Mercurial > hg
view tests/testlib/badserverext.py @ 48806:f97778b53b66 stable
Added tag 6.1 for changeset d4486810a179
| author | Raphaël Gomès <rgomes@octobus.net> |
|---|---|
| date | Tue, 01 Mar 2022 16:39:06 +0100 |
| parents | 5154f2025d8a |
| children | 6000f5b25c9b |
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# badserverext.py - Extension making servers behave badly # # Copyright 2017 Gregory Szorc <gregory.szorc@gmail.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. # no-check-code """Extension to make servers behave badly. This extension is useful for testing Mercurial behavior when various network events occur. Various config options in the [badserver] section influence behavior: close-before-accept If true, close() the server socket when a new connection arrives before accept() is called. The server will then exit. close-after-accept If true, the server will close() the client socket immediately after accept(). close-after-recv-bytes If defined, close the client socket after receiving this many bytes. (The value is a list, multiple values can use used to close a series of requests request) close-after-recv-patterns If defined, the `close-after-recv-bytes` values only start counting after the `read` operation that encountered the defined patterns. (The value is a list, multiple values can use used to close a series of requests request) close-after-send-bytes If defined, close the client socket after sending this many bytes. (The value is a list, multiple values can use used to close a series of requests request) close-after-send-patterns If defined, close the client socket after the configured regexp is seen. (The value is a list, multiple values can use used to close a series of requests request) """ from __future__ import absolute_import import re import socket from mercurial import ( pycompat, registrar, ) from mercurial.hgweb import server configtable = {} configitem = registrar.configitem(configtable) configitem( b'badserver', b'close-after-accept', default=False, ) configitem( b'badserver', b'close-after-recv-bytes', default=b'0', ) configitem( b'badserver', b'close-after-recv-patterns', default=b'', ) configitem( b'badserver', b'close-after-send-bytes', default=b'0', ) configitem( b'badserver', b'close-after-send-patterns', default=b'', ) configitem( b'badserver', b'close-before-accept', default=False, ) class ConditionTracker(object): def __init__( self, close_after_recv_bytes, close_after_recv_patterns, close_after_send_bytes, close_after_send_patterns, ): self._all_close_after_recv_bytes = close_after_recv_bytes self._all_close_after_recv_patterns = close_after_recv_patterns self._all_close_after_send_bytes = close_after_send_bytes self._all_close_after_send_patterns = close_after_send_patterns self.target_recv_bytes = None self.remaining_recv_bytes = None self.recv_patterns = None self.recv_data = b'' self.target_send_bytes = None self.remaining_send_bytes = None self.send_pattern = None self.send_data = b'' def start_next_request(self): """move to the next set of close condition""" if self._all_close_after_recv_bytes: self.target_recv_bytes = self._all_close_after_recv_bytes.pop(0) self.remaining_recv_bytes = self.target_recv_bytes else: self.target_recv_bytes = None self.remaining_recv_bytes = None self.recv_data = b'' if self._all_close_after_recv_patterns: self.recv_pattern = self._all_close_after_recv_patterns.pop(0) else: self.recv_pattern = None if self._all_close_after_send_bytes: self.target_send_bytes = self._all_close_after_send_bytes.pop(0) self.remaining_send_bytes = self.target_send_bytes else: self.target_send_bytes = None self.remaining_send_bytes = None self.send_data = b'' if self._all_close_after_send_patterns: self.send_pattern = self._all_close_after_send_patterns.pop(0) else: self.send_pattern = None def might_close(self): """True, if any processing will be needed""" if self.remaining_recv_bytes is not None: return True if self.recv_pattern is not None: return True if self.remaining_send_bytes is not None: return True if self.send_pattern is not None: return True return False def forward_write(self, obj, method, data, *args, **kwargs): """call an underlying write function until condition are met When the condition are met the socket is closed """ remaining = self.remaining_send_bytes pattern = self.send_pattern orig = object.