# ui.py - user interface bits for mercurial
#
# Copyright 2005-2007 Olivia Mackall <olivia@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.
import collections
import contextlib
import datetime
import errno
import inspect
import os
import re
import signal
import socket
import subprocess
import sys
import traceback
from typing import (
Any,
Callable,
Dict,
List,
NoReturn,
Optional,
Tuple,
Type,
TypeVar,
Union,
cast,
overload,
)
from .i18n import _
from .node import hex
from .pycompat import (
getattr,
open,
)
from . import (
color,
config,
configitems,
encoding,
error,
extensions,
formatter,
loggingutil,
progress,
pycompat,
rcutil,
scmutil,
util,
)
from .utils import (
dateutil,
procutil,
resourceutil,
stringutil,
urlutil,
)
_ConfigItems = Dict[Tuple[bytes, bytes], object] # {(section, name) : value}
# The **opts args of the various write() methods can be basically anything, but
# there's no way to express it as "anything but str". So type it to be the
# handful of known types that are used.
_MsgOpts = Union[bytes, bool, List["_PromptChoice"]]
_PromptChoice = Tuple[bytes, bytes]
_Tui = TypeVar('_Tui', bound="ui")
urlreq = util.urlreq
# for use with str.translate(None, _keepalnum), to keep just alphanumerics
_keepalnum: bytes = b''.join(
c for c in map(pycompat.bytechr, range(256)) if not c.isalnum()
)
# The config knobs that will be altered (if unset) by ui.tweakdefaults.
tweakrc: bytes = b"""
[ui]
# The rollback command is dangerous. As a rule, don't use it.
rollback = False
# Make `hg status` report copy information
statuscopies = yes
# Prefer curses UIs when available. Revert to plain-text with `text`.
interface = curses
# Make compatible commands emit cwd-relative paths by default.
relative-paths = yes
[commands]
# Grep working directory by default.
grep.all-files = True
# Refuse to perform an `hg update` that would cause a file content merge
update.check = noconflict
# Show conflicts information in `hg status`
status.verbose = True
# Make `hg resolve` with no action (like `-m`) fail instead of re-merging.
resolve.explicit-re-merge = True
[diff]
git = 1
showfunc = 1
word-diff = 1
"""
samplehgrcs: Dict[bytes, bytes] = {
b'user': b"""# example user config (see 'hg help config' for more info)
[ui]
# name and email, e.g.
# username = Jane Doe <jdoe@example.com>
username =
# We recommend enabling tweakdefaults to get slight improvements to
# the UI over time. Make sure to set HGPLAIN in the environment when
# writing scripts!
# tweakdefaults = True
# uncomment to disable color in command output
# (see 'hg help color' for details)
# color = never
# uncomment to disable command output pagination
# (see 'hg help pager' for details)
# paginate = never
[extensions]
# uncomment the lines below to enable some popular extensions
# (see 'hg help extensions' for more info)
#
# histedit =
# rebase =
# uncommit =
""",
b'cloned': b"""# example repository config (see 'hg help config' for more info)
[paths]
default = %s
# path aliases to other clones of this repo in URLs or filesystem paths
# (see 'hg help config.paths' for more info)
#
# default:pushurl = ssh://jdoe@example.net/hg/jdoes-fork
# my-fork = ssh://jdoe@example.net/hg/jdoes-fork
# my-clone = /home/jdoe/jdoes-clone
[ui]
# name and email (local to this repository, optional), e.g.
# username = Jane Doe <jdoe@example.com>
""",
b'local': b"""# example repository config (see 'hg help config' for more info)
[paths]
# path aliases to other clones of this repo in URLs or filesystem paths
# (see 'hg help config.paths' for more info)
#
# default = http://example.com/hg/example-repo
# default:pushurl = ssh://jdoe@example.net/hg/jdoes-fork
# my-fork = ssh://jdoe@example.net/hg/jdoes-fork
# my-clone = /home/jdoe/jdoes-clone
[ui]
