# Copyright (C) 2006-2011 Canonical Ltd # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # 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 General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA """The 'medium' layer for the smart servers and clients. "Medium" here is the noun meaning "a means of transmission", not the adjective for "the quality between big and small." Media carry the bytes of the requests somehow (e.g. via TCP, wrapped in HTTP, or over SSH), and pass them to and from the protocol logic. See the overview in bzrlib/transport/smart/__init__.py. """ from __future__ import absolute_import import errno import os import sys import time import bzrlib from bzrlib.lazy_import import lazy_import lazy_import(globals(), """ import select import socket import thread import weakref from bzrlib import ( debug, errors, trace, transport, ui, urlutils, ) from bzrlib.i18n import gettext from bzrlib.smart import client, protocol, request, signals, vfs from bzrlib.transport import ssh """) from bzrlib import osutils # Throughout this module buffer size parameters are either limited to be at # most _MAX_READ_SIZE, or are ignored and _MAX_READ_SIZE is used instead. # For this module's purposes, MAX_SOCKET_CHUNK is a reasonable size for reads # from non-sockets as well. _MAX_READ_SIZE = osutils.MAX_SOCKET_CHUNK def _get_protocol_factory_for_bytes(bytes): """Determine the right protocol factory for 'bytes'. This will return an appropriate protocol factory depending on the version of the protocol being used, as determined by inspecting the given bytes. The bytes should have at least one newline byte (i.e. be a whole line), otherwise it's possible that a request will be incorrectly identified as version 1. Typical use would be:: factory, unused_bytes = _get_protocol_factory_for_bytes(bytes) server_protocol = factory(transport, write_func, root_client_path) server_protocol.accept_bytes(unused_bytes) :param bytes: a str of bytes of the start of the request. :returns: 2-tuple of (protocol_factory, unused_bytes). protocol_factory is a callable that takes three args: transport, write_func, root_client_path. unused_bytes are any bytes that were not part of a protocol version marker. """ if bytes.startswith(protocol.MESSAGE_VERSION_THREE): protocol_factory = protocol.build_server_protocol_three bytes = bytes[len(protocol.MESSAGE_VERSION_THREE):] elif bytes.startswith(protocol.REQUEST_VERSION_TWO): protocol_factory = protocol.SmartServerRequestProtocolTwo bytes = bytes[len(protocol.REQUEST_VERSION_TWO):] else: protocol_factory = protocol.SmartServerRequestProtocolOne return protocol_factory, bytes def _get_line(read_bytes_func): """Read bytes using read_bytes_func until a newline byte. This isn't particularly efficient, so should only be used when the expected size of the line is quite short. :returns: a tuple of two strs: (line, excess) """ newline_pos = -1 bytes = '' while newline_pos == -1: new_bytes = read_bytes_func(1) bytes += new_bytes if new_bytes == '': # Ran out of bytes before receiving a complete line. return bytes, '' newline_pos = bytes.find('\n') line = bytes[:newline_pos+1] excess = bytes[newline_pos+1:] return line, excess class SmartMedium(object): """Base class for smart protocol media, both client- and server-side.""" def __init__(self): self._push_back_buffer = None def _push_back(self, bytes): """Return unused bytes to the medium, because they belong to the next request(s). This sets the _push_back_buffer to the given bytes. """ if self._push_back_buffer is not None: raise AssertionError( "_push_back called when self._push_back_buffer is %r" % (self._push_back_buffer,)) if bytes == '': return self._push_back_buffer = bytes def _get_push_back_buffer(self): if self._push_back_buffer == '': raise AssertionError( '%s._push_back_buffer should never be the empty string, ' 'which can be confused with EOF' % (self,)) bytes = self._push_back_buffer self._push_back_buffer = None return bytes def read_bytes(self, desired_count): """Read some bytes from this medium. :returns: some bytes, possibly more or less than the number requested in 'desired_count' depending on the medium. """ if self._push_back_buffer is not None: return self._get_push_back_buffer() bytes_to_read = min(desired_count, _MAX_READ_SIZE) return self._read_bytes(bytes_to_read) def _read_bytes(self, count): raise NotImplementedError(self._read_bytes) def _get_line(self): """Read bytes from this request's response until a newline byte. This isn't particularly