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httppeer.py
1006 lines | 34.0 KiB | text/x-python | PythonLexer
# httppeer.py - HTTP repository proxy classes for mercurial
#
# Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>
# Copyright 2006 Vadim Gelfer <vadim.gelfer@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.
from __future__ import absolute_import
import errno
import io
import os
import socket
import struct
import weakref
from .i18n import _
from . import (
bundle2,
error,
httpconnection,
pycompat,
repository,
statichttprepo,
url as urlmod,
util,
wireprotoframing,
wireprototypes,
wireprotov1peer,
wireprotov2peer,
wireprotov2server,
)
from .utils import (
cborutil,
interfaceutil,
stringutil,
)
httplib = util.httplib
urlerr = util.urlerr
urlreq = util.urlreq
def encodevalueinheaders(value, header, limit):
"""Encode a string value into multiple HTTP headers.
``value`` will be encoded into 1 or more HTTP headers with the names
``header-<N>`` where ``<N>`` is an integer starting at 1. Each header
name + value will be at most ``limit`` bytes long.
Returns an iterable of 2-tuples consisting of header names and
values as native strings.
"""
# HTTP Headers are ASCII. Python 3 requires them to be unicodes,
# not bytes. This function always takes bytes in as arguments.
fmt = pycompat.strurl(header) + r'-%s'
# Note: it is *NOT* a bug that the last bit here is a bytestring
# and not a unicode: we're just getting the encoded length anyway,
# and using an r-string to make it portable between Python 2 and 3
# doesn't work because then the \r is a literal backslash-r
# instead of a carriage return.
valuelen = limit - len(fmt % r'000') - len(': \r\n')
result = []
n = 0
for i in pycompat.xrange(0, len(value), valuelen):
n += 1
result.append((fmt % str(n), pycompat.strurl(value[i:i + valuelen])))
return result
class _multifile(object):
def __init__(self, *fileobjs):
for f in fileobjs:
if not util.safehasattr(f, 'length'):
raise ValueError(
'_multifile only supports file objects that '
'have a length but this one does not:', type(f), f)
self._fileobjs = fileobjs
self._index = 0
@property
def length(self):
return sum(f.length for f in self._fileobjs)
def read(self, amt=None):
if amt <= 0:
return ''.join(f.read() for f in self._fileobjs)
parts = []
while amt and self._index < len(self._fileobjs):
parts.append(self._fileobjs[self._index].read(amt))
got = len(parts[-1])
if got < amt:
self._index += 1
amt -= got
return ''.join(parts)
def seek(self, offset, whence=os.SEEK_SET):
if whence != os.SEEK_SET:
raise NotImplementedError(
'_multifile does not support anything other'
' than os.SEEK_SET for whence on seek()')
if offset != 0:
raise NotImplementedError(
'_multifile only supports seeking to start, but that '
'could be fixed if you need it')
for f in self._fileobjs:
f.seek(0)
self._index = 0
def makev1commandrequest(ui, requestbuilder, caps, capablefn,
repobaseurl, cmd, args):
"""Make an HTTP request to run a command for a version 1 client.
``caps`` is a set of known server capabilities. The value may be
None if capabilities are not yet known.
``capablefn`` is a function to evaluate a capability.
``cmd``, ``args``, and ``data`` define the command, its arguments, and
raw data to pass to it.
"""
if cmd == 'pushkey':
args['data'] = ''
data = args.pop('data', None)
headers = args.pop('headers', {})
ui.debug("sending %s command\n" % cmd)
q = [('cmd', cmd)]
headersize = 0
# Important: don't use self.capable() here or else you end up
# with infinite recursion when trying to look up capabilities
# for the first time.
postargsok = caps is not None and 'httppostargs' in caps
# Send arguments via POST.
if postargsok and args:
strargs = urlreq.urlencode(sorted(args.items()))
if not data:
data = strargs
else:
if isinstance(data, bytes):
i = io.BytesIO(data)
i.length = len(data)
data = i
argsio = io.BytesIO(strargs)
argsio.length = len(strargs)
data = _multifile(argsio, data)
headers[r'X-HgArgs-Post'] = len(strargs)
elif args:
