# -*- coding: utf-8 -*- # Copyright (C) 2016-2020 RhodeCode GmbH # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License, version 3 # (only), as published by the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see . # # This program is dual-licensed. If you wish to learn more about the # RhodeCode Enterprise Edition, including its added features, Support services, # and proprietary license terms, please see https://rhodecode.com/licenses/ """ Client for the VCSServer implemented based on HTTP. """ import copy import logging import threading import time import urllib.request, urllib.error, urllib.parse import urllib.parse import uuid import traceback import pycurl import msgpack import requests from requests.packages.urllib3.util.retry import Retry import rhodecode from rhodecode.lib import rc_cache from rhodecode.lib.rc_cache.utils import compute_key_from_params from rhodecode.lib.system_info import get_cert_path from rhodecode.lib.vcs import exceptions, CurlSession from rhodecode.lib.utils2 import str2bool log = logging.getLogger(__name__) # TODO: mikhail: Keep it in sync with vcsserver's # HTTPApplication.ALLOWED_EXCEPTIONS EXCEPTIONS_MAP = { 'KeyError': KeyError, 'URLError': urllib.error.URLError, } def _remote_call(url, payload, exceptions_map, session): try: headers = { 'X-RC-Method': payload.get('method'), 'X-RC-Repo-Name': payload.get('_repo_name') } response = session.post(url, data=msgpack.packb(payload), headers=headers) except pycurl.error as e: msg = '{}. \npycurl traceback: {}'.format(e, traceback.format_exc()) raise exceptions.HttpVCSCommunicationError(msg) except Exception as e: message = getattr(e, 'message', '') if 'Failed to connect' in message: # gevent doesn't return proper pycurl errors raise exceptions.HttpVCSCommunicationError(e) else: raise if response.status_code >= 400: log.error('Call to %s returned non 200 HTTP code: %s', url, response.status_code) raise exceptions.HttpVCSCommunicationError(repr(response.content)) try: response = msgpack.unpackb(response.content) except Exception: log.exception('Failed to decode response %r', response.content) raise error = response.get('error') if error: type_ = error.get('type', 'Exception') exc = exceptions_map.get(type_, Exception) exc = exc(error.get('message')) try: exc._vcs_kind = error['_vcs_kind'] except KeyError: pass try: exc._vcs_server_traceback = error['traceback'] exc._vcs_server_org_exc_name = error['org_exc'] exc._vcs_server_org_exc_tb = error['org_exc_tb'] except KeyError: pass raise exc return response.get('result') def _streaming_remote_call(url, payload, exceptions_map, session, chunk_size): try: headers = { 'X-RC-Method': payload.get('method'), 'X-RC-Repo-Name': payload.get('_repo_name') } response = session.post(url, data=msgpack.packb(payload), headers=headers) except pycurl.error as e: msg = '{}. \npycurl traceback: {}'.format(e, traceback.format_exc()) raise exceptions.HttpVCSCommunicationError(msg) except Exception as e: message = getattr(e, 'message', '') if 'Failed to connect' in message: # gevent doesn't return proper pycurl errors raise exceptions.HttpVCSCommunicationError(e) else: raise if response.status_code >= 400: log.error('Call to %s returned non 200 HTTP code: %s', url, response.status_code) raise exceptions.HttpVCSCommunicationError(repr(response.content)) return response.iter_content(chunk_size=chunk_size) class ServiceConnection(object): def __init__(self, server_and_port, backend_endpoint, session_factory): self.url = urllib.parse.urlparse.urljoin('http://%s' % server_and_port, backend_endpoint) self._session_factory = session_factory def __getattr__(self, name): def f(*args, **kwargs): return self._call(name, *args, **kwargs) return f @exceptions.map_vcs_exceptions def _call(self, name, *args, **kwargs): payload = { 'id': str(uuid.uuid4()), 'method': name, 'params': {'args': args, 'kwargs': kwargs} } return _remote_call( self.url, payload, EXCEPTIONS_MAP, self._session_factory()) class RemoteVCSMaker(object): def __init__(self, server_and_port, backend_endpoint, backend_type, session_factory): self.url = urllib.parse.urlparse.urljoin('http://%s' % server_and_port, backend_endpoint) self.stream_url = urllib.parse.urlparse.urljoin('http://%s' % server_and_port, backend_endpoint+'/stream') self._session_factory = session_factory self.backend_type = backend_type @classmethod def init_cache_region(cls, repo_id): cache_namespace_uid = 'cache_repo.