efficient, so should only be used when the expected size of the line is quite short. :returns: a string of bytes ending in a newline (byte 0x0A). """ line, excess = _get_line(self.read_bytes) self._push_back(excess) return line def _report_activity(self, bytes, direction): """Notify that this medium has activity. Implementations should call this from all methods that actually do IO. Be careful that it's not called twice, if one method is implemented on top of another. :param bytes: Number of bytes read or written. :param direction: 'read' or 'write' or None. """ ui.ui_factory.report_transport_activity(self, bytes, direction) _bad_file_descriptor = (errno.EBADF,) if sys.platform == 'win32': # Given on Windows if you pass a closed socket to select.select. Probably # also given if you pass a file handle to select. WSAENOTSOCK = 10038 _bad_file_descriptor += (WSAENOTSOCK,) class SmartServerStreamMedium(SmartMedium): """Handles smart commands coming over a stream. The stream may be a pipe connected to sshd, or a tcp socket, or an in-process fifo for testing. One instance is created for each connected client; it can serve multiple requests in the lifetime of the connection. The server passes requests through to an underlying backing transport, which will typically be a LocalTransport looking at the server's filesystem. :ivar _push_back_buffer: a str of bytes that have been read from the stream but not used yet, or None if there are no buffered bytes. Subclasses should make sure to exhaust this buffer before reading more bytes from the stream. See also the _push_back method. """ _timer = time.time def __init__(self, backing_transport, root_client_path='/', timeout=None): """Construct new server. :param backing_transport: Transport for the directory served. """ # backing_transport could be passed to serve instead of __init__ self.backing_transport = backing_transport self.root_client_path = root_client_path self.finished = False if timeout is None: raise AssertionError('You must supply a timeout.') self._client_timeout = timeout self._client_poll_timeout = min(timeout / 10.0, 1.0) SmartMedium.__init__(self) def serve(self): """Serve requests until the client disconnects.""" # Keep a reference to stderr because the sys module's globals get set to # None during interpreter shutdown. from sys import stderr try: while not self.finished: server_protocol = self._build_protocol() self._serve_one_request(server_protocol) except errors.ConnectionTimeout, e: trace.note('%s' % (e,)) trace.log_exception_quietly() self._disconnect_client() # We reported it, no reason to make a big fuss. return except Exception, e: stderr.write("%s terminating on exception %s\n" % (self, e)) raise self._disconnect_client() def _stop_gracefully(self): """When we finish this message, stop looking for more.""" trace.mutter('Stopping %s' % (self,)) self.finished = True def _disconnect_client(self): """Close the current connection. We stopped due to a timeout/etc.""" # The default implementation is a no-op, because that is all we used to # do when disconnecting from a client. I suppose we never had the # *server* initiate a disconnect, before def _wait_for_bytes_with_timeout(self, timeout_seconds): """Wait for more bytes to be read, but timeout if none available. This allows us to detect idle connections, and stop trying to read from them, without setting the socket itself to non-blocking. This also allows us to specify when we watch for idle timeouts. :return: Did we timeout? (True if we timed out, False if there is data to be read) """ raise NotImplementedError(self._wait_for_bytes_with_timeout) def _build_protocol(self): """Identifies the version of the incoming request, and returns an a protocol object that can interpret it. If more bytes than the version prefix of the request are read, they will be fed into the protocol before it is returned. :returns: a SmartServerRequestProtocol. """ self._wait_for_bytes_with_timeout(self._client_timeout) if self.finished: # We're stopping, so don't try to do any more work return None bytes = self._get_line() protocol_factory, unused_bytes = _get_protocol_factory_for_bytes(bytes) protocol = protocol_factory( self.backing_transport, self._write_out, self.root_client_path) protocol.accept_bytes(unused_bytes) return protocol def _wait_on_descriptor(self, fd, timeout_seconds): """select() on a file descriptor, waiting for nonblocking read() This will raise a ConnectionTimeout exception if we do not get a readable handle before timeout_seconds. :return: None """ t_end = self._timer() + timeout_seconds poll_timeout = min(timeout_seconds, self._client_poll_timeout) rs = xs = None while not rs and not xs and self._timer() < t_end: if self.finished: return try: rs, _, xs = select.select([fd], [], [fd], poll_timeout) except (select.error, socket.error) as e: err = getattr(e, 'errno', None) if err is None and getattr(e, 'args', None) is not None: # select.error doesn't have 'errno', it just has args[0] err = e.args[0] if err in _bad_file_descriptor: return # Not a socket indicates read() will fail elif err == errno.EINTR: # Interrupted, keep looping. continue raise if rs or xs: return raise errors.ConnectionTimeout('disconnecting client after %.1f seconds' % (timeout_seconds,)) def _serve_one_request(self, protocol): """Read one request from input, process, send back a response. :param protocol: a SmartServerRequestProtocol. """ if protocol is None: return try: self._serve_one_request_unguarded(protocol) except KeyboardInterrupt: raise except Exception, e: self.terminate_due_to_error() def terminate_due_to_error(self): """Called when an unhandled exception from the protocol occurs.""" raise NotImplementedError(self.terminate_due_to_error) def _read_bytes(self, desired_count): """Get some bytes from the medium. :param desired_count: number of bytes we want to read. """ raise NotImplementedError(self._read_bytes) class SmartServerSocketStreamMedium(SmartServerStreamMedium): def __init__(self, sock, backing_transport, root_client_path='/', timeout=None): """Constructor. :param sock: the socket the server will read from. It will be put into blocking mode. """ SmartServerStreamMedium.__init__( self, backing_transport, root_client_path=root_client_path, timeout=timeout) sock.setblocking(True) self.socket = sock # Get the getpeername now, as we might be closed later when we care. try: self._client_info = sock.getpeername() except socket.error: self._client_info = '' def __str__(self): return '%s(client=%s)' % (self.__class__.__name__, self._client_info) def __repr__(self): return '%s.%s(client=%s)' % (self.__module__, self.__class__.__name__, self._client_info) def _serve_one_request_unguarded(self, protocol): while protocol.next_read_size(): # We can safely try to read large chunks. If there is less data # than MAX_SOCKET_CHUNK ready, the socket will just return a # short read immediately rather than block. bytes = self.read_bytes(osutils.MAX_SOCKET_CHUNK) if bytes == '': self.finished = True return protocol.accept_bytes(bytes) self._push_back(protocol.unused_data) def _disconnect_client(self): """Close the current connection. We stopped due to a timeout/etc.""" self.socket.close() def _wait_for_bytes_with_timeout(self, timeout_seconds): """Wait for more bytes to be read, but timeout if none available. This allows us to detect idle connections, and stop trying to read from them, without setting the socket itself to non-blocking. This also allows us to specify when we watch for idle timeouts. :return: None, this will raise ConnectionTimeout if we time out before data is available. """ return self._wait_on_descriptor(self.socket, timeout_seconds) def _read_bytes(self, desired_count): return osutils.read_bytes_from_socket( self.socket, self._report_activity) def terminate_due_to_error(self): # TODO: This should log to a server log file, but no such thing # exists yet. Andrew Bennetts 2006-09-29. self.socket.close() self.finished = True def _write_out(self, bytes): tstart = osutils.timer_func() osutils.send_all(self.socket, bytes, self._report_activity) if 'hpss' in debug.debug_flags: thread_id = thread.get_ident() trace.mutter('%12s: [%s] %d bytes to the socket in %.3fs' % ('wrote', thread_id, len(bytes), osutils.timer_func() - tstart)) class SmartServerPipeStreamMedium(SmartServerStreamMedium): def __init__(self, in_file, out_file, backing_transport, timeout=None): """Construct new server. :param in_file: Python file from which requests can be read. :param out_file: Python file to write responses. :param backing_transport: Transport for the directory served. """ SmartServerStreamMedium.