# Calling self.capable() can infinite loop if we are calling
# "capabilities". But that command should never accept wire
# protocol arguments. So this should never happen.
assert cmd != 'capabilities'
httpheader = capablefn('httpheader')
if httpheader:
headersize = int(httpheader.split(',', 1)[0])
# Send arguments via HTTP headers.
if headersize > 0:
# The headers can typically carry more data than the URL.
encargs = urlreq.urlencode(sorted(args.items()))
for header, value in encodevalueinheaders(encargs, 'X-HgArg',
headersize):
headers[header] = value
# Send arguments via query string (Mercurial <1.9).
else:
q += sorted(args.items())
qs = '?%s' % urlreq.urlencode(q)
cu = "%s%s" % (repobaseurl, qs)
size = 0
if util.safehasattr(data, 'length'):
size = data.length
elif data is not None:
size = len(data)
if data is not None and r'Content-Type' not in headers:
headers[r'Content-Type'] = r'application/mercurial-0.1'
# Tell the server we accept application/mercurial-0.2 and multiple
# compression formats if the server is capable of emitting those
# payloads.
# Note: Keep this set empty by default, as client advertisement of
# protocol parameters should only occur after the handshake.
protoparams = set()
mediatypes = set()
if caps is not None:
mt = capablefn('httpmediatype')
if mt:
protoparams.add('0.1')
mediatypes = set(mt.split(','))
protoparams.add('partial-pull')
if '0.2tx' in mediatypes:
protoparams.add('0.2')
if '0.2tx' in mediatypes and capablefn('compression'):
# We /could/ compare supported compression formats and prune
# non-mutually supported or error if nothing is mutually supported.
# For now, send the full list to the server and have it error.
comps = [e.wireprotosupport().name for e in
util.compengines.supportedwireengines(util.CLIENTROLE)]
protoparams.add('comp=%s' % ','.join(comps))
if protoparams:
protoheaders = encodevalueinheaders(' '.join(sorted(protoparams)),
'X-HgProto',
headersize or 1024)
for header, value in protoheaders:
headers[header] = value
varyheaders = []
for header in headers:
if header.lower().startswith(r'x-hg'):
varyheaders.append(header)
if varyheaders:
headers[r'Vary'] = r','.join(sorted(varyheaders))
req = requestbuilder(pycompat.strurl(cu), data, headers)
if data is not None:
ui.debug("sending %d bytes\n" % size)
req.add_unredirected_header(r'Content-Length', r'%d' % size)
return req, cu, qs
def _reqdata(req):
"""Get request data, if any. If no data, returns None."""
if pycompat.ispy3:
return req.data
if not req.has_data():
return None
return req.get_data()
def sendrequest(ui, opener, req):
"""Send a prepared HTTP request.
Returns the response object.
"""
dbg = ui.debug
if (ui.debugflag
and ui.configbool('devel', 'debug.peer-request')):
line = 'devel-peer-request: %s\n'
dbg(line % '%s %s' % (pycompat.bytesurl(req.get_method()),
pycompat.bytesurl(req.get_full_url())))
hgargssize = None
for header, value in sorted(req.header_items()):
header = pycompat.bytesurl(header)
value = pycompat.bytesurl(value)
if header.startswith('X-hgarg-'):
if hgargssize is None:
hgargssize = 0
hgargssize += len(value)
else:
dbg(line % ' %s %s' % (header, value))
if hgargssize is not None:
dbg(line % ' %d bytes of commands arguments in headers'
% hgargssize)
data = _reqdata(req)
if data is not None:
length = getattr(data, 'length', None)
if length is None:
length = len(data)
dbg(line % ' %d bytes of data' % length)
start = util.timer()
res = None
try:
res = opener.open(req)
except urlerr.httperror as inst:
if inst.code == 401:
raise error.Abort(_('authorization failed'))
raise
except httplib.HTTPException as inst:
ui.debug('http error requesting %s\n' %
util.hidepassword(req.get_full_url()))
ui.traceback()
raise IOError(None, inst)
finally:
if ui.debugflag and ui.configbool('devel', 'debug.peer-request'):
code = res.code if res else -1
dbg(line % ' finished in %.4f seconds (%d)'
% (util.timer() - start, code))