# name and email (local to this repository, optional), e.g.
# username = Jane Doe <jdoe@example.com>
""",
b'global': b"""# example system-wide hg config (see 'hg help config' for more info)
[ui]
# uncomment to disable color in command output
# (see 'hg help color' for details)
# color = never
# uncomment to disable command output pagination
# (see 'hg help pager' for details)
# paginate = never
[extensions]
# uncomment the lines below to enable some popular extensions
# (see 'hg help extensions' for more info)
#
# blackbox =
# churn =
""",
}
def _maybestrurl(maybebytes):
return pycompat.rapply(pycompat.strurl, maybebytes)
def _maybebytesurl(maybestr):
return pycompat.rapply(pycompat.bytesurl, maybestr)
class httppasswordmgrdbproxy:
"""Delays loading urllib2 until it's needed."""
def __init__(self) -> None:
self._mgr = None
def _get_mgr(self):
if self._mgr is None:
self._mgr = urlreq.httppasswordmgrwithdefaultrealm()
return self._mgr
def add_password(self, realm, uris, user, passwd):
return self._get_mgr().add_password(
_maybestrurl(realm),
_maybestrurl(uris),
_maybestrurl(user),
_maybestrurl(passwd),
)
def find_user_password(self, realm, uri):
mgr = self._get_mgr()
return _maybebytesurl(
mgr.find_user_password(_maybestrurl(realm), _maybestrurl(uri))
)
def _catchterm(*args) -> NoReturn:
raise error.SignalInterrupt
# unique object used to detect no default value has been provided when
# retrieving configuration value.
_unset = object()
# _reqexithandlers: callbacks run at the end of a request
_reqexithandlers: List = []
class ui:
def __init__(self, src: Optional["ui"] = None) -> None:
"""Create a fresh new ui object if no src given
Use uimod.ui.load() to create a ui which knows global and user configs.
In most cases, you should use ui.copy() to create a copy of an existing
ui object.
"""
# _buffers: used for temporary capture of output
self._buffers = []
# 3-tuple describing how each buffer in the stack behaves.
# Values are (capture stderr, capture subprocesses, apply labels).
self._bufferstates = []
# When a buffer is active, defines whether we are expanding labels.
# This exists to prevent an extra list lookup.
self._bufferapplylabels = None
self.quiet = self.verbose = self.debugflag = self.tracebackflag = False
self._reportuntrusted = True
self._knownconfig = configitems.coreitems
self._ocfg = config.config() # overlay
self._tcfg = config.config() # trusted
self._ucfg = config.config() # untrusted
self._trustusers = set()
self._trustgroups = set()
self.callhooks = True
# hold the root to use for each [paths] entry
self._path_to_root = {}
# Insecure server connections requested.
self.insecureconnections = False
# Blocked time
self.logblockedtimes = False
# color mode: see mercurial/color.py for possible value
self._colormode = None
self._terminfoparams = {}
self._styles = {}
self._uninterruptible = False
self.showtimestamp = False
if src:
self._fout = src._fout
self._ferr = src._ferr
self._fin = src._fin
self._fmsg = src._fmsg
self._fmsgout = src._fmsgout
self._fmsgerr = src._fmsgerr
self._finoutredirected = src._finoutredirected
self._loggers = src._loggers.copy()
self.pageractive = src.pageractive
self._disablepager = src._disablepager
self._tweaked = src._tweaked
self._tcfg = src._tcfg.copy()
self._ucfg = src._ucfg.copy()
self._ocfg = src._ocfg.copy()
self._trustusers = src._trustusers.copy()
self._trustgroups = src._trustgroups.copy()
self.environ = src.environ
self.callhooks = src.callhooks
self._path_to_root = src._path_to_root
self.insecureconnections = src.insecureconnections
self._colormode = src._colormode