__init__(self, backing_transport, timeout=timeout) if sys.platform == 'win32': # force binary mode for files import msvcrt for f in (in_file, out_file): fileno = getattr(f, 'fileno', None) if fileno: msvcrt.setmode(fileno(), os.O_BINARY) self._in = in_file self._out = out_file def serve(self): """See SmartServerStreamMedium.serve""" # This is the regular serve, except it adds signal trapping for soft # shutdown. stop_gracefully = self._stop_gracefully signals.register_on_hangup(id(self), stop_gracefully) try: return super(SmartServerPipeStreamMedium, self).serve() finally: signals.unregister_on_hangup(id(self)) def _serve_one_request_unguarded(self, protocol): while True: # We need to be careful not to read past the end of the current # request, or else the read from the pipe will block, so we use # protocol.next_read_size(). bytes_to_read = protocol.next_read_size() if bytes_to_read == 0: # Finished serving this request. self._out.flush() return bytes = self.read_bytes(bytes_to_read) if bytes == '': # Connection has been closed. self.finished = True self._out.flush() return protocol.accept_bytes(bytes) def _disconnect_client(self): self._in.close() self._out.flush() self._out.close() def _wait_for_bytes_with_timeout(self, timeout_seconds): """Wait for more bytes to be read, but timeout if none available. This allows us to detect idle connections, and stop trying to read from them, without setting the socket itself to non-blocking. This also allows us to specify when we watch for idle timeouts. :return: None, this will raise ConnectionTimeout if we time out before data is available. """ if (getattr(self._in, 'fileno', None) is None or sys.platform == 'win32'): # You can't select() file descriptors on Windows. return return self._wait_on_descriptor(self._in, timeout_seconds) def _read_bytes(self, desired_count): return self._in.read(desired_count) def terminate_due_to_error(self): # TODO: This should log to a server log file, but no such thing # exists yet. Andrew Bennetts 2006-09-29. self._out.close() self.finished = True def _write_out(self, bytes): self._out.write(bytes) class SmartClientMediumRequest(object): """A request on a SmartClientMedium. Each request allows bytes to be provided to it via accept_bytes, and then the response bytes to be read via read_bytes. For instance: request.accept_bytes('123') request.finished_writing() result = request.read_bytes(3) request.finished_reading() It is up to the individual SmartClientMedium whether multiple concurrent requests can exist. See SmartClientMedium.get_request to obtain instances of SmartClientMediumRequest, and the concrete Medium you are using for details on concurrency and pipelining. """ def __init__(self, medium): """Construct a SmartClientMediumRequest for the medium medium.""" self._medium = medium # we track state by constants - we may want to use the same # pattern as BodyReader if it gets more complex. # valid states are: "writing", "reading", "done" self._state = "writing" def accept_bytes(self, bytes): """Accept bytes for inclusion in this request. This method may not be called after finished_writing() has been called. It depends upon the Medium whether or not the bytes will be immediately transmitted. Message based Mediums will tend to buffer the bytes until finished_writing() is called. :param bytes: A bytestring. """ if self._state != "writing": raise errors.WritingCompleted(self) self._accept_bytes(bytes) def _accept_bytes(self, bytes): """Helper for accept_bytes. Accept_bytes checks the state of the request to determing if bytes should be accepted. After that it hands off to _accept_bytes to do the actual acceptance. """ raise NotImplementedError(self._accept_bytes) def finished_reading(self): """Inform the request that all desired data has been read. This will remove the request from the pipeline for its medium (if the medium supports pipelining) and any further calls to methods on the request will raise ReadingCompleted. """ if self._state == "writing": raise errors.WritingNotComplete(self) if self._state != "reading": raise errors.ReadingCompleted(self) self._state = "done" self._finished_reading() def _finished_reading(self): """Helper for finished_reading. finished_reading checks the state of the request to determine if finished_reading is allowed, and if it is hands off to _finished_reading to perform the action. """ raise NotImplementedError(self._finished_reading) def finished_writing(self): """Finish the writing phase of this request. This will flush all pending data for this request along the medium. After calling finished_writing, you may not call accept_bytes anymore. """ if self._state != "writing": raise errors.WritingCompleted(self) self._state = "reading" self._finished_writing() def _finished_writing(self): """Helper for finished_writing. finished_writing checks the state of the request to determine if finished_writing is allowed, and if it is hands off to _finished_writing to perform the action. """ raise NotImplementedError(self._finished_writing) def read_bytes(self, count): """Read bytes from this requests response. This method will block and wait for count bytes to be read. It may not be invoked until finished_writing() has been called - this is to ensure a message-based approach to requests, for compatibility with message based mediums like HTTP. """ if self._state == "writing": raise errors.WritingNotComplete(self) if self._state != "reading": raise errors.ReadingCompleted(self) return self._read_bytes(count) def _read_bytes(self, count): """Helper for SmartClientMediumRequest.read_bytes. read_bytes checks the state of the request to determing if bytes should be read. After that it hands off to _read_bytes to do the actual read. By default this forwards to self._medium.read_bytes because we are operating on the medium's stream. """ return self._medium.read_bytes(count) def read_line(self): line = self._read_line() if not line.endswith('\n'): # end of file encountered reading from server raise errors.ConnectionReset( "Unexpected end of message. Please check connectivity " "and permissions, and report a bug if problems persist.") return line def _read_line(self): """Helper for SmartClientMediumRequest.read_line. By default this forwards to self._medium._get_line because we are operating on the medium's stream. """ return self._medium._get_line() class _VfsRefuser(object): """An object that refuses all VFS requests. """ def __init__(self): client._SmartClient.hooks.install_named_hook( 'call', self.check_vfs, 'vfs refuser') def check_vfs(self, params): try: request_method = request.request_handlers.get(params.method) except KeyError: # A method we don't know about doesn't count as a VFS method. return if issubclass(request_method, vfs.VfsRequest): raise errors.HpssVfsRequestNotAllowed(params.method, params.args) class _DebugCounter(object): """An object that counts the HPSS calls made to each client medium. When a medium is garbage-collected, or failing that when bzrlib.global_state exits, the total number of calls made on that medium are reported via trace.note. """ def __init__(self): self.counts = weakref.WeakKeyDictionary() client._SmartClient.hooks.install_named_hook( 'call', self.increment_call_count, 'hpss call counter') bzrlib.global_state.cleanups.add_cleanup(self.flush_all) def track(self, medium): """Start tracking calls made to a medium. This only keeps a weakref to the medium, so shouldn't affect the medium's lifetime. """ medium_repr = repr(medium) # Add this medium to the WeakKeyDictionary self.counts[medium] = dict(count=0, vfs_count=0, medium_repr=medium_repr) # Weakref callbacks are fired in reverse order of their association # with the referenced object. So we add a weakref *after* adding to # the WeakKeyDict so that we can report the value from it before the # entry is removed by the WeakKeyDict's own callback. ref = weakref.ref(medium, self.done) def increment_call_count(self, params): # Increment the count in the WeakKeyDictionary value = self.counts[params.medium] value['count'] += 1 try: request_method = request.request_handlers.get(params.method) except KeyError: # A method we don't know about doesn't count as a VFS method. return if issubclass(request_method, vfs.VfsRequest): value['vfs_count'] += 1 def done(self, ref): value = self.counts[ref] count, vfs_count, medium_repr = ( value['count'], value['vfs_count'], value['medium_repr']) # In case this callback is invoked for the same ref twice (by the # weakref callback and by the atexit function), set the call count back # to 0 so this item won't be reported twice. value['count'] = 0 value['vfs_count'] = 0 if count != 0: trace.note(gettext('HPSS calls: {0} ({1} vfs) {2}').format( count, vfs_count, medium_repr)) def flush_all(self): for ref in list(self.counts.keys()): self.done(ref) _debug_counter = None _vfs_refuser = None class SmartClientMedium(SmartMedium): """Smart client is a medium for sending smart protocol requests over.""" def __init__(self, base): super(SmartClientMedium, self).