# Insert error handlers for common I/O failures.
urlmod.wrapresponse(res)
return res
class RedirectedRepoError(error.RepoError):
def __init__(self, msg, respurl):
super(RedirectedRepoError, self).__init__(msg)
self.respurl = respurl
def parsev1commandresponse(ui, baseurl, requrl, qs, resp, compressible,
allowcbor=False):
# record the url we got redirected to
redirected = False
respurl = pycompat.bytesurl(resp.geturl())
if respurl.endswith(qs):
respurl = respurl[:-len(qs)]
qsdropped = False
else:
qsdropped = True
if baseurl.rstrip('/') != respurl.rstrip('/'):
redirected = True
if not ui.quiet:
ui.warn(_('real URL is %s\n') % respurl)
try:
proto = pycompat.bytesurl(resp.getheader(r'content-type', r''))
except AttributeError:
proto = pycompat.bytesurl(resp.headers.get(r'content-type', r''))
safeurl = util.hidepassword(baseurl)
if proto.startswith('application/hg-error'):
raise error.OutOfBandError(resp.read())
# Pre 1.0 versions of Mercurial used text/plain and
# application/hg-changegroup. We don't support such old servers.
if not proto.startswith('application/mercurial-'):
ui.debug("requested URL: '%s'\n" % util.hidepassword(requrl))
msg = _("'%s' does not appear to be an hg repository:\n"
"---%%<--- (%s)\n%s\n---%%<---\n") % (
safeurl, proto or 'no content-type', resp.read(1024))
# Some servers may strip the query string from the redirect. We
# raise a special error type so callers can react to this specially.
if redirected and qsdropped:
raise RedirectedRepoError(msg, respurl)
else:
raise error.RepoError(msg)
try:
subtype = proto.split('-', 1)[1]
# Unless we end up supporting CBOR in the legacy wire protocol,
# this should ONLY be encountered for the initial capabilities
# request during handshake.
if subtype == 'cbor':
if allowcbor:
return respurl, proto, resp
else:
raise error.RepoError(_('unexpected CBOR response from '
'server'))
version_info = tuple([int(n) for n in subtype.split('.')])
except ValueError:
raise error.RepoError(_("'%s' sent a broken Content-Type "
"header (%s)") % (safeurl, proto))
# TODO consider switching to a decompression reader that uses
# generators.
if version_info == (0, 1):
if compressible:
resp = util.compengines['zlib'].decompressorreader(resp)
elif version_info == (0, 2):
# application/mercurial-0.2 always identifies the compression
# engine in the payload header.
elen = struct.unpack('B', util.readexactly(resp, 1))[0]
ename = util.readexactly(resp, elen)
engine = util.compengines.forwiretype(ename)
resp = engine.decompressorreader(resp)
else:
raise error.RepoError(_("'%s' uses newer protocol %s") %
(safeurl, subtype))
return respurl, proto, resp
class httppeer(wireprotov1peer.wirepeer):
def __init__(self, ui, path, url, opener, requestbuilder, caps):
self.ui = ui
self._path = path
self._url = url
self._caps = caps
self._urlopener = opener
self._requestbuilder = requestbuilder
def __del__(self):
for h in self._urlopener.handlers:
h.close()
getattr(h, "close_all", lambda: None)()
# Begin of ipeerconnection interface.
def url(self):
return self._path
def local(self):
return None
def peer(self):
return self
def canpush(self):
return True
def close(self):
try:
reqs, sent, recv = (self._urlopener.requestscount,
self._urlopener.sentbytescount,
self._urlopener.receivedbytescount)
except AttributeError:
return
self.ui.note(_('(sent %d HTTP requests and %d bytes; '
'received %d bytes in responses)\n') %
(reqs, sent, recv))