self._terminfoparams = src._terminfoparams.copy()
self._styles = src._styles.copy()
self.fixconfig()
self.httppasswordmgrdb = src.httppasswordmgrdb
self._blockedtimes = src._blockedtimes
else:
self._fout = procutil.stdout
self._ferr = procutil.stderr
self._fin = procutil.stdin
self._fmsg = None
self._fmsgout = self.fout # configurable
self._fmsgerr = self.ferr # configurable
self._finoutredirected = False
self._loggers = {}
self.pageractive = False
self._disablepager = False
self._tweaked = False
# shared read-only environment
self.environ = encoding.environ
self.httppasswordmgrdb = httppasswordmgrdbproxy()
self._blockedtimes = collections.defaultdict(int)
allowed = self.configlist(b'experimental', b'exportableenviron')
if b'*' in allowed:
self._exportableenviron = self.environ
else:
self._exportableenviron = {}
for k in allowed:
if k in self.environ:
self._exportableenviron[k] = self.environ[k]
def _new_source(self) -> None:
self._ocfg.new_source()
self._tcfg.new_source()
self._ucfg.new_source()
@classmethod
def load(cls: Type[_Tui]) -> _Tui:
"""Create a ui and load global and user configs"""
u = cls()
# we always trust global config files and environment variables
for t, f in rcutil.rccomponents():
if t == b'path':
u.readconfig(f, trust=True)
elif t == b'resource':
u.read_resource_config(f, trust=True)
elif t == b'items':
u._new_source()
sections = set()
for section, name, value, source in f:
# do not set u._ocfg
# XXX clean this up once immutable config object is a thing
u._tcfg.set(section, name, value, source)
u._ucfg.set(section, name, value, source)
sections.add(section)
for section in sections:
u.fixconfig(section=section)
else:
raise error.ProgrammingError(b'unknown rctype: %s' % t)
u._maybetweakdefaults()
u._new_source() # anything after that is a different level
return u
def _maybetweakdefaults(self) -> None:
if not self.configbool(b'ui', b'tweakdefaults'):
return
if self._tweaked or self.plain(b'tweakdefaults'):
return
# Note: it is SUPER IMPORTANT that you set self._tweaked to
# True *before* any calls to setconfig(), otherwise you'll get
# infinite recursion between setconfig and this method.
#
# TODO: We should extract an inner method in setconfig() to
# avoid this weirdness.
self._tweaked = True
tmpcfg = config.config()
tmpcfg.parse(b'<tweakdefaults>', tweakrc)
for section in tmpcfg:
for name, value in tmpcfg.items(section):
if not self.hasconfig(section, name):
self.setconfig(section, name, value, b"<tweakdefaults>")
def copy(self: _Tui) -> _Tui:
return self.__class__(self)
def resetstate(self) -> None:
"""Clear internal state that shouldn't persist across commands"""
if self._progbar:
self._progbar.resetstate() # reset last-print time of progress bar
self.httppasswordmgrdb = httppasswordmgrdbproxy()
@contextlib.contextmanager
def timeblockedsection(self, key: bytes):
# this is open-coded below - search for timeblockedsection to find them
starttime = util.timer()
try:
yield
finally:
self._blockedtimes[key + b'_blocked'] += (
util.timer() - starttime
) * 1000
@contextlib.contextmanager
def uninterruptible(self):
"""Mark an operation as unsafe.
Most operations on a repository are safe to interrupt, but a
few are risky (for example repair.strip). This context manager
lets you advise Mercurial that something risky is happening so
that control-C etc can be blocked if desired.
"""
enabled = self.configbool(b'experimental', b'nointerrupt')
if enabled and self.configbool(
b'experimental', b'nointerrupt-interactiveonly'
):
enabled = self.interactive()
if self._uninterruptible or not enabled:
