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wireproto: define and implement protocol for issuing requests The existing HTTP and SSH wire protocols suffer from a host of flaws and shortcomings. I've been wanting to rewrite the protocol for a while now. Supporting partial clone - which will require new wire protocol commands and capabilities - and other advanced server functionality will be much easier if we start from a clean slate and don't have to be constrained by limitations of the existing wire protocol. This commit starts to introduce a new data exchange format for use over the wire protocol. The new protocol is built on top of "frames," which are atomic units of metadata + data. Frames will make it easier to implement proxies and other mechanisms that want to inspect data without having to maintain state. The existing frame metadata is very minimal and it will evolve heavily. (We will eventually support things like concurrent requests, out-of-order responses, compression, side-channels for status updates, etc. Some of these will require additions to the frame header.) Another benefit of frames is that all reads are of a fixed size. A reader works by consuming a frame header, extracting the payload length, then reading that many bytes. No lookahead, buffering, or memory reallocations are needed. The new protocol attempts to be transport agnostic. I want all that's required to use the new protocol to be a pair of unidirectional, half-duplex pipes. (Yes, we will eventually make use of full-duplex pipes, but that's for another commit.) Notably, when the SSH transport switches to this new protocol, stderr will be unused. This is by design: the lack of stderr on HTTP harms protocol behavior there. By shoehorning everything into a pair of pipes, we can have more consistent behavior across transports. We currently only define the client side parts of the new protocol, specifically the bits for requesting that a command run. This keeps the new code and feature small and somewhat easy to review. We add support to `hg debugwireproto` for writing frames into HTTP request bodies. Our tests that issue commands to the new HTTP endpoint have been updated to transmit frames. The server bits haven't been touched to consume the frames yet. This will occur in the next commit... Astute readers may notice that the command name is transmitted in both the HTTP request URL and the command request frame. This is partially a kludge from me initially implementing the frame-based protocol for SSH first. But it is also a feature: I intend to eventually support issuing multiple commands per HTTP request. This will allow us to replace the abomination that is the "batch" wire protocol command with a protocol-level mechanism for performing multi-dispatch. Because I want the frame-based protocol to be as similar as possible across transports, I'd rather we (redundantly) include the command name in the frame than differ behavior between transports that have out-of-band routing information (like HTTP) readily available. Differential Revision: https://phab.mercurial-scm.org/D2851
author Gregory Szorc <gregory.szorc@gmail.com>
date Mon, 19 Mar 2018 16:49:53 -0700
parents 9c636ec1ef37
children d4a2e0d5d042
line wrap: on
line source

# hook.py - hook support for mercurial
#
# Copyright 2007 Matt Mackall <mpm@selenic.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 os
import sys

from .i18n import _
from . import (
    demandimport,
    encoding,
    error,
    extensions,
    pycompat,
    util,
)

def _pythonhook(ui, repo, htype, hname, funcname, args, throw):
    '''call python hook. hook is callable object, looked up as
    name in python module. if callable returns "true", hook
    fails, else passes. if hook raises exception, treated as
    hook failure. exception propagates if throw is "true".

    reason for "true" meaning "hook failed" is so that
    unmodified commands (e.g. mercurial.commands.update) can
    be run as hooks without wrappers to convert return values.'''

    if callable(funcname):
        obj = funcname
        funcname = pycompat.sysbytes(obj.__module__ + r"." + obj.__name__)
    else:
        d = funcname.rfind('.')
        if d == -1:
            raise error.HookLoadError(
                _('%s hook is invalid: "%s" not in a module')
                % (hname, funcname))
        modname = funcname[:d]
        oldpaths = sys.path
        if util.mainfrozen():
            # binary installs require sys.path manipulation
            modpath, modfile = os.path.split(modname)
            if modpath and modfile:
                sys.path = sys.path[:] + [modpath]
                modname = modfile
        with demandimport.deactivated():
            try:
                obj = __import__(pycompat.sysstr(modname))
            except (ImportError, SyntaxError):
                e1 = sys.exc_info()
                try:
                    # extensions are loaded with hgext_ prefix
                    obj = __import__(r"hgext_%s" % pycompat.sysstr(modname))
                except (ImportError, SyntaxError):
                    e2 = sys.exc_info()
                    if ui.tracebackflag:
                        ui.warn(_('exception from first failed import '
                                  'attempt:\n'))
                    ui.traceback(e1)
                    if ui.tracebackflag:
                        ui.warn(_('exception from second failed import '
                                  'attempt:\n'))
                    ui.traceback(e2)