{}'.format(repo_id) region = rc_cache.get_or_create_region('cache_repo', cache_namespace_uid) return region, cache_namespace_uid def __call__(self, path, repo_id, config, with_wire=None): log.debug('%s RepoMaker call on %s', self.backend_type.upper(), path) return RemoteRepo(path, repo_id, config, self, with_wire=with_wire) def __getattr__(self, name): def remote_attr(*args, **kwargs): return self._call(name, *args, **kwargs) return remote_attr @exceptions.map_vcs_exceptions def _call(self, func_name, *args, **kwargs): payload = { 'id': str(uuid.uuid4()), 'method': func_name, 'backend': self.backend_type, 'params': {'args': args, 'kwargs': kwargs} } url = self.url return _remote_call(url, payload, EXCEPTIONS_MAP, self._session_factory()) class RemoteRepo(object): CHUNK_SIZE = 16384 def __init__(self, path, repo_id, config, remote_maker, with_wire=None): self.url = remote_maker.url self.stream_url = remote_maker.stream_url self._session = remote_maker._session_factory() cache_repo_id = self._repo_id_sanitizer(repo_id) _repo_name = self._get_repo_name(config, path) self._cache_region, self._cache_namespace = \ remote_maker.init_cache_region(cache_repo_id) with_wire = with_wire or {} repo_state_uid = with_wire.get('repo_state_uid') or 'state' self._wire = { "_repo_name": _repo_name, "path": path, # repo path "repo_id": repo_id, "cache_repo_id": cache_repo_id, "config": config, "repo_state_uid": repo_state_uid, "context": self._create_vcs_cache_context(path, repo_state_uid) } if with_wire: self._wire.update(with_wire) # NOTE(johbo): Trading complexity for performance. Avoiding the call to # log.debug brings a few percent gain even if is is not active. if log.isEnabledFor(logging.DEBUG): self._call_with_logging = True self.cert_dir = get_cert_path(rhodecode.CONFIG.get('__file__')) def _get_repo_name(self, config, path): repo_store = config.get('paths', '/') return path.split(repo_store)[-1].lstrip('/') def _repo_id_sanitizer(self, repo_id): pathless = repo_id.replace('/', '__').replace('-', '_') return ''.join(char if ord(char) < 128 else '_{}_'.format(ord(char)) for char in pathless) def __getattr__(self, name): if name.startswith('stream:'): def repo_remote_attr(*args, **kwargs): return self._call_stream(name, *args, **kwargs) else: def repo_remote_attr(*args, **kwargs): return self._call(name, *args, **kwargs) return repo_remote_attr def _base_call(self, name, *args, **kwargs): # TODO: oliver: This is currently necessary pre-call since the # config object is being changed for hooking scenarios wire = copy.deepcopy(self._wire) wire["config"] = wire["config"].serialize() wire["config"].append(('vcs', 'ssl_dir', self.cert_dir)) payload = { 'id': str(uuid.uuid4()), 'method': name, "_repo_name": wire['_repo_name'], 'params': {'wire': wire, 'args': args, 'kwargs': kwargs} } context_uid = wire.get('context') return context_uid, payload def get_local_cache(self, name, args): cache_on = False cache_key = '' local_cache_on = str2bool(rhodecode.CONFIG.get('vcs.methods.cache')) cache_methods = [ 'branches', 'tags', 'bookmarks', 'is_large_file', 'is_binary', 'fctx_size', 'stream:fctx_node_data', 'blob_raw_length', 'node_history', 'revision', 'tree_items', 'ctx_list', 'ctx_branch', 'ctx_description', 'bulk_request', 'assert_correct_path' ] if local_cache_on