# if nointerrupt support is turned off, the process isn't
# interactive, or we're already in an uninterruptible
# block, do nothing.
yield
return
def warn():
self.warn(_(b"shutting down cleanly\n"))
self.warn(
_(b"press ^C again to terminate immediately (dangerous)\n")
)
return True
with procutil.uninterruptible(warn):
try:
self._uninterruptible = True
yield
finally:
self._uninterruptible = False
def formatter(self, topic: bytes, opts):
return formatter.formatter(self, self, topic, opts)
def _trusted(self, fp, f: bytes) -> bool:
st = util.fstat(fp)
if util.isowner(st):
return True
tusers, tgroups = self._trustusers, self._trustgroups
if b'*' in tusers or b'*' in tgroups:
return True
user = util.username(st.st_uid)
group = util.groupname(st.st_gid)
if user in tusers or group in tgroups or user == util.username():
return True
if self._reportuntrusted:
self.warn(
_(
b'not trusting file %s from untrusted '
b'user %s, group %s\n'
)
% (f, user, group)
)
return False
def read_resource_config(
self, name, root=None, trust=False, sections=None, remap=None
) -> None:
try:
fp = resourceutil.open_resource(name[0], name[1])
except IOError:
if not sections: # ignore unless we were looking for something
return
raise
self._readconfig(
b'resource:%s.%s' % name, fp, root, trust, sections, remap
)
def readconfig(
self, filename, root=None, trust=False, sections=None, remap=None
) -> None:
try:
fp = open(filename, 'rb')
except IOError:
if not sections: # ignore unless we were looking for something
return
raise
self._readconfig(filename, fp, root, trust, sections, remap)
def _readconfig(
self, filename, fp, root=None, trust=False, sections=None, remap=None
) -> None:
with fp:
cfg = config.config()
trusted = sections or trust or self._trusted(fp, filename)
try:
cfg.read(filename, fp, sections=sections, remap=remap)
except error.ConfigError as inst:
if trusted:
raise
self.warn(
_(b'ignored %s: %s\n') % (inst.location, inst.message)
)
self._applyconfig(cfg, trusted, root)
def applyconfig(
self, configitems: _ConfigItems, source=b"", root=None
) -> None:
"""Add configitems from a non-file source. Unlike with ``setconfig()``,
they can be overridden by subsequent config file reads. The items are
in the same format as ``configoverride()``, namely a dict of the
following structures: {(section, name) : value}
Typically this is used by extensions that inject themselves into the
config file load procedure by monkeypatching ``localrepo.loadhgrc()``.
"""
cfg = config.config()
for (section, name), value in configitems.items():
cfg.set(section, name, value, source)
self._applyconfig(cfg, True, root)
def _applyconfig(self, cfg, trusted, root) -> None:
if self.plain():
for k in (
b'debug',
b'fallbackencoding',
b'quiet',
b'slash',
b'logtemplate',
b'message-output',
b'statuscopies',
b'style',
b'traceback',
b'verbose',
):
if k in cfg[b'ui']:
del cfg[b'ui'][k]
for k, v in cfg.items(b'defaults'):
del cfg[b'defaults'][k]
for k, v in cfg.items(b'commands'):
del cfg[b'commands'][k]
for k, v in cfg.items(b'command-templates'):
del cfg[b'command-templates'][k]
# Don't remove aliases from the configuration if in the exceptionlist
if self.plain(b'alias'):
for k, v in cfg.items(b'alias'):
del cfg[b'alias'][k]
if self.plain(b'revsetalias'):
for k, v in cfg.items(b'revsetalias'):
del cfg[b'revsetalias'][k]
if self.plain(b'templatealias'):
for k, v in cfg.items(b'templatealias'):
del cfg[b'templatealias'][k]
if trusted:
self._tcfg.update(cfg)
self._tcfg.update(self._ocfg)
self._ucfg.update(cfg)
self._ucfg.update(self._ocfg)
if root is None:
root = os.path.expanduser(b'~')
self.fixconfig(root=root)
def fixconfig(self, root=None, section=None) -> None:
if section in (None, b'paths'):
# expand vars and ~
# translate paths relative to root (or home) into absolute paths
root = root or encoding.getcwd()
for c in self._tcfg, self._ucfg, self._ocfg:
for n, p in c.items(b'paths'):
old_p = p
s = self.configsource(b'paths', n) or b'none'
root_key = (n, p, s)
if root_key not in self._path_to_root:
