# Copyright 21 May 2005 - (c) 2005 Jake Edge # Copyright 2005-2007 Matt Mackall # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import contextlib import struct import sys import threading from .i18n import _ from . import ( encoding, error, pycompat, util, wireprototypes, wireprotov1server, wireprotov2server, ) from .interfaces import util as interfaceutil from .utils import ( cborutil, compression, ) stringio = util.stringio urlerr = util.urlerr urlreq = util.urlreq HTTP_OK = 200 HGTYPE = b'application/mercurial-0.1' HGTYPE2 = b'application/mercurial-0.2' HGERRTYPE = b'application/hg-error' SSHV1 = wireprototypes.SSHV1 SSHV2 = wireprototypes.SSHV2 def decodevaluefromheaders(req, headerprefix): """Decode a long value from multiple HTTP request headers. Returns the value as a bytes, not a str. """ chunks = [] i = 1 while True: v = req.headers.get(b'%s-%d' % (headerprefix, i)) if v is None: break chunks.append(pycompat.bytesurl(v)) i += 1 return b''.join(chunks) @interfaceutil.implementer(wireprototypes.baseprotocolhandler) class httpv1protocolhandler(object): def __init__(self, req, ui, checkperm): self._req = req self._ui = ui self._checkperm = checkperm self._protocaps = None @property def name(self): return b'http-v1' def getargs(self, args): knownargs = self._args() data = {} keys = args.split() for k in keys: if k == b'*': star = {} for key in knownargs.keys(): if key != b'cmd' and key not in keys: star[key] = knownargs[key][0] data[b'*'] = star else: data[k] = knownargs[k][0] return [data[k] for k in keys] def _args(self): args = self._req.qsparams.asdictoflists() postlen = int(self._req.headers.get(b'X-HgArgs-Post', 0)) if postlen: args.update( urlreq.parseqs( self._req.bodyfh.read(postlen), keep_blank_values=True ) ) return args argvalue = decodevaluefromheaders(self._req, b'X-HgArg') args.update(urlreq.parseqs(argvalue, keep_blank_values=True)) return args def getprotocaps(self): if self._protocaps is None: value = decodevaluefromheaders(self._req, b'X-HgProto') self._protocaps = set(value.split(b' ')) return self._protocaps def getpayload(self): # Existing clients *always* send Content-Length. length = int(self._req.headers[b'Content-Length']) # If httppostargs is used, we need to read Content-Length # minus the amount that was consumed by args. length -= int(self._req.headers.get(b'X-HgArgs-Post', 0)) return util.filechunkiter(self._req.bodyfh, limit=length) @contextlib.contextmanager def mayberedirectstdio(self): oldout = self._ui.fout olderr = self._ui.ferr out = util.stringio() try: self._ui.fout = out self._ui.ferr = out yield out finally: self._ui.fout = oldout self._ui.ferr = olderr def client(self): return b'remote:%s:%s:%s' % ( self._req.urlscheme, urlreq.quote(self._req.remotehost or b''), urlreq.quote(self._req.remoteuser or b''), ) def addcapabilities(self, repo, caps): caps.append(b'batch') caps.append( b'httpheader=%d' % repo.ui.configint(b'server', b'maxhttpheaderlen') ) if repo.ui.configbool(b'experimental', b'httppostargs'): caps.append(b'httppostargs') # FUTURE advertise 0.2rx once support is implemented # FUTURE advertise minrx and mintx after consulting config option caps.append(b'httpmediatype=0.1rx,0.1tx,0.2tx') compengines = wireprototypes.supportedcompengines( repo.ui, compression.SERVERROLE ) if compengines: comptypes = b','.join( urlreq.quote(e.wireprotosupport().name) for e in compengines ) caps.append(b'compression=%s' % comptypes) return caps def checkperm(self, perm): return self._checkperm(perm) # This method exists mostly so that extensions like remotefilelog can # disable a kludgey legacy method only over http. As of early 2018, # there are no other known users, so with any luck we can discard this # hook if remotefilelog becomes a first-party extension. def iscmd(cmd): return cmd in wireprotov1server.commands def handlewsgirequest(rctx, req, res, checkperm): """Possibly process a wire protocol request. If the current request is a wire protocol request, the request is processed by this function. ``req`` is a ``parsedrequest`` instance. ``res`` is a ``wsgiresponse`` instance. Returns a bool indicating if the request was serviced. If set, the caller should stop processing the request, as a response has already been issued. """ # Avoid cycle involving hg module. from .hgweb import common as hgwebcommon repo = rctx.repo # HTTP version 1 wire protocol requests are denoted by a "cmd" query # string parameter. If it isn't present, this isn't a wire protocol # request. if b'cmd' not in req.qsparams: return False cmd = req.qsparams[b'cmd'] # The "cmd" request parameter is used by both the wire protocol and hgweb. # While not all wire protocol commands are available for all transports, # if we see a "cmd" value that resembles a known wire protocol command, we # route it to a protocol handler. This is better than routing possible # wire protocol requests to hgweb because it prevents hgweb from using # known wire protocol commands and it is less confusing for machine # clients. if not iscmd(cmd): return False # The "cmd" query string argument is only valid on the root path of the # repo. e.g. ``/?cmd=foo``, ``/repo?cmd=foo``. URL paths within the repo # like ``/blah?cmd=foo`` are not allowed. So don't recognize the request # in this case. We send an HTTP 404 for backwards compatibility reasons. if req.dispatchpath: res.status = hgwebcommon.statusmessage(404) res.headers[b'Content-Type'] = HGTYPE # TODO This is not a good response to issue for this request. This # is mostly for BC for now. res.setbodybytes(b'0\n%s\n' % b'Not Found') return True proto = httpv1protocolhandler( req, repo.ui, lambda perm: checkperm(rctx, req, perm) ) # The permissions checker should be the only thing that can raise an # ErrorResponse. It is kind of a layer violation to catch an hgweb # exception here. So consider refactoring into a exception type that # is associated with the wire protocol. try: _callhttp(repo, req, res, proto, cmd) except hgwebcommon.ErrorResponse as e: for k, v in e.headers: res.headers[k] = v res.status = hgwebcommon.statusmessage(e.code, pycompat.bytestr(e)) # TODO This response body assumes the failed command was # "unbundle." That assumption is not always valid. res.setbodybytes(b'0\n%s\n' % pycompat.bytestr(e)) return True def _availableapis(repo): apis = set() # Registered APIs are made available via config options of the name of # the protocol. for k, v in API_HANDLERS.items(): section, option = v[b'config'] if repo.ui.configbool(section, option): apis.add(k) return apis def handlewsgiapirequest(rctx, req, res, checkperm): """Handle requests to /api/*.""" assert req.dispatchparts[0] == b'api' repo = rctx.repo # This whole URL space is experimental for now. But we want to # reserve the URL space. So, 404 all URLs if the feature isn't enabled. if not repo.ui.configbool(b'experimental', b'web.apiserver'): res.status = b'404 Not Found' res.headers[b'Content-Type'] = b'text/plain' res.setbodybytes(_(b'Experimental API server endpoint not enabled')) return # The URL space is /api//*. The structure of URLs under varies # by . availableapis = _availableapis(repo) # Requests to /api/ list available APIs. if req.dispatchparts == [b'api']: res.status = b'200 OK' res.headers[b'Content-Type'] = b'text/plain' lines = [ _( b'APIs can be accessed at /api/, where can be ' b'one of the following:\n' ) ] if availableapis: lines.extend(sorted(availableapis)) else: lines.append(_(b'(no available APIs)\n')) res.setbodybytes(b'\n'.join(lines)) return proto = req.dispatchparts[1] if proto not in API_HANDLERS: res.status = b'404 Not Found' res.headers[b'Content-Type'] = b'text/plain' res.setbodybytes( _(b'Unknown API: %s\nKnown APIs: %s') % (proto, b', '.join(sorted(availableapis))) ) return if proto not in availableapis: res.status = b'404 Not Found' res.headers[b'Content-Type'] = b'text/plain' res.setbodybytes(_(b'API %s not enabled\n') % proto) return API_HANDLERS[proto][b'handler']( rctx, req, res, checkperm, req.dispatchparts[2:] ) # Maps API name to metadata so custom API can be registered. # Keys are: # # config # Config option that controls whether service is enabled. # handler # Callable receiving (rctx, req, res, checkperm, urlparts) that is called # when a request to this API is received. # apidescriptor # Callable receiving (req, repo) that is called to obtain an API # descriptor for this service. The response must be serializable to CBOR. API_HANDLERS = { wireprotov2server.HTTP_WIREPROTO_V2: { b'config': (b'experimental', b'web.api.http-v2'), b'handler': wireprotov2server.handlehttpv2request, b'apidescriptor': wireprotov2server.httpv2apidescriptor, }, } def _httpresponsetype(ui, proto, prefer_uncompressed): """Determine the appropriate response type and compression settings. Returns a tuple of (mediatype, compengine, engineopts). """ # Determine the response media type and compression engine based # on the request parameters. if b'0.2' in proto.getprotocaps(): # All clients are expected to support uncompressed data. if prefer_uncompressed: return HGTYPE2, compression._noopengine(), {} # Now find an agreed upon compression format. compformats = wireprotov1server.clientcompressionsupport(proto) for engine in wireprototypes.supportedcompengines( ui, compression.SERVERROLE ): if engine.wireprotosupport().name in compformats: opts = {} level = ui.configint(b'server', b'%slevel' % engine.name()) if level is not None: opts[b'level'] = level return HGTYPE2, engine, opts # No mutually supported compression format. Fall back to the # legacy protocol. # Don't allow untrusted settings because disabling compression or # setting a very high compression level could lead to flooding # the server's network or CPU. opts = {b'level': ui.configint(b'server', b'zliblevel')} return HGTYPE, util.compengines[b'zlib'], opts def processcapabilitieshandshake(repo, req, res, proto): """Called during a ?cmd=capabilities request. If the client is advertising support for a newer protocol, we send a CBOR response with information about available services. If no advertised services are available, we don't handle the request. """ # Fall back to old behavior unless the API server is enabled. if not repo.ui.configbool(b'experimental', b'web.apiserver'): return False clientapis = decodevaluefromheaders(req, b'X-HgUpgrade') protocaps = decodevaluefromheaders(req, b'X-HgProto') if not clientapis or not protocaps: return False # We currently only support CBOR responses. protocaps = set(protocaps.split(b' ')) if b'cbor' not in protocaps: return False descriptors = {} for api in sorted(set(clientapis.split()) & _availableapis(repo)): handler = API_HANDLERS[api] descriptorfn = handler.get(b'apidescriptor') if not descriptorfn: continue descriptors[api] = descriptorfn(req, repo) v1caps = wireprotov1server.dispatch(repo, proto, b'capabilities') assert isinstance(v1caps, wireprototypes.bytesresponse) m = { # TODO allow this to be configurable. b'apibase': b'api/', b'apis': descriptors, b'v1capabilities': v1caps.data, } res.status = b'200 OK' res.headers[b'Content-Type'] = b'application/mercurial-cbor' res.setbodybytes(b''.join(cborutil.streamencode(m))) return True def _callhttp(repo, req, res, proto, cmd): # Avoid cycle involving hg module. from .hgweb import common as hgwebcommon def genversion2(gen, engine, engineopts): # application/mercurial-0.2 always sends a payload header # identifying the compression engine. name = engine.wireprotosupport().name assert 0 < len(name) < 256 yield struct.pack(b'B', len(name)) yield name for chunk in gen: yield chunk def setresponse(code, contenttype, bodybytes=None, bodygen=None): if code == HTTP_OK: res.status = b'200 Script output follows' else: res.status = hgwebcommon.statusmessage(code) res.headers[b'Content-Type'] = contenttype if bodybytes is not None: res.setbodybytes(bodybytes) if bodygen is not None: res.setbodygen(bodygen) if not wireprotov1server.commands.commandavailable(cmd, proto): setresponse( HTTP_OK, HGERRTYPE, _( b'requested wire protocol command is not available over ' b'HTTP' ), ) return proto.checkperm(wireprotov1server.commands[cmd].permission) # Possibly handle a modern client wanting to switch protocols. if cmd == b'capabilities' and processcapabilitieshandshake( repo, req, res, proto ): return rsp = wireprotov1server.dispatch(repo, proto, cmd) if isinstance(rsp, bytes): setresponse(HTTP_OK, HGTYPE, bodybytes=rsp) elif isinstance(rsp, wireprototypes.bytesresponse): setresponse(HTTP_OK, HGTYPE, bodybytes=rsp.data) elif isinstance(rsp, wireprototypes.streamreslegacy): setresponse(HTTP_OK, HGTYPE, bodygen=rsp.gen) elif isinstance(rsp, wireprototypes.streamres): gen = rsp.gen # This code for compression should not be streamres specific. It # is here because we only compress streamres at the moment. mediatype, engine, engineopts = _httpresponsetype( repo.ui, proto, rsp.prefer_uncompressed ) gen = engine.compressstream(gen, engineopts) if mediatype == HGTYPE2: gen = genversion2(gen, engine, engineopts) setresponse(HTTP_OK, mediatype, bodygen=gen) elif isinstance(rsp, wireprototypes.pushres): rsp = b'%d\n%s' % (rsp.res, rsp.output) setresponse(HTTP_OK, HGTYPE, bodybytes=rsp) elif isinstance(rsp, wireprototypes.pusherr): rsp = b'0\n%s\n' % rsp.res