__init__() self.base = base self._protocol_version_error = None self._protocol_version = None self._done_hello = False # Be optimistic: we assume the remote end can accept new remote # requests until we get an error saying otherwise. # _remote_version_is_before tracks the bzr version the remote side # can be based on what we've seen so far. self._remote_version_is_before = None # Install debug hook function if debug flag is set. if 'hpss' in debug.debug_flags: global _debug_counter if _debug_counter is None: _debug_counter = _DebugCounter() _debug_counter.track(self) if 'hpss_client_no_vfs' in debug.debug_flags: global _vfs_refuser if _vfs_refuser is None: _vfs_refuser = _VfsRefuser() def _is_remote_before(self, version_tuple): """Is it possible the remote side supports RPCs for a given version? Typical use:: needed_version = (1, 2) if medium._is_remote_before(needed_version): fallback_to_pre_1_2_rpc() else: try: do_1_2_rpc() except UnknownSmartMethod: medium._remember_remote_is_before(needed_version) fallback_to_pre_1_2_rpc() :seealso: _remember_remote_is_before """ if self._remote_version_is_before is None: # So far, the remote side seems to support everything return False return version_tuple >= self._remote_version_is_before def _remember_remote_is_before(self, version_tuple): """Tell this medium that the remote side is older the given version. :seealso: _is_remote_before """ if (self._remote_version_is_before is not None and version_tuple > self._remote_version_is_before): # We have been told that the remote side is older than some version # which is newer than a previously supplied older-than version. # This indicates that some smart verb call is not guarded # appropriately (it should simply not have been tried). trace.mutter( "_remember_remote_is_before(%r) called, but " "_remember_remote_is_before(%r) was called previously." , version_tuple, self._remote_version_is_before) if 'hpss' in debug.debug_flags: ui.ui_factory.show_warning( "_remember_remote_is_before(%r) called, but " "_remember_remote_is_before(%r) was called previously." % (version_tuple, self._remote_version_is_before)) return self._remote_version_is_before = version_tuple def protocol_version(self): """Find out if 'hello' smart request works.""" if self._protocol_version_error is not None: raise self._protocol_version_error if not self._done_hello: try: medium_request = self.get_request() # Send a 'hello' request in protocol version one, for maximum # backwards compatibility. client_protocol = protocol.SmartClientRequestProtocolOne(medium_request) client_protocol.query_version() self._done_hello = True except errors.SmartProtocolError, e: # Cache the error, just like we would cache a successful # result. self._protocol_version_error = e raise return '2' def should_probe(self): """Should RemoteBzrDirFormat.probe_transport send a smart request on this medium? Some transports are unambiguously smart-only; there's no need to check if the transport is able to carry smart requests, because that's all it is for. In those cases, this method should return False. But some HTTP transports can sometimes fail to carry smart requests, but still be usuable for accessing remote bzrdirs via plain file accesses. So for those transports, their media should return True here so that RemoteBzrDirFormat can determine if it is appropriate for that transport. """ return False def disconnect(self): """If this medium maintains a persistent connection, close it. The default implementation does nothing. """ def remote_path_from_transport(self, transport): """Convert transport into a path suitable for using in a request. Note that the resulting remote path doesn't encode the host name or anything but path, so it is only safe to use it in requests sent over the medium from the matching transport. """ medium_base = urlutils.join(self.base, '/') rel_url = urlutils.relative_url(medium_base, transport.base) return urlutils.unquote(rel_url) class SmartClientStreamMedium(SmartClientMedium): """Stream based medium common class. SmartClientStreamMediums operate on a stream. All subclasses use a common SmartClientStreamMediumRequest for their requests, and should implement _accept_bytes and _read_bytes to allow the request objects to send and receive bytes. """ def __init__(self, base): SmartClientMedium.__init__(self, base) self._current_request = None def accept_bytes(self, bytes): self._accept_bytes(bytes) def __del__(self): """The SmartClientStreamMedium knows how to close the stream when it is finished with it. """ self.disconnect() def _flush(self): """Flush the output stream. This method is used by the SmartClientStreamMediumRequest to ensure that all data for a request is sent, to avoid long timeouts or deadlocks. """ raise NotImplementedError(self._flush) def get_request(self): """See SmartClientMedium.get_request(). SmartClientStreamMedium always returns a SmartClientStreamMediumRequest for get_request. """ return SmartClientStreamMediumRequest(self) def reset(self): """We have been disconnected, reset current state. This resets things like _current_request and connected state. """ self.disconnect() self._current_request = None class SmartSimplePipesClientMedium(SmartClientStreamMedium): """A client medium using simple pipes. This client does not manage the pipes: it assumes they will always be open. """ def __init__(self, readable_pipe, writeable_pipe, base): SmartClientStreamMedium.