self._path_to_root[root_key] = root
# Ignore sub-options.
if b':' in n:
continue
if not p:
continue
if b'%%' in p:
if s is None:
s = 'none'
self.warn(
_(b"(deprecated '%%' in path %s=%s from %s)\n")
% (n, p, s)
)
p = p.replace(b'%%', b'%')
if p != old_p:
c.alter(b"paths", n, p)
if section in (None, b'ui'):
# update ui options
self._fmsgout, self._fmsgerr = _selectmsgdests(self)
self.debugflag = self.configbool(b'ui', b'debug')
self.verbose = self.debugflag or self.configbool(b'ui', b'verbose')
self.quiet = not self.debugflag and self.configbool(b'ui', b'quiet')
if self.verbose and self.quiet:
self.quiet = self.verbose = False
self._reportuntrusted = self.debugflag or self.configbool(
b"ui", b"report_untrusted"
)
self.showtimestamp = self.configbool(b'ui', b'timestamp-output')
self.tracebackflag = self.configbool(b'ui', b'traceback')
self.logblockedtimes = self.configbool(b'ui', b'logblockedtimes')
if section in (None, b'trusted'):
# update trust information
self._trustusers.update(self.configlist(b'trusted', b'users'))
self._trustgroups.update(self.configlist(b'trusted', b'groups'))
if section in (None, b'devel', b'ui') and self.debugflag:
tracked = set()
if self.configbool(b'devel', b'debug.extensions'):
tracked.add(b'extension')
if tracked:
logger = loggingutil.fileobjectlogger(self._ferr, tracked)
self.setlogger(b'debug', logger)
def backupconfig(self, section, item):
return (
self._ocfg.backup(section, item),
self._tcfg.backup(section, item),
self._ucfg.backup(section, item),
)
def restoreconfig(self, data) -> None:
self._ocfg.restore(data[0])
self._tcfg.restore(data[1])
self._ucfg.restore(data[2])
def setconfig(self, section, name, value, source=b'') -> None:
for cfg in (self._ocfg, self._tcfg, self._ucfg):
cfg.set(section, name, value, source)
self.fixconfig(section=section)
self._maybetweakdefaults()
def _data(self, untrusted):
return untrusted and self._ucfg or self._tcfg
def configsource(self, section, name, untrusted=False):
return self._data(untrusted).source(section, name)
def config(self, section, name, default=_unset, untrusted=False):
"""return the plain string version of a config"""
value = self._config(
section, name, default=default, untrusted=untrusted
)
if value is _unset:
return None
return value
def _config(self, section, name, default=_unset, untrusted=False):
value = itemdefault = default
item = self._knownconfig.get(section, {}).get(name)
alternates = [(section, name)]
if item is not None and item.in_core_extension is not None:
# Only return the default for an in-core extension item if said
# extension is enabled
if item.in_core_extension in extensions.extensions(self):
item = None
if item is not None:
alternates.extend(item.alias)
if callable(item.default):
itemdefault = item.default()
else:
itemdefault = item.default
else:
msg = b"accessing unregistered config item: '%s.%s'"
msg %= (section, name)
self.develwarn(msg, 2, b'warn-config-unknown')
if default is _unset:
if item is None:
value = default
elif item.default is configitems.dynamicdefault:
value = None
msg = b"config item requires an explicit default value: '%s.%s'"
msg %= (section, name)
self.develwarn(msg, 2, b'warn-config-default')
else:
value = itemdefault
elif (
item is not None
and item.default is not configitems.dynamicdefault
and default != itemdefault
):
msg = (
b"specifying a mismatched default value for a registered "
b"config item: '%s.%s' '%s'"
)
msg %= (section, name, pycompat.bytestr(default))
self.develwarn(msg, 2, b'warn-config-default')
candidates = []
config = self._data(untrusted)
for s, n in alternates:
candidate = config.get(s, n, None)
if candidate is not None:
candidates.append((s, n, candidate))
if candidates:
def level(x):
return config.level(x[0], x[1])
value = max(candidates, key=level)[2]
if self.debugflag and not untrusted and self._reportuntrusted:
for s, n in alternates:
uvalue = self._ucfg.get(s, n)
if uvalue is not None and uvalue != value:
self.debug(
b"ignoring untrusted configuration option "
b"%s.%s = %s\n" % (s, n, uvalue)
)
return value
def config_default(self, section, name):
"""return the default value for a config option
The default is returned "raw", for example if it is a callable, the
callable was not called.