res.drain = True setresponse(HTTP_OK, HGTYPE, bodybytes=rsp) elif isinstance(rsp, wireprototypes.ooberror): setresponse(HTTP_OK, HGERRTYPE, bodybytes=rsp.message) else: raise error.ProgrammingError(b'hgweb.protocol internal failure', rsp) def _sshv1respondbytes(fout, value): """Send a bytes response for protocol version 1.""" fout.write(b'%d\n' % len(value)) fout.write(value) fout.flush() def _sshv1respondstream(fout, source): write = fout.write for chunk in source.gen: write(chunk) fout.flush() def _sshv1respondooberror(fout, ferr, rsp): ferr.write(b'%s\n-\n' % rsp) ferr.flush() fout.write(b'\n') fout.flush() @interfaceutil.implementer(wireprototypes.baseprotocolhandler) class sshv1protocolhandler(object): """Handler for requests services via version 1 of SSH protocol.""" def __init__(self, ui, fin, fout): self._ui = ui self._fin = fin self._fout = fout self._protocaps = set() @property def name(self): return wireprototypes.SSHV1 def getargs(self, args): data = {} keys = args.split() for n in pycompat.xrange(len(keys)): argline = self._fin.readline()[:-1] arg, l = argline.split() if arg not in keys: raise error.Abort(_(b"unexpected parameter %r") % arg) if arg == b'*': star = {} for k in pycompat.xrange(int(l)): argline = self._fin.readline()[:-1] arg, l = argline.split() val = self._fin.read(int(l)) star[arg] = val data[b'*'] = star else: val = self._fin.read(int(l)) data[arg] = val return [data[k] for k in keys] def getprotocaps(self): return self._protocaps def getpayload(self): # We initially send an empty response. This tells the client it is # OK to start sending data. If a client sees any other response, it # interprets it as an error. _sshv1respondbytes(self._fout, b'') # The file is in the form: # # \n # ... # 0\n count = int(self._fin.readline()) while count: yield self._fin.read(count) count = int(self._fin.readline()) @contextlib.contextmanager def mayberedirectstdio(self): yield None def client(self): client = encoding.environ.get(b'SSH_CLIENT', b'').split(b' ', 1)[0] return b'remote:ssh:' + client def addcapabilities(self, repo, caps): if self.name == wireprototypes.SSHV1: caps.append(b'protocaps') caps.append(b'batch') return caps def checkperm(self, perm): pass class sshv2protocolhandler(sshv1protocolhandler): """Protocol handler for version 2 of the SSH protocol.""" @property def name(self): return wireprototypes.SSHV2 def addcapabilities(self, repo, caps): return caps def _runsshserver(ui, repo, fin, fout, ev): # This function operates like a state machine of sorts. The following # states are defined: # # protov1-serving # Server is in protocol version 1 serving mode. Commands arrive on # new lines. These commands are processed in this state, one command # after the other. # # protov2-serving # Server is in protocol version 2 serving mode. # # upgrade-initial # The server is going to process an upgrade request. # # upgrade-v2-filter-legacy-handshake # The protocol is being upgraded to version 2. The server is expecting # the legacy handshake from version 1. # # upgrade-v2-finish # The upgrade to version 2 of the protocol is imminent. # # shutdown # The server is shutting down, possibly in reaction to a client event. # # And here are their transitions: # # protov1-serving -> shutdown # When server receives an empty request or encounters another # error. # # protov1-serving -> upgrade-initial # An upgrade request line was seen. # # upgrade-initial -> upgrade-v2-filter-legacy-handshake # Upgrade to version 2 in progress. Server is expecting to # process a legacy handshake. # # upgrade-v2-filter-legacy-handshake -> shutdown # Client did not fulfill upgrade handshake requirements. # # upgrade-v2-filter-legacy-handshake -> upgrade-v2-finish # Client fulfilled version 2 upgrade requirements. Finishing that # upgrade. # # upgrade-v2-finish -> protov2-serving # Protocol upgrade to version 2 complete. Server can now speak protocol # version 2. # # protov2-serving -> protov1-serving # Ths happens by default since protocol version 2 is the same as # version 1 except for the handshake. state = b'protov1-serving' proto = sshv1protocolhandler(ui, fin, fout) protoswitched = False while not ev.is_set(): if state == b'protov1-serving': # Commands are issued on new lines. request = fin.readline()[:-1] # Empty lines signal to terminate the connection. if not request: state = b'shutdown' continue # It looks like a protocol upgrade