__getattribute__(obj, '_orig') bmethod = method.encode('ascii') func = getattr(orig, method) if pattern: self.send_data += data pieces = pattern.split(self.send_data, maxsplit=1) if len(pieces) > 1: dropped = len(pieces[-1]) remaining = len(data) - dropped if remaining: remaining = max(0, remaining) if not remaining: newdata = data else: if remaining < len(data): newdata = data[0:remaining] else: newdata = data remaining -= len(newdata) self.remaining_send_bytes = remaining result = func(newdata, *args, **kwargs) if remaining is None: obj._writelog(b'%s(%d) -> %s' % (bmethod, len(data), data)) else: msg = b'%s(%d from %d) -> (%d) %s' msg %= (bmethod, len(newdata), len(data), remaining, newdata) obj._writelog(msg) if remaining is not None and remaining <= 0: obj._writelog(b'write limit reached; closing socket') object.__getattribute__(obj, '_cond_close')() raise Exception('connection closed after sending N bytes') return result def forward_read(self, obj, method, size=-1): """call an underlying read function until condition are met When the condition are met the socket is closed """ remaining = self.remaining_recv_bytes pattern = self.recv_pattern orig = object.__getattribute__(obj, '_orig') bmethod = method.encode('ascii') func = getattr(orig, method) requested_size = size actual_size = size if pattern is None and remaining: if size < 0: actual_size = remaining else: actual_size = min(remaining, requested_size) result = func(actual_size) if pattern is None and remaining: remaining -= len(result) self.remaining_recv_bytes = remaining if requested_size == 65537: requested_repr = b'~' else: requested_repr = b'%d' % requested_size if requested_size == actual_size: msg = b'%s(%s) -> (%d) %s' msg %= (bmethod, requested_repr, len(result), result) else: msg = b'%s(%d from %s) -> (%d) %s' msg %= (bmethod, actual_size, requested_repr, len(result), result) obj._writelog(msg) if pattern is not None: self.recv_data += result if pattern.search(self.recv_data): # start counting bytes starting with the next read self.recv_pattern = None if remaining is not None and remaining <= 0: obj._writelog(b'read limit reached; closing socket') obj._cond_close() # This is the easiest way to abort the current request. raise Exception('connection closed after receiving N bytes') return result # We can't adjust __class__ on a socket instance. So we define a proxy type. class socketproxy(object): __slots__ = ('_orig', '_logfp', '_cond') def __init__(self, obj, logfp, condition_tracked): object.__setattr__(self, '_orig', obj) object.__setattr__(self, '_logfp', logfp) object.__setattr__(self, '_cond', condition_tracked) def __getattribute__(self, name): if name in ('makefile', 'sendall', '_writelog', '_cond_close'): return object.__getattribute__(self, name) return getattr(object.__getattribute__(self, '_orig'), name) def __delattr__(self, name): delattr(object.__getattribute__(self, '_orig'), name) def __setattr__(self, name, value): setattr(object.__getattribute__(self, '_orig'), name, value) def _writelog(self, msg): msg = msg.replace(b'\r', b'\\r').replace(b'\n', b'\\n') object.__getattribute__(self, '_logfp').write(msg) object.__getattribute__(self, '_logfp').write(b'\n') object.__getattribute__(self, '_logfp').flush() def makefile(self, mode, bufsize): f = object.__getattribute__(self, '_orig').makefile(mode, bufsize) logfp = object.__getattribute__(self, '_logfp') cond = object.__getattribute__(self, '_cond') return fileobjectproxy(f, logfp, cond) def sendall(self, data, flags=0): cond = object.__getattribute__(self, '_cond') return cond.forward_write(self, 'sendall', data, flags) def _cond_close(self): object.__getattribute__(self, '_orig').shutdown(socket.SHUT_RDWR) # We can't adjust __class__ on socket._fileobject, so define a proxy. class fileobjectproxy(object): __slots__ = ('_orig', '_logfp', '_cond') def __init__(self, obj, logfp, condition_tracked): object.__setattr__(self, '_orig', obj) object.