"""
item = self._knownconfig.get(section, {}).get(name)
if item is None:
raise KeyError((section, name))
return item.default
def configsuboptions(self, section, name, default=_unset, untrusted=False):
"""Get a config option and all sub-options.
Some config options have sub-options that are declared with the
format "key:opt = value". This method is used to return the main
option and all its declared sub-options.
Returns a 2-tuple of ``(option, sub-options)``, where `sub-options``
is a dict of defined sub-options where keys and values are strings.
"""
main = self.config(section, name, default, untrusted=untrusted)
data = self._data(untrusted)
sub = {}
prefix = b'%s:' % name
for k, v in data.items(section):
if k.startswith(prefix):
sub[k[len(prefix) :]] = v
if self.debugflag and not untrusted and self._reportuntrusted:
for k, v in sub.items():
uvalue = self._ucfg.get(section, b'%s:%s' % (name, k))
if uvalue is not None and uvalue != v:
self.debug(
b'ignoring untrusted configuration option '
b'%s:%s.%s = %s\n' % (section, name, k, uvalue)
)
return main, sub
def configpath(self, section, name, default=_unset, untrusted=False):
"""get a path config item, expanded relative to repo root or config
file"""
v = self.config(section, name, default, untrusted)
if v is None:
return None
if not os.path.isabs(v) or b"://" not in v:
src = self.configsource(section, name, untrusted)
if b':' in src:
base = os.path.dirname(src.rsplit(b':')[0])
v = os.path.join(base, os.path.expanduser(v))
return v
def configbool(self, section, name, default=_unset, untrusted=False):
"""parse a configuration element as a boolean
>>> u = ui(); s = b'foo'
>>> u.setconfig(s, b'true', b'yes')
>>> u.configbool(s, b'true')
True
>>> u.setconfig(s, b'false', b'no')
>>> u.configbool(s, b'false')
False
>>> u.configbool(s, b'unknown')
False
>>> u.configbool(s, b'unknown', True)
True
>>> u.setconfig(s, b'invalid', b'somevalue')
>>> u.configbool(s, b'invalid')
Traceback (most recent call last):
...
ConfigError: foo.invalid is not a boolean ('somevalue')
"""
v = self._config(section, name, default, untrusted=untrusted)
if v is None:
return v
if v is _unset:
if default is _unset:
return False
return default
if isinstance(v, bool):
return v
b = stringutil.parsebool(v)
if b is None:
raise error.ConfigError(
_(b"%s.%s is not a boolean ('%s')") % (section, name, v)
)
return b
def configwith(
self, convert, section, name, default=_unset, desc=None, untrusted=False
):
"""parse a configuration element with a conversion function
>>> u = ui(); s = b'foo'
>>> u.setconfig(s, b'float1', b'42')
>>> u.configwith(float, s, b'float1')
42.0
>>> u.setconfig(s, b'float2', b'-4.25')
>>> u.configwith(float, s, b'float2')
-4.25
>>> u.configwith(float, s, b'unknown', 7)
7.0
>>> u.setconfig(s, b'invalid', b'somevalue')
>>> u.configwith(float, s, b'invalid')
Traceback (most recent call last):
...
ConfigError: foo.invalid is not a valid float ('somevalue')
>>> u.configwith(float, s, b'invalid', desc=b'womble')
Traceback (most recent call last):
...
ConfigError: foo.invalid is not a valid womble ('somevalue')
"""
v = self.config(section, name, default, untrusted)
if v is None:
return v # do not attempt to convert None
try:
return convert(v)
except (ValueError, error.ParseError):
if desc is None:
desc = pycompat.sysbytes(convert.__name__)
raise error.ConfigError(
_(b"%s.%s is not a valid %s ('%s')") % (section, name, desc, v)
)
def configint(self, section, name, default=_unset, untrusted=False):
"""parse a configuration element as an integer
>>> u = ui(); s = b'foo'
>>> u.setconfig(s, b'int1', b'42')
>>> u.configint(s, b'int1')
42
>>> u.setconfig(s, b'int2', b'-42')
>>> u.configint(s, b'int2')
-42
>>> u.configint(s, b'unknown', 7)
7
>>> u.setconfig(s, b'invalid', b'somevalue')
>>> u.configint(s, b'invalid')
Traceback (most recent call last):
...