                    if not ui.tracebackflag:
                        tracebackhint = _(
                            'run with --traceback for stack trace')
                    else:
                        tracebackhint = None
                    raise error.HookLoadError(
                        _('%s hook is invalid: import of "%s" failed') %
                        (hname, modname), hint=tracebackhint)
        sys.path = oldpaths
        try:
            for p in funcname.split('.')[1:]:
                obj = getattr(obj, p)
        except AttributeError:
            raise error.HookLoadError(
                _('%s hook is invalid: "%s" is not defined')
                % (hname, funcname))
        if not callable(obj):
            raise error.HookLoadError(
                _('%s hook is invalid: "%s" is not callable')
                % (hname, funcname))

    ui.note(_("calling hook %s: %s\n") % (hname, funcname))
    starttime = util.timer()

    try:
        r = obj(ui=ui, repo=repo, hooktype=htype, **pycompat.strkwargs(args))
    except Exception as exc:
        if isinstance(exc, error.Abort):
            ui.warn(_('error: %s hook failed: %s\n') %
                         (hname, exc.args[0]))
        else:
            ui.warn(_('error: %s hook raised an exception: '
                      '%s\n') % (hname, encoding.strtolocal(str(exc))))
        if throw:
            raise
        if not ui.tracebackflag:
            ui.warn(_('(run with --traceback for stack trace)\n'))
        ui.traceback()
        return True, True
    finally:
        duration = util.timer() - starttime
        ui.log('pythonhook', 'pythonhook-%s: %s finished in %0.2f seconds\n',
               htype, funcname, duration)
    if r:
        if throw:
            raise error.HookAbort(_('%s hook failed') % hname)
        ui.warn(_('warning: %s hook failed\n') % hname)
    return r, False

def _exthook(ui, repo, htype, name, cmd, args, throw):
    ui.note(_("running hook %s: %s\n") % (name, cmd))

    starttime = util.timer()
    env = {}

    # make in-memory changes visible to external process
    if repo is not None:
        tr = repo.currenttransaction()
        repo.dirstate.write(tr)
        if tr and tr.writepending():
            env['HG_PENDING'] = repo.root
    env['HG_HOOKTYPE'] = htype
    env['HG_HOOKNAME'] = name

    for k, v in args.iteritems():
        if callable(v):
            v = v()
        if isinstance(v, dict):
            # make the dictionary element order stable across Python
            # implementations
            v = ('{' +
                 ', '.join('%r: %r' % i for i in sorted(v.iteritems())) +
                 '}')
        env['HG_' + k.upper()] = v

    if repo:
        cwd = repo.root
    else:
        cwd = pycompat.getcwd()
    r = ui.system(cmd, environ=env, cwd=cwd, blockedtag='exthook-%s' % (name,))

    duration = util.timer() - starttime
    ui.log('exthook', 'exthook-%s: %s finished in %0.2f seconds\n',
           name, cmd, duration)
    if r:
        desc, r = util.explainexit(r)
        if throw:
            raise error.HookAbort(_('%s hook %s') % (name, desc))
        ui.warn(_('warning: %s hook %s\n') % (name, desc))
    return r

