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# wireprotov2peer.py - client side code for wire protocol version 2
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#
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# Copyright 2018 Gregory Szorc <gregory.szorc@gmail.com>
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#
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# This software may be used and distributed according to the terms of the
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# GNU General Public License version 2 or any later version.
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from __future__ import absolute_import
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from .i18n import _
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from .thirdparty import (
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cbor,
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)
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from . import (
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encoding,
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error,
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util,
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wireprotoframing,
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)
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def formatrichmessage(atoms):
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"""Format an encoded message from the framing protocol."""
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chunks = []
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for atom in atoms:
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msg = _(atom[b'msg'])
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if b'args' in atom:
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msg = msg % atom[b'args']
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chunks.append(msg)
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return b''.join(chunks)
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class commandresponse(object):
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"""Represents the response to a command request."""
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def __init__(self, requestid, command):
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self.requestid = requestid
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self.command = command
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self.b = util.bytesio()
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def cborobjects(self):
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"""Obtain decoded CBOR objects from this response."""
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size = self.b.tell()
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self.b.seek(0)
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decoder = cbor.CBORDecoder(self.b)
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while self.b.tell() < size:
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yield decoder.decode()
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class clienthandler(object):
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"""Object to handle higher-level client activities.
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The ``clientreactor`` is used to hold low-level state about the frame-based
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protocol, such as which requests and streams are active. This type is used
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for higher-level operations, such as reading frames from a socket, exposing
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and managing a higher-level primitive for representing command responses,
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etc. This class is what peers should probably use to bridge wire activity
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with the higher-level peer API.
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"""
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def __init__(self, ui, clientreactor):
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self._ui = ui
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self._reactor = clientreactor
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self._requests = {}
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self._futures = {}
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self._responses = {}
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def callcommand(self, command, args, f):
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"""Register a request to call a command.
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Returns an iterable of frames that should be sent over the wire.
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"""
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request, action, meta = self._reactor.callcommand(command, args)
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if action != 'noop':
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raise error.ProgrammingError('%s not yet supported' % action)
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rid = request.requestid
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self._requests[rid] = request
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self._futures[rid] = f
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self._responses[rid] = commandresponse(rid, command)
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return iter(())
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def flushcommands(self):
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"""Flush all queued commands.
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Returns an iterable of frames that should be sent over the wire.
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"""
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action, meta = self._reactor.flushcommands()
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if action != 'sendframes':
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raise error.ProgrammingError('%s not yet supported' % action)
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return meta['framegen']
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def readframe(self, fh):
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"""Attempt to read and process a frame.
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Returns None if no frame was read. Presumably this means EOF.
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"""
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frame = wireprotoframing.readframe(fh)
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if frame is None:
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# TODO tell reactor?
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return
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self._ui.note(_('received %r\n') % frame)
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self._processframe(frame)
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return True
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def _processframe(self, frame):
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"""Process a single read frame."""
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action, meta = self._reactor.onframerecv(frame)
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if action == 'error':
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e = error.RepoError(meta['message'])
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if frame.requestid in self._futures:
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self._futures[frame.requestid].set_exception(e)
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else:
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raise e
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if frame.requestid not in self._requests:
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raise error.ProgrammingError(
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'received frame for unknown request; this is either a bug in '
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'the clientreactor not screening for this or this instance was '
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'never told about this request: %r' % frame)
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response = self._responses[frame.requestid]
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if action == 'responsedata':
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response.b.write(meta['data'])
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if meta['eos']:
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# If the command has a decoder, resolve the future to the
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# decoded value. Otherwise resolve to the rich response object.
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decoder = COMMAND_DECODERS.get(response.command)
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# TODO consider always resolving the overall status map.
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if decoder:
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objs = response.cborobjects()
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overall = next(objs)
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if overall['status'] == 'ok':
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self._futures[frame.requestid].set_result(decoder(objs))
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else:
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e = error.RepoError(
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formatrichmessage(overall['error']['message']))
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self._futures[frame.requestid].set_exception(e)
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else:
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self._futures[frame.requestid].set_result(response)
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del self._requests[frame.requestid]
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del self._futures[frame.requestid]
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else:
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raise error.ProgrammingError(
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'unhandled action from clientreactor: %s' % action)
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def decodebranchmap(objs):
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# Response should be a single CBOR map of branch name to array of nodes.
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bm = next(objs)
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return {encoding.tolocal(k): v for k, v in bm.items()}
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def decodeheads(objs):
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# Array of node bytestrings.
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return next(objs)
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def decodeknown(objs):
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# Bytestring where each byte is a 0 or 1.
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raw = next(objs)
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return [True if c == '1' else False for c in raw]
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def decodelistkeys(objs):
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# Map with bytestring keys and values.
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return next(objs)
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def decodelookup(objs):
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return next(objs)
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def decodepushkey(objs):
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return next(objs)
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COMMAND_DECODERS = {
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'branchmap': decodebranchmap,
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'heads': decodeheads,
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'known': decodeknown,
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'listkeys': decodelistkeys,
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'lookup': decodelookup,
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'pushkey': decodepushkey,
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}
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