_id)
return [item]
if isinstance(item, Notification):
return [item]
if isinstance(item, Response):
return self._receive_response(item.result, request_id)
if isinstance(item, list):
if all(isinstance(payload, dict)
and ('result' in payload or 'error' in payload)
for payload in item):
return self._receive_response_batch(item)
else:
return self._receive_request_batch(item)
else:
# Protocol auto-detection hack
assert issubclass(item, JSONRPC)
self._protocol = item
return self.receive_message(message)
def raise_pending_requests(self, exception):
exception = exception or asyncio.TimeoutError()
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for request, event in self._requests.values():
event.result = exception
event.set()
self._requests.clear()
def pending_requests(self):
"""All sent requests that have not received a response."""
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return [request for request, event in self._requests.values()]
def handler_invocation(handler, request):
method, args = request.method, request.args
if handler is None:
raise RPCError(JSONRPC.METHOD_NOT_FOUND,
f'unknown method "{method}"')
# We must test for too few and too many arguments. How
# depends on whether the arguments were passed as a list or as
# a dictionary.
info = signature_info(handler)
if isinstance(args, (tuple, list)):
if len(args) < info.min_args:
s = '' if len(args) == 1 else 's'
raise RPCError.invalid_args(
f'{len(args)} argument{s} passed to method '
f'"{method}" but it requires {info.min_args}')
if info.max_args is not None and len(args) > info.max_args:
s = '' if len(args) == 1 else 's'
raise RPCError.invalid_args(
f'{len(args)} argument{s} passed to method '
f'{method} taking at most {info.max_args}')
return partial(handler, *args)
# Arguments passed by name
if info.other_names is None:
raise RPCError.invalid_args(f'method "{method}" cannot '
f'be called with named arguments')
missing = set(info.required_names).difference(args)
if missing:
s = '' if len(missing) == 1 else 's'
missing = ', '.join(sorted(f'"{name}"' for name in missing))
raise RPCError.invalid_args(f'method "{method}" requires '
f'parameter{s} {missing}')
if info.other_names is not any:
excess = set(args).difference(info.required_names)
excess = excess.difference(info.other_names)
if excess:
s = '' if len(excess) == 1 else 's'
excess = ', '.join(sorted(f'"{name}"' for name in excess))
raise RPCError.invalid_args(f'method "{method}" does not '
f'take parameter{s} {excess}')
return partial(handler, **args)