and name in cache_methods: cache_on = True repo_state_uid = self._wire['repo_state_uid'] call_args = [a for a in args] cache_key = compute_key_from_params(repo_state_uid, name, *call_args) return cache_on, cache_key @exceptions.map_vcs_exceptions def _call(self, name, *args, **kwargs): context_uid, payload = self._base_call(name, *args, **kwargs) url = self.url start = time.time() cache_on, cache_key = self.get_local_cache(name, args) @self._cache_region.conditional_cache_on_arguments( namespace=self._cache_namespace, condition=cache_on and cache_key) def remote_call(_cache_key): if self._call_with_logging: log.debug('Calling %s@%s with args:%.10240r. wire_context: %s cache_on: %s', url, name, args, context_uid, cache_on) return _remote_call(url, payload, EXCEPTIONS_MAP, self._session) result = remote_call(cache_key) if self._call_with_logging: log.debug('Call %s@%s took: %.4fs. wire_context: %s', url, name, time.time()-start, context_uid) return result @exceptions.map_vcs_exceptions def _call_stream(self, name, *args, **kwargs): context_uid, payload = self._base_call(name, *args, **kwargs) payload['chunk_size'] = self.CHUNK_SIZE url = self.stream_url start = time.time() cache_on, cache_key = self.get_local_cache(name, args) # Cache is a problem because this is a stream def streaming_remote_call(_cache_key): if self._call_with_logging: log.debug('Calling %s@%s with args:%.10240r. wire_context: %s cache_on: %s', url, name, args, context_uid, cache_on) return _streaming_remote_call(url, payload, EXCEPTIONS_MAP, self._session, self.CHUNK_SIZE) result = streaming_remote_call(cache_key) if self._call_with_logging: log.debug('Call %s@%s took: %.4fs. wire_context: %s', url, name, time.time()-start, context_uid) return result def __getitem__(self, key): return self.revision(key) def _create_vcs_cache_context(self, *args): """ Creates a unique string which is passed to the VCSServer on every remote call. It is used as cache key in the VCSServer. """ hash_key = '-'.join(map(str, args)) return str(uuid.uuid5(uuid.NAMESPACE_URL, hash_key)) def invalidate_vcs_cache(self): """ This invalidates the context which is sent to the VCSServer on every call to a remote method. It forces the VCSServer to create a fresh repository instance on the next call to a remote method. """ self._wire['context'] = str(uuid.uuid4()) class VcsHttpProxy(object): CHUNK_SIZE = 16384 def __init__(self, server_and_port, backend_endpoint): retries = Retry(total=5, connect=None, read=None, redirect=None) adapter = requests.adapters.HTTPAdapter(max_retries=retries) self.base_url = urllib.parse.urlparse.urljoin('http://%s' % server_and_port, backend_endpoint) self.session = requests.Session() self.session.mount('http://', adapter) def handle(self, environment, input_data, *args, **kwargs): data = { 'environment': environment, 'input_data': input_data, 'args': args, 'kwargs': kwargs } result = self.session.post( self.base_url, msgpack.packb(data), stream=True) return self._get_result(result) def _deserialize_and_raise(self, error): exception = Exception(error['message']) try: exception._vcs_kind = error['_vcs_kind'] except KeyError: pass raise exception def _iterate(self, result): unpacker = msgpack.Unpacker() for line in result.iter_content(chunk_size=self.CHUNK_SIZE): unpacker.feed(line) for chunk in unpacker: yield chunk def _get_result(self, result): iterator = self._iterate(result) error = iterator.next() if error: self._deserialize_and_raise(error) status = iterator.next() headers = iterator.next() return iterator, status, headers class ThreadlocalSessionFactory(object): """ Creates one CurlSession per thread on demand. """ def __init__(self): self._thread_local = threading.local() def __call__(self): if not hasattr(self._thread_local, 'curl_session'): self._thread_local.curl_session = CurlSession() return self._thread_local.curl_session