# represent an untrusted hook command
_fromuntrusted = object()

def _allhooks(ui):
    """return a list of (hook-id, cmd) pairs sorted by priority"""
    hooks = _hookitems(ui)
    # Be careful in this section, propagating the real commands from untrusted
    # sources would create a security vulnerability, make sure anything altered
    # in that section uses "_fromuntrusted" as its command.
    untrustedhooks = _hookitems(ui, _untrusted=True)
    for name, value in untrustedhooks.items():
        trustedvalue = hooks.get(name, (None, None, name, _fromuntrusted))
        if value != trustedvalue:
            (lp, lo, lk, lv) = trustedvalue
            hooks[name] = (lp, lo, lk, _fromuntrusted)
    # (end of the security sensitive section)
    return [(k, v) for p, o, k, v in sorted(hooks.values())]

def _hookitems(ui, _untrusted=False):
    """return all hooks items ready to be sorted"""
    hooks = {}
    for name, cmd in ui.configitems('hooks', untrusted=_untrusted):
        if not name.startswith('priority'):
            priority = ui.configint('hooks', 'priority.%s' % name, 0)
            hooks[name] = (-priority, len(hooks), name, cmd)
    return hooks

_redirect = False
def redirect(state):
    global _redirect
    _redirect = state

def hashook(ui, htype):
    """return True if a hook is configured for 'htype'"""
    if not ui.callhooks:
        return False
    for hname, cmd in _allhooks(ui):
        if hname.split('.')[0] == htype and cmd:
            return True
    return False

def hook(ui, repo, htype, throw=False, **args):
    if not ui.callhooks:
        return False

    hooks = []
    for hname, cmd in _allhooks(ui):
        if hname.split('.')[0] == htype and cmd:
            hooks.append((hname, cmd))

    res = runhooks(ui, repo, htype, hooks, throw=throw, **args)
    r = False
    for hname, cmd in hooks:
        r = res[hname][0] or r
    return r

def runhooks(ui, repo, htype, hooks, throw=False, **args):
    args = pycompat.byteskwargs(args)
    res = {}
    oldstdout = -1

    try:
        for hname, cmd in hooks:
            if oldstdout == -1 and _redirect:
                try:
                    stdoutno = util.stdout.fileno()
                    stderrno = util.stderr.fileno()
                    # temporarily redirect stdout to stderr, if possible
                    if stdoutno >= 0 and stderrno >= 0:
                        util.stdout.flush()
                        oldstdout = os.dup(stdoutno)
                        os.dup2(stderrno, stdoutno)
                except (OSError, AttributeError):
                    # files seem to be bogus, give up on redirecting (WSGI, etc)
                    pass

            if cmd is _fromuntrusted:
                if throw:
                    raise error.HookAbort(
                        _('untrusted hook %s not executed') % hname,
                        hint = _("see 'hg help config.trusted'"))
                ui.warn(_('warning: untrusted hook %s not executed\n') % hname)
                r = 1
                raised = False
            elif callable(cmd):
                r, raised = _pythonhook(ui, repo, htype, hname, cmd, args,
                                        throw)
            elif cmd.startswith('python:'):
                if cmd.count(':') >= 2:
                    path, cmd = cmd[7:].rsplit(':', 1)
                    path = util.expandpath(path)
                    if repo:
                        path = os.path.join(repo.root, path)
                    try:
                        mod = extensions.loadpath(path, 'hghook.%s' % hname)
                    except Exception:
                        ui.write(_("loading %s hook failed:\n") % hname)
                        raise
                    hookfn = getattr(mod, cmd)
                else:
                    hookfn = cmd[7:].strip()
                r, raised = _pythonhook(ui, repo, htype, hname, hookfn, args,
                                        throw)
            else:
                r = _exthook(ui, repo, htype, hname, cmd, args, throw)
                raised = False

            res[hname] = r, raised
    finally:
        # The stderr is fully buffered on Windows when connected to a pipe.
        # A forcible flush is required to make small stderr data in the
        # remote side available to the client immediately.
        util.stderr.flush()

        if _redirect and oldstdout >= 0:
            util.stdout.flush()  # write hook output to stderr fd
            os.dup2(oldstdout, stdoutno)
            os.close(oldstdout)

    return res