# End of ipeerconnection interface.
# Begin of ipeercommands interface.
def capabilities(self):
return self._caps
# End of ipeercommands interface.
def _callstream(self, cmd, _compressible=False, **args):
args = pycompat.byteskwargs(args)
req, cu, qs = makev1commandrequest(self.ui, self._requestbuilder,
self._caps, self.capable,
self._url, cmd, args)
resp = sendrequest(self.ui, self._urlopener, req)
self._url, ct, resp = parsev1commandresponse(self.ui, self._url, cu, qs,
resp, _compressible)
return resp
def _call(self, cmd, **args):
fp = self._callstream(cmd, **args)
try:
return fp.read()
finally:
# if using keepalive, allow connection to be reused
fp.close()
def _callpush(self, cmd, cg, **args):
# have to stream bundle to a temp file because we do not have
# http 1.1 chunked transfer.
types = self.capable('unbundle')
try:
types = types.split(',')
except AttributeError:
# servers older than d1b16a746db6 will send 'unbundle' as a
# boolean capability. They only support headerless/uncompressed
# bundles.
types = [""]
for x in types:
if x in bundle2.bundletypes:
type = x
break
tempname = bundle2.writebundle(self.ui, cg, None, type)
fp = httpconnection.httpsendfile(self.ui, tempname, "rb")
headers = {r'Content-Type': r'application/mercurial-0.1'}
try:
r = self._call(cmd, data=fp, headers=headers, **args)
vals = r.split('\n', 1)
if len(vals) < 2:
raise error.ResponseError(_("unexpected response:"), r)
return vals
except urlerr.httperror:
# Catch and re-raise these so we don't try and treat them
# like generic socket errors. They lack any values in
# .args on Python 3 which breaks our socket.error block.
raise
except socket.error as err:
if err.args[0] in (errno.ECONNRESET, errno.EPIPE):
raise error.Abort(_('push failed: %s') % err.args[1])
raise error.Abort(err.args[1])
finally:
fp.close()
os.unlink(tempname)
def _calltwowaystream(self, cmd, fp, **args):
fh = None
fp_ = None
filename = None
try:
# dump bundle to disk
fd, filename = pycompat.mkstemp(prefix="hg-bundle-", suffix=".hg")
fh = os.fdopen(fd, r"wb")
d = fp.read(4096)
while d:
fh.write(d)
d = fp.read(4096)
fh.close()
# start http push
fp_ = httpconnection.httpsendfile(self.ui, filename, "rb")
headers = {r'Content-Type': r'application/mercurial-0.1'}
return self._callstream(cmd, data=fp_, headers=headers, **args)
finally:
if fp_ is not None:
fp_.close()
if fh is not None:
fh.close()
os.unlink(filename)
def _callcompressable(self, cmd, **args):
return self._callstream(cmd, _compressible=True, **args)
def _abort(self, exception):
raise exception
def sendv2request(ui, opener, requestbuilder, apiurl, permission, requests,
redirect):
wireprotoframing.populatestreamencoders()
uiencoders = ui.configlist(b'experimental', b'httppeer.v2-encoder-order')
if uiencoders:
encoders = []
for encoder in uiencoders:
if encoder not in wireprotoframing.STREAM_ENCODERS:
ui.warn(_(b'wire protocol version 2 encoder referenced in '
b'config (%s) is not known; ignoring\n') % encoder)
else:
encoders.append(encoder)
else:
encoders = wireprotoframing.STREAM_ENCODERS_ORDER
reactor = wireprotoframing.clientreactor(ui,
hasmultiplesend=False,
buffersends=True,
clientcontentencoders=encoders)
handler = wireprotov2peer.clienthandler(ui, reactor,
opener=opener,
requestbuilder=requestbuilder)
url = '%s/%s' % (apiurl, permission)
if len(requests) > 1:
url += '/multirequest'
else:
url += '/%s' % requests[0][0]
ui.debug('sending %d commands\n' % len(requests))
for command, args, f in requests:
ui.debug('sending command %s: %s\n' % (
command, stringutil.pprint(args, indent=2)))
assert not list(handler.callcommand(command, args, f,
redirect=redirect))