ConfigError: foo.invalid is not a valid integer ('somevalue')
"""
return self.configwith(
int, section, name, default, b'integer', untrusted
)
def configbytes(self, section, name, default=_unset, untrusted=False):
"""parse a configuration element as a quantity in bytes
Units can be specified as b (bytes), k or kb (kilobytes), m or
mb (megabytes), g or gb (gigabytes).
>>> u = ui(); s = b'foo'
>>> u.setconfig(s, b'val1', b'42')
>>> u.configbytes(s, b'val1')
42
>>> u.setconfig(s, b'val2', b'42.5 kb')
>>> u.configbytes(s, b'val2')
43520
>>> u.configbytes(s, b'unknown', b'7 MB')
7340032
>>> u.setconfig(s, b'invalid', b'somevalue')
>>> u.configbytes(s, b'invalid')
Traceback (most recent call last):
...
ConfigError: foo.invalid is not a byte quantity ('somevalue')
"""
value = self._config(section, name, default, untrusted)
if value is _unset:
if default is _unset:
default = 0
value = default
if not isinstance(value, bytes):
return value
try:
return util.sizetoint(value)
except error.ParseError:
raise error.ConfigError(
_(b"%s.%s is not a byte quantity ('%s')")
% (section, name, value)
)
def configlist(self, section, name, default=_unset, untrusted=False):
"""parse a configuration element as a list of comma/space separated
strings
>>> u = ui(); s = b'foo'
>>> u.setconfig(s, b'list1', b'this,is "a small" ,test')
>>> u.configlist(s, b'list1')
['this', 'is', 'a small', 'test']
>>> u.setconfig(s, b'list2', b'this, is "a small" , test ')
>>> u.configlist(s, b'list2')
['this', 'is', 'a small', 'test']
"""
# default is not always a list
v = self.configwith(
stringutil.parselist, section, name, default, b'list', untrusted
)
if isinstance(v, bytes):
return stringutil.parselist(v)
elif v is None:
return []
return v
def configdate(self, section, name, default=_unset, untrusted=False):
"""parse a configuration element as a tuple of ints
>>> u = ui(); s = b'foo'
>>> u.setconfig(s, b'date', b'0 0')
>>> u.configdate(s, b'date')
(0, 0)
"""
if self.config(section, name, default, untrusted):
return self.configwith(
dateutil.parsedate, section, name, default, b'date', untrusted
)
if default is _unset:
return None
return default
def configdefault(self, section, name):
"""returns the default value of the config item"""
item = self._knownconfig.get(section, {}).get(name)
itemdefault = None
if item is not None:
if callable(item.default):
itemdefault = item.default()
else:
itemdefault = item.default
return itemdefault
def hasconfig(self, section, name, untrusted=False):
return self._data(untrusted).hasitem(section, name)
def has_section(self, section, untrusted=False):
'''tell whether section exists in config.'''
return section in self._data(untrusted)
def configitems(self, section, untrusted=False, ignoresub=False):
items = self._data(untrusted).items(section)
if ignoresub:
items = [i for i in items if b':' not in i[0]]
if self.debugflag and not untrusted and self._reportuntrusted:
for k, v in self._ucfg.items(section):
if self._tcfg.get(section, k) != v:
self.debug(
b"ignoring untrusted configuration option "
b"%s.%s = %s\n" % (section, k, v)
)
return items
def walkconfig(self, untrusted=False, all_known=False):
defined = self._walk_config(untrusted)
if not all_known:
for d in defined:
yield d
return
known = self._walk_known()
current_defined = next(defined, None)
current_known = next(known, None)
while current_defined is not None or current_known is not None:
if current_defined is None:
yield current_known
current_known = next(known, None)
elif current_known is None:
yield current_defined
current_defined = next(defined, None)
elif current_known[0:2] == current_defined[0:2]:
yield current_defined
current_defined = next(defined, None)
current_known = next(known, None)
elif current_known[0:2] < current_defined[0:2]:
yield current_known
current_known = next(known, None)
else:
yield current_defined
current_defined = next(defined, None)
def _walk_known(self):
for section, items in sorted(self._knownconfig.items()):
for k, i in sorted(items.items()):
# We don't have a way to display generic well, so skip them
if i.generic:
continue
if callable(i.default):
default = i.default()
elif i.default is configitems.dynamicdefault:
default = b'<DYNAMIC>'
else:
default = i.default
yield section, i.name, default
def _walk_config(self, untrusted):
cfg = self._data(untrusted)
for section in cfg.sections():
for name, value in self.configitems(section, untrusted):
yield section, name, value
def plain(self, feature: Optional[bytes] = None) -> bool:
"""is plain mode active?