__init__(self, base) self._readable_pipe = readable_pipe self._writeable_pipe = writeable_pipe def _accept_bytes(self, bytes): """See SmartClientStreamMedium.accept_bytes.""" try: self._writeable_pipe.write(bytes) except IOError, e: if e.errno in (errno.EINVAL, errno.EPIPE): raise errors.ConnectionReset( "Error trying to write to subprocess", e) raise self._report_activity(len(bytes), 'write') def _flush(self): """See SmartClientStreamMedium._flush().""" # Note: If flush were to fail, we'd like to raise ConnectionReset, etc. # However, testing shows that even when the child process is # gone, this doesn't error. self._writeable_pipe.flush() def _read_bytes(self, count): """See SmartClientStreamMedium._read_bytes.""" bytes_to_read = min(count, _MAX_READ_SIZE) bytes = self._readable_pipe.read(bytes_to_read) self._report_activity(len(bytes), 'read') return bytes class SSHParams(object): """A set of parameters for starting a remote bzr via SSH.""" def __init__(self, host, port=None, username=None, password=None, bzr_remote_path='bzr'): self.host = host self.port = port self.username = username self.password = password self.bzr_remote_path = bzr_remote_path class SmartSSHClientMedium(SmartClientStreamMedium): """A client medium using SSH. It delegates IO to a SmartSimplePipesClientMedium or SmartClientAlreadyConnectedSocketMedium (depending on platform). """ def __init__(self, base, ssh_params, vendor=None): """Creates a client that will connect on the first use. :param ssh_params: A SSHParams instance. :param vendor: An optional override for the ssh vendor to use. See bzrlib.transport.ssh for details on ssh vendors. """ self._real_medium = None self._ssh_params = ssh_params # for the benefit of progress making a short description of this # transport self._scheme = 'bzr+ssh' # SmartClientStreamMedium stores the repr of this object in its # _DebugCounter so we have to store all the values used in our repr # method before calling the super init. SmartClientStreamMedium.__init__(self, base) self._vendor = vendor self._ssh_connection = None def __repr__(self): if self._ssh_params.port is None: maybe_port = '' else: maybe_port = ':%s' % self._ssh_params.port if self._ssh_params.username is None: maybe_user = '' else: maybe_user = '%s@' % self._ssh_params.username return "%s(%s://%s%s%s/)" % ( self.__class__.__name__, self._scheme, maybe_user, self._ssh_params.host, maybe_port) def _accept_bytes(self, bytes): """See SmartClientStreamMedium.accept_bytes.""" self._ensure_connection() self._real_medium.accept_bytes(bytes) def disconnect(self): """See SmartClientMedium.disconnect().""" if self._real_medium is not None: self._real_medium.disconnect() self._real_medium = None if self._ssh_connection is not None: self._ssh_connection.close() self._ssh_connection = None def _ensure_connection(self): """Connect this medium if not already connected.""" if self._real_medium is not None: return if self._vendor is None: vendor = ssh._get_ssh_vendor() else: vendor = self._vendor self._ssh_connection = vendor.connect_ssh(self._ssh_params.username, self._ssh_params.password, self._ssh_params.host, self._ssh_params.port, command=[self._ssh_params.bzr_remote_path, 'serve', '--inet', '--directory=/', '--allow-writes']) io_kind, io_object = self._ssh_connection.get_sock_or_pipes() if io_kind == 'socket': self._real_medium = SmartClientAlreadyConnectedSocketMedium( self.base, io_object) elif io_kind == 'pipes': read_from, write_to = io_object self._real_medium = SmartSimplePipesClientMedium( read_from, write_to, self.base) else: raise AssertionError( "Unexpected io_kind %r from %r" % (io_kind, self._ssh_connection)) for hook in transport.Transport.hooks["post_connect"]: hook(self) def _flush(self): """See SmartClientStreamMedium._flush().""" self._real_medium._flush() def _read_bytes(self, count): """See SmartClientStreamMedium.read_bytes.""" if self._real_medium is None: raise errors.MediumNotConnected(self) return self._real_medium.read_bytes(count) # Port 4155 is the default port for bzr://, registered with IANA. BZR_DEFAULT_INTERFACE = None BZR_DEFAULT_PORT = 4155 class SmartClientSocketMedium(SmartClientStreamMedium): """A client medium using a socket. This class isn't usable directly. Use one of its subclasses instead. """ def __init__(self, base): SmartClientStreamMedium.