# TODO stream this.
body = b''.join(map(bytes, handler.flushcommands()))
# TODO modify user-agent to reflect v2
headers = {
r'Accept': wireprotov2server.FRAMINGTYPE,
r'Content-Type': wireprotov2server.FRAMINGTYPE,
}
req = requestbuilder(pycompat.strurl(url), body, headers)
req.add_unredirected_header(r'Content-Length', r'%d' % len(body))
try:
res = opener.open(req)
except urlerr.httperror as e:
if e.code == 401:
raise error.Abort(_('authorization failed'))
raise
except httplib.HTTPException as e:
ui.traceback()
raise IOError(None, e)
return handler, res
class queuedcommandfuture(pycompat.futures.Future):
"""Wraps result() on command futures to trigger submission on call."""
def result(self, timeout=None):
if self.done():
return pycompat.futures.Future.result(self, timeout)
self._peerexecutor.sendcommands()
# sendcommands() will restore the original __class__ and self.result
# will resolve to Future.result.
return self.result(timeout)
@interfaceutil.implementer(repository.ipeercommandexecutor)
class httpv2executor(object):
def __init__(self, ui, opener, requestbuilder, apiurl, descriptor,
redirect):
self._ui = ui
self._opener = opener
self._requestbuilder = requestbuilder
self._apiurl = apiurl
self._descriptor = descriptor
self._redirect = redirect
self._sent = False
self._closed = False
self._neededpermissions = set()
self._calls = []
self._futures = weakref.WeakSet()
self._responseexecutor = None
self._responsef = None
def __enter__(self):
return self
def __exit__(self, exctype, excvalue, exctb):
self.close()
def callcommand(self, command, args):
if self._sent:
raise error.ProgrammingError('callcommand() cannot be used after '
'commands are sent')
if self._closed:
raise error.ProgrammingError('callcommand() cannot be used after '
'close()')
# The service advertises which commands are available. So if we attempt
# to call an unknown command or pass an unknown argument, we can screen
# for this.
if command not in self._descriptor['commands']:
raise error.ProgrammingError(
'wire protocol command %s is not available' % command)
cmdinfo = self._descriptor['commands'][command]
unknownargs = set(args.keys()) - set(cmdinfo.get('args', {}))
if unknownargs:
raise error.ProgrammingError(
'wire protocol command %s does not accept argument: %s' % (
command, ', '.join(sorted(unknownargs))))
self._neededpermissions |= set(cmdinfo['permissions'])
# TODO we /could/ also validate types here, since the API descriptor
# includes types...
f = pycompat.futures.Future()
# Monkeypatch it so result() triggers sendcommands(), otherwise result()
# could deadlock.
f.__class__ = queuedcommandfuture
f._peerexecutor = self
self._futures.add(f)
self._calls.append((command, args, f))
return f
def sendcommands(self):
if self._sent:
return
if not self._calls:
return
self._sent = True
# Unhack any future types so caller sees a clean type and so we
# break reference cycle.
for f in self._futures:
if isinstance(f, queuedcommandfuture):
f.__class__ = pycompat.futures.Future
f._peerexecutor = None
# Mark the future as running and filter out cancelled futures.
calls = [(command, args, f)
for command, args, f in self._calls
if f.set_running_or_notify_cancel()]
# Clear out references, prevent improper object usage.
self._calls = None
if not calls:
return
permissions = set(self._neededpermissions)
if 'push' in permissions and 'pull' in permissions:
permissions.remove('pull')
if len(permissions) > 1:
raise error.RepoError(_('cannot make request requiring multiple '
'permissions: %s') %
_(', ').join(sorted(permissions)))
permission = {
'push': 'rw',
'pull': 'ro',
}[permissions.pop()]
handler, resp = sendv2request(
self._ui, self._opener, self._requestbuilder, self._apiurl,
permission, calls, self._redirect)
# TODO we probably want to validate the HTTP code, media type, etc.
self._responseexecutor = pycompat.futures.ThreadPoolExecutor(1)
self._responsef = self._responseexecutor.submit(self._handleresponse,
handler, resp)
def close(self):
if self._closed:
return
self.sendcommands()
self._closed = True
if not self._responsef:
