##// END OF EJS Templates
exchangev2: fetch manifest revisions...
exchangev2: fetch manifest revisions Now that the server has support for retrieving manifest data, we can implement the client bits to call it. We teach the changeset fetching code to capture the manifest revisions that are encountered on incoming changesets. We then feed this into a new function which filters out known manifests and then batches up manifest data requests to the server. This is different from the previous wire protocol in a few notable ways. First, the client fetches manifest data separately and explicitly. Before, we'd ask the server for data pertaining to some changesets (via a "getbundle" command) and manifests (and files) would be sent automatically. Providing an API for looking up just manifest data separately gives clients much more flexibility for manifest management. For example, a client may choose to only fetch manifest data on demand instead of prefetching it (i.e. partial clone). Second, we send N commands to the server for manifest retrieval instead of 1. This property has a few nice side-effects. One is that the deterministic nature of the requests lends itself to server-side caching. For example, say the remote has 50,000 manifests. If the server is configured to cache responses, each time a new commit arrives, you will have a cache miss and need to regenerate all outgoing data. But if you makes N requests requesting 10,000 manifests each, a new commit will still yield cache hits on the initial, unchanged manifest batches/requests. A derived benefit from these properties is that resumable clone is conceptually simpler to implement. When making a monolithic request for all of the repository data, recovering from an interrupted clone is hard because the server was in the driver's seat and was maintaining state about all the data that needed transferred. With the client driving fetching, the client can persist the set of unfetched entities and retry/resume a fetch if something goes wrong. Or we can fetch all data N changesets at a time and slowly build up a repository. This approach is drastically easier to implement when we have server APIs exposing low-level repository primitives (such as manifests and files). We don't yet support tree manifests. But it should be possible to implement that with the existing wire protocol command. Differential Revision: https://phab.mercurial-scm.org/D4489

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httppeer.py
1006 lines | 33.9 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
def _wraphttpresponse(resp):
"""Wrap an HTTPResponse with common error handlers.
This ensures that any I/O from any consumer raises the appropriate
error and messaging.
"""
origread = resp.read
class readerproxy(resp.__class__):
def read(self, size=None):
try:
return origread(size)
except httplib.IncompleteRead as e:
# e.expected is an integer if length known or None otherwise.
if e.expected:
got = len(e.partial)
total = e.expected + got
msg = _('HTTP request error (incomplete response; '
'expected %d bytes got %d)') % (total, got)
else:
msg = _('HTTP request error (incomplete response)')
raise error.PeerTransportError(
msg,
hint=_('this may be an intermittent network failure; '
'if the error persists, consider contacting the '
'network or server operator'))
except httplib.HTTPException as e:
raise error.PeerTransportError(
_('HTTP request error (%s)') % e,
hint=_('this may be an intermittent network failure; '
'if the error persists, consider contacting the '
'network or server operator'))
resp.__class__ = readerproxy
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.
_wraphttpresponse(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):
pass
# 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):
reactor = wireprotoframing.clientreactor(hasmultiplesend=False,
buffersends=True)
handler = wireprotov2peer.clienthandler(ui, reactor)
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))
# 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):
self._ui = ui
self._opener = opener
self._requestbuilder = requestbuilder
self._apiurl = apiurl
self._descriptor = descriptor
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)
# 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.readframe(resp):
pass
# TODO implement interface for version 2 peers
@interfaceutil.implementer(repository.ipeerconnection,
repository.ipeercapabilities,
repository.ipeerrequests)
class httpv2peer(object):
def __init__(self, ui, repourl, apipath, opener, requestbuilder,
apidescriptor):
self.ui = ui
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._descriptor = 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):
pass
# 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._descriptor['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 %r '
'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._descriptor)
# 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