__init__(self, base) self._socket = None self._connected = False def _accept_bytes(self, bytes): """See SmartClientMedium.accept_bytes.""" self._ensure_connection() osutils.send_all(self._socket, bytes, self._report_activity) def _ensure_connection(self): """Connect this medium if not already connected.""" raise NotImplementedError(self._ensure_connection) def _flush(self): """See SmartClientStreamMedium._flush(). For sockets we do no flushing. For TCP sockets we may want to turn off TCP_NODELAY and add a means to do a flush, but that can be done in the future. """ def _read_bytes(self, count): """See SmartClientMedium.read_bytes.""" if not self._connected: raise errors.MediumNotConnected(self) return osutils.read_bytes_from_socket( self._socket, self._report_activity) def disconnect(self): """See SmartClientMedium.disconnect().""" if not self._connected: return self._socket.close() self._socket = None self._connected = False class SmartTCPClientMedium(SmartClientSocketMedium): """A client medium that creates a TCP connection.""" def __init__(self, host, port, base): """Creates a client that will connect on the first use.""" SmartClientSocketMedium.__init__(self, base) self._host = host self._port = port def _ensure_connection(self): """Connect this medium if not already connected.""" if self._connected: return if self._port is None: port = BZR_DEFAULT_PORT else: port = int(self._port) try: sockaddrs = socket.getaddrinfo(self._host, port, socket.AF_UNSPEC, socket.SOCK_STREAM, 0, 0) except socket.gaierror, (err_num, err_msg): raise errors.ConnectionError("failed to lookup %s:%d: %s" % (self._host, port, err_msg)) # Initialize err in case there are no addresses returned: err = socket.error("no address found for %s" % self._host) for (family, socktype, proto, canonname, sockaddr) in sockaddrs: try: self._socket = socket.socket(family, socktype, proto) self._socket.setsockopt(socket.IPPROTO_TCP, socket.TCP_NODELAY, 1) self._socket.connect(sockaddr) except socket.error, err: if self._socket is not None: self._socket.close() self._socket = None continue break if self._socket is None: # socket errors either have a (string) or (errno, string) as their # args. if type(err.args) is str: err_msg = err.args else: err_msg = err.args[1] raise errors.ConnectionError("failed to connect to %s:%d: %s" % (self._host, port, err_msg)) self._connected = True for hook in transport.Transport.hooks["post_connect"]: hook(self) class SmartClientAlreadyConnectedSocketMedium(SmartClientSocketMedium): """A client medium for an already connected socket. Note that this class will assume it "owns" the socket, so it will close it when its disconnect method is called. """ def __init__(self, base, sock): SmartClientSocketMedium.__init__(self, base) self._socket = sock self._connected = True def _ensure_connection(self): # Already connected, by definition! So nothing to do. pass class SmartClientStreamMediumRequest(SmartClientMediumRequest): """A SmartClientMediumRequest that works with an SmartClientStreamMedium.""" def __init__(self, medium): SmartClientMediumRequest.__init__(self, medium) # check that we are safe concurrency wise. If some streams start # allowing concurrent requests - i.e. via multiplexing - then this # assert should be moved to SmartClientStreamMedium.get_request, # and the setting/unsetting of _current_request likewise moved into # that class : but its unneeded overhead for now. RBC 20060922 if self._medium._current_request is not None: raise errors.TooManyConcurrentRequests(self._medium) self._medium._current_request = self def _accept_bytes(self, bytes): """See SmartClientMediumRequest._accept_bytes. This forwards to self._medium._accept_bytes because we are operating on the mediums stream. """ self._medium._accept_bytes(bytes) def _finished_reading(self): """See SmartClientMediumRequest._finished_reading. This clears the _current_request on self._medium to allow a new request to be created. """ if self._medium._current_request is not self: raise AssertionError() self._medium._current_request = None def _finished_writing(self): """See SmartClientMediumRequest._finished_writing. This invokes self._medium._flush to ensure all bytes are transmitted. """ self._medium._flush()