return
# TODO ^C here may not result in immediate program termination.
try:
self._responsef.result()
finally:
self._responseexecutor.shutdown(wait=True)
self._responsef = None
self._responseexecutor = None
# If any of our futures are still in progress, mark them as
# errored, otherwise a result() could wait indefinitely.
for f in self._futures:
if not f.done():
f.set_exception(error.ResponseError(
_('unfulfilled command response')))
self._futures = None
def _handleresponse(self, handler, resp):
# Called in a thread to read the response.
while handler.readdata(resp):
pass
@interfaceutil.implementer(repository.ipeerv2)
class httpv2peer(object):
def __init__(self, ui, repourl, apipath, opener, requestbuilder,
apidescriptor):
self.ui = ui
self.apidescriptor = apidescriptor
if repourl.endswith('/'):
repourl = repourl[:-1]
self._url = repourl
self._apipath = apipath
self._apiurl = '%s/%s' % (repourl, apipath)
self._opener = opener
self._requestbuilder = requestbuilder
self._redirect = wireprotov2peer.supportedredirects(ui, apidescriptor)
# Start of ipeerconnection.
def url(self):
return self._url
def local(self):
return None
def peer(self):
return self
def canpush(self):
# TODO change once implemented.
return False
def close(self):
self.ui.note(_('(sent %d HTTP requests and %d bytes; '
'received %d bytes in responses)\n') %
(self._opener.requestscount,
self._opener.sentbytescount,
self._opener.receivedbytescount))
# End of ipeerconnection.
# Start of ipeercapabilities.
def capable(self, name):
# The capabilities used internally historically map to capabilities
# advertised from the "capabilities" wire protocol command. However,
# version 2 of that command works differently.
# Maps to commands that are available.
if name in ('branchmap', 'getbundle', 'known', 'lookup', 'pushkey'):
return True
# Other concepts.
if name in ('bundle2'):
return True
# Alias command-* to presence of command of that name.
if name.startswith('command-'):
return name[len('command-'):] in self.apidescriptor['commands']
return False
def requirecap(self, name, purpose):
if self.capable(name):
return
raise error.CapabilityError(
_('cannot %s; client or remote repository does not support the '
'\'%s\' capability') % (purpose, name))
# End of ipeercapabilities.
def _call(self, name, **args):
with self.commandexecutor() as e:
return e.callcommand(name, args).result()
def commandexecutor(self):
return httpv2executor(self.ui, self._opener, self._requestbuilder,
self._apiurl, self.apidescriptor, self._redirect)
# Registry of API service names to metadata about peers that handle it.
#
# The following keys are meaningful:
#
# init
# Callable receiving (ui, repourl, servicepath, opener, requestbuilder,
# apidescriptor) to create a peer.
#
# priority
# Integer priority for the service. If we could choose from multiple
# services, we choose the one with the highest priority.
API_PEERS = {
wireprototypes.HTTP_WIREPROTO_V2: {
'init': httpv2peer,
'priority': 50,
},
}
def performhandshake(ui, url, opener, requestbuilder):
# The handshake is a request to the capabilities command.
caps = None
def capable(x):
raise error.ProgrammingError('should not be called')
args = {}
# The client advertises support for newer protocols by adding an
# X-HgUpgrade-* header with a list of supported APIs and an
# X-HgProto-* header advertising which serializing formats it supports.
# We only support the HTTP version 2 transport and CBOR responses for
# now.
advertisev2 = ui.configbool('experimental', 'httppeer.advertise-v2')
if advertisev2:
args['headers'] = {
r'X-HgProto-1': r'cbor',
}
args['headers'].update(
encodevalueinheaders(' '.join(sorted(API_PEERS)),
'X-HgUpgrade',
# We don't know the header limit this early.
# So make it small.
1024))
req, requrl, qs = makev1commandrequest(ui, requestbuilder, caps,
capable, url, 'capabilities',
args)
resp = sendrequest(ui, opener, req)