__setattr__(self, '_logfp', logfp) object.__setattr__(self, '_cond', condition_tracked) def __getattribute__(self, name): if name in ( '_close', 'read', 'readline', 'write', '_writelog', '_cond_close', ): return object.__getattribute__(self, name) return getattr(object.__getattribute__(self, '_orig'), name) def __delattr__(self, name): delattr(object.__getattribute__(self, '_orig'), name) def __setattr__(self, name, value): setattr(object.__getattribute__(self, '_orig'), name, value) def _writelog(self, msg): msg = msg.replace(b'\r', b'\\r').replace(b'\n', b'\\n') object.__getattribute__(self, '_logfp').write(msg) object.__getattribute__(self, '_logfp').write(b'\n') object.__getattribute__(self, '_logfp').flush() def _close(self): # Python 3 uses an io.BufferedIO instance. Python 2 uses some file # object wrapper. if pycompat.ispy3: orig = object.__getattribute__(self, '_orig') if hasattr(orig, 'raw'): orig.raw._sock.shutdown(socket.SHUT_RDWR) else: self.close() else: self._sock.shutdown(socket.SHUT_RDWR) def read(self, size=-1): cond = object.__getattribute__(self, '_cond') return cond.forward_read(self, 'read', size) def readline(self, size=-1): cond = object.__getattribute__(self, '_cond') return cond.forward_read(self, 'readline', size) def write(self, data): cond = object.__getattribute__(self, '_cond') return cond.forward_write(self, 'write', data) def _cond_close(self): self._close() def process_bytes_config(value): parts = value.split(b',') integers = [int(v) for v in parts if v] return [v if v else None for v in integers] def process_pattern_config(value): patterns = [] for p in value.split(b','): if not p: p = None else: p = re.compile(p, re.DOTALL | re.MULTILINE) patterns.append(p) return patterns def extsetup(ui): # Change the base HTTP server class so various events can be performed. # See SocketServer.BaseServer for how the specially named methods work. class badserver(server.MercurialHTTPServer): def __init__(self, ui, *args, **kwargs): self._ui = ui super(badserver, self).__init__(ui, *args, **kwargs) all_recv_bytes = self._ui.config( b'badserver', b'close-after-recv-bytes' ) all_recv_bytes = process_bytes_config(all_recv_bytes) all_recv_pattern = self._ui.config( b'badserver', b'close-after-recv-patterns' ) all_recv_pattern = process_pattern_config(all_recv_pattern) all_send_bytes = self._ui.config( b'badserver', b'close-after-send-bytes' ) all_send_bytes = process_bytes_config(all_send_bytes) all_send_patterns = self._ui.config( b'badserver', b'close-after-send-patterns' ) all_send_patterns = process_pattern_config(all_send_patterns) self._cond = ConditionTracker( all_recv_bytes, all_recv_pattern, all_send_bytes, all_send_patterns, ) # Need to inherit object so super() works. class badrequesthandler(self.RequestHandlerClass, object): def send_header(self, name, value): # Make headers deterministic to facilitate testing. if name.lower() == 'date': value = 'Fri, 14 Apr 2017 00:00:00 GMT' elif name.lower() == 'server': value = 'badhttpserver' return super(badrequesthandler, self).send_header( name, value ) self.RequestHandlerClass = badrequesthandler # Called to accept() a pending socket. def get_request(self): if self._ui.configbool(b'badserver', b'close-before-accept'): self.socket.close() # Tells the server to stop processing more requests. self.__shutdown_request = True # Simulate failure to stop processing this request. raise socket.error('close before accept') if self._ui.configbool(b'badserver', b'close-after-accept'): request, client_address = super(badserver, self).get_request() request.close() raise socket.error('close after accept') return super(badserver, self).get_request() # Does heavy lifting of processing a request. Invokes # self.finish_request() which calls self.RequestHandlerClass() which # is a hgweb.server._httprequesthandler. def process_request(self, socket, address): # Wrap socket in a proxy if we need to count bytes. self._cond.start_next_request() if self._cond.might_close(): socket = socketproxy( socket, self.errorlog, condition_tracked=self._cond ) return super(badserver, self).process_request(socket, address) server.MercurialHTTPServer = badserver