request. Transition state to # handle it. if request.startswith(b'upgrade '): if protoswitched: _sshv1respondooberror( fout, ui.ferr, b'cannot upgrade protocols multiple times', ) state = b'shutdown' continue state = b'upgrade-initial' continue available = wireprotov1server.commands.commandavailable( request, proto ) # This command isn't available. Send an empty response and go # back to waiting for a new command. if not available: _sshv1respondbytes(fout, b'') continue rsp = wireprotov1server.dispatch(repo, proto, request) repo.ui.fout.flush() repo.ui.ferr.flush() if isinstance(rsp, bytes): _sshv1respondbytes(fout, rsp) elif isinstance(rsp, wireprototypes.bytesresponse): _sshv1respondbytes(fout, rsp.data) elif isinstance(rsp, wireprototypes.streamres): _sshv1respondstream(fout, rsp) elif isinstance(rsp, wireprototypes.streamreslegacy): _sshv1respondstream(fout, rsp) elif isinstance(rsp, wireprototypes.pushres): _sshv1respondbytes(fout, b'') _sshv1respondbytes(fout, b'%d' % rsp.res) elif isinstance(rsp, wireprototypes.pusherr): _sshv1respondbytes(fout, rsp.res) elif isinstance(rsp, wireprototypes.ooberror): _sshv1respondooberror(fout, ui.ferr, rsp.message) else: raise error.ProgrammingError( b'unhandled response type from ' b'wire protocol command: %s' % rsp ) # For now, protocol version 2 serving just goes back to version 1. elif state == b'protov2-serving': state = b'protov1-serving' continue elif state == b'upgrade-initial': # We should never transition into this state if we've switched # protocols. assert not protoswitched assert proto.name == wireprototypes.SSHV1 # Expected: upgrade # If we get something else, the request is malformed. It could be # from a future client that has altered the upgrade line content. # We treat this as an unknown command. try: token, caps = request.split(b' ')[1:] except ValueError: _sshv1respondbytes(fout, b'') state = b'protov1-serving' continue # Send empty response if we don't support upgrading protocols. if not ui.configbool(b'experimental', b'sshserver.support-v2'): _sshv1respondbytes(fout, b'') state = b'protov1-serving' continue try: caps = urlreq.parseqs(caps) except ValueError: _sshv1respondbytes(fout, b'') state = b'protov1-serving' continue # We don't see an upgrade request to protocol version 2. Ignore # the upgrade request. wantedprotos = caps.get(b'proto', [b''])[0] if SSHV2 not in wantedprotos: _sshv1respondbytes(fout, b'') state = b'protov1-serving' continue # It looks like we can honor this upgrade request to protocol 2. # Filter the rest of the handshake protocol request lines. state = b'upgrade-v2-filter-legacy-handshake' continue elif state == b'upgrade-v2-filter-legacy-handshake': # Client should have sent legacy handshake after an ``upgrade`` # request. Expected lines: # # hello # between # pairs 81 # 0000...-0000... ok = True for line in (b'hello', b'between', b'pairs 81'): request = fin.readline()[:-1] if request != line: _sshv1respondooberror( fout, ui.ferr, b'malformed handshake protocol: missing %s' % line, ) ok = False state = b'shutdown' break if not ok: continue request = fin.read(81) if request != b'%s-%s' % (b'0' * 40, b'0' * 40): _sshv1respondooberror( fout, ui.ferr, b'malformed handshake protocol: ' b'missing between argument value', ) state = b'shutdown' continue state = b'upgrade-v2-finish' continue elif state == b'upgrade-v2-finish': # Send the upgrade response. fout.write(b'upgraded %s %s\n' % (token, SSHV2)) servercaps = wireprotov1server.capabilities(repo, proto) rsp = b'capabilities: %s' % servercaps.data fout.write(b'%d\n%s\n' % (len(rsp), rsp)) fout.flush() proto = sshv2protocolhandler(ui, fin, fout) protoswitched = True state = b'protov2-serving' continue elif state == b'shutdown': break else: raise error.ProgrammingError( b'unhandled ssh server state: %s' % state ) class sshserver(object): def __init__(self, ui, repo, logfh=None): self._ui = ui self._repo = repo self._fin, self._fout = ui.protectfinout() # Log write I/O to stdout and stderr if configured. if logfh: self._fout = util.makeloggingfileobject( logfh, self._fout, b'o', logdata=True ) ui.ferr = util.makeloggingfileobject( logfh, ui.ferr, b'e', logdata=True ) def serve_forever(self): self.serveuntil(threading.Event()) self._ui.restorefinout(self._fin, self._fout) sys.exit(0) def serveuntil(self, ev): """Serve until a threading.Event is set.""" _runsshserver(self._ui, self._repo, self._fin, self._fout, ev)