# The server may redirect us to the repo root, stripping the
# ?cmd=capabilities query string from the URL. The server would likely
# return HTML in this case and ``parsev1commandresponse()`` would raise.
# We catch this special case and re-issue the capabilities request against
# the new URL.
#
# We should ideally not do this, as a redirect that drops the query
# string from the URL is arguably a server bug. (Garbage in, garbage out).
# However, Mercurial clients for several years appeared to handle this
# issue without behavior degradation. And according to issue 5860, it may
# be a longstanding bug in some server implementations. So we allow a
# redirect that drops the query string to "just work."
try:
respurl, ct, resp = parsev1commandresponse(ui, url, requrl, qs, resp,
compressible=False,
allowcbor=advertisev2)
except RedirectedRepoError as e:
req, requrl, qs = makev1commandrequest(ui, requestbuilder, caps,
capable, e.respurl,
'capabilities', args)
resp = sendrequest(ui, opener, req)
respurl, ct, resp = parsev1commandresponse(ui, url, requrl, qs, resp,
compressible=False,
allowcbor=advertisev2)
try:
rawdata = resp.read()
finally:
resp.close()
if not ct.startswith('application/mercurial-'):
raise error.ProgrammingError('unexpected content-type: %s' % ct)
if advertisev2:
if ct == 'application/mercurial-cbor':
try:
info = cborutil.decodeall(rawdata)[0]
except cborutil.CBORDecodeError:
raise error.Abort(_('error decoding CBOR from remote server'),
hint=_('try again and consider contacting '
'the server operator'))
# We got a legacy response. That's fine.
elif ct in ('application/mercurial-0.1', 'application/mercurial-0.2'):
info = {
'v1capabilities': set(rawdata.split())
}
else:
raise error.RepoError(
_('unexpected response type from server: %s') % ct)
else:
info = {
'v1capabilities': set(rawdata.split())
}
return respurl, info
def makepeer(ui, path, opener=None, requestbuilder=urlreq.request):
"""Construct an appropriate HTTP peer instance.
``opener`` is an ``url.opener`` that should be used to establish
connections, perform HTTP requests.
``requestbuilder`` is the type used for constructing HTTP requests.
It exists as an argument so extensions can override the default.
"""
u = util.url(path)
if u.query or u.fragment:
raise error.Abort(_('unsupported URL component: "%s"') %
(u.query or u.fragment))
# urllib cannot handle URLs with embedded user or passwd.
url, authinfo = u.authinfo()
ui.debug('using %s\n' % url)
opener = opener or urlmod.opener(ui, authinfo)
respurl, info = performhandshake(ui, url, opener, requestbuilder)
# Given the intersection of APIs that both we and the server support,
# sort by their advertised priority and pick the first one.
#
# TODO consider making this request-based and interface driven. For
# example, the caller could say "I want a peer that does X." It's quite
# possible that not all peers would do that. Since we know the service
# capabilities, we could filter out services not meeting the
# requirements. Possibly by consulting the interfaces defined by the
# peer type.
apipeerchoices = set(info.get('apis', {}).keys()) & set(API_PEERS.keys())
preferredchoices = sorted(apipeerchoices,
key=lambda x: API_PEERS[x]['priority'],
reverse=True)
for service in preferredchoices:
apipath = '%s/%s' % (info['apibase'].rstrip('/'), service)
return API_PEERS[service]['init'](ui, respurl, apipath, opener,
requestbuilder,
info['apis'][service])
# Failed to construct an API peer. Fall back to legacy.
return httppeer(ui, path, respurl, opener, requestbuilder,
info['v1capabilities'])
def instance(ui, path, create, intents=None, createopts=None):
if create:
raise error.Abort(_('cannot create new http repository'))
try:
if path.startswith('https:') and not urlmod.has_https:
raise error.Abort(_('Python support for SSL and HTTPS '
'is not installed'))
inst = makepeer(ui, path)
return inst
except error.RepoError as httpexception:
try:
r = statichttprepo.instance(ui, "static-" + path, create)
ui.note(_('(falling back to static-http)\n'))
return r
except error.RepoError:
raise httpexception # use the original http RepoError instead