Plain mode means that all configuration variables which affect
the behavior and output of Mercurial should be
ignored. Additionally, the output should be stable,
reproducible and suitable for use in scripts or applications.
The only way to trigger plain mode is by setting either the
`HGPLAIN' or `HGPLAINEXCEPT' environment variables.
The return value can either be
- False if HGPLAIN is not set, or feature is in HGPLAINEXCEPT
- False if feature is disabled by default and not included in HGPLAIN
- True otherwise
"""
if (
b'HGPLAIN' not in encoding.environ
and b'HGPLAINEXCEPT' not in encoding.environ
):
return False
exceptions = (
encoding.environ.get(b'HGPLAINEXCEPT', b'').strip().split(b',')
)
# TODO: add support for HGPLAIN=+feature,-feature syntax
if b'+strictflags' not in encoding.environ.get(b'HGPLAIN', b'').split(
b','
):
exceptions.append(b'strictflags')
if feature and exceptions:
return feature not in exceptions
return True
def username(self, acceptempty=False):
"""Return default username to be used in commits.
Searched in this order: $HGUSER, [ui] section of hgrcs, $EMAIL
and stop searching if one of these is set.
If not found and acceptempty is True, returns None.
If not found and ui.askusername is True, ask the user, else use
($LOGNAME or $USER or $LNAME or $USERNAME) + "@full.hostname".
If no username could be found, raise an Abort error.
"""
user = encoding.environ.get(b"HGUSER")
if user is None:
user = self.config(b"ui", b"username")
if user is not None:
user = os.path.expandvars(user)
if user is None:
user = encoding.environ.get(b"EMAIL")
if user is None and acceptempty:
return user
if user is None and self.configbool(b"ui", b"askusername"):
user = self.prompt(_(b"enter a commit username:"), default=None)
if user is None and not self.interactive():
try:
user = b'%s@%s' % (
procutil.getuser(),
encoding.strtolocal(socket.getfqdn()),
)
self.warn(_(b"no username found, using '%s' instead\n") % user)
except KeyError:
pass
if not user:
raise error.Abort(
_(b'no username supplied'),
hint=_(b"use 'hg config --edit' " b'to set your username'),
)
if b"\n" in user:
raise error.Abort(
_(b"username %r contains a newline\n") % pycompat.bytestr(user)
)
return user
def shortuser(self, user: bytes) -> bytes:
"""Return a short representation of a user name or email address."""
if not self.verbose:
user = stringutil.shortuser(user)
return user
@util.propertycache
def paths(self):
return urlutil.paths(self)
@property
def fout(self):
return self._fout
@util.propertycache
def _fout_is_a_tty(self):
self._isatty(self._fout)
@fout.setter
def fout(self, f):
self._fout = f
self._fmsgout, self._fmsgerr = _selectmsgdests(self)
if '_fout_is_a_tty' in vars(self):
del self._fout_is_a_tty
@property
def ferr(self):
return self._ferr
@ferr.setter
def ferr(self, f):
self._ferr = f
self._fmsgout, self._fmsgerr = _selectmsgdests(self)
@property
def fin(self):
return self._fin
@fin.setter
def fin(self, f):
self._fin = f
@property
def fmsg(self):
"""Stream dedicated for status/error messages; may be None if
fout/ferr are used"""
return self._fmsg
@fmsg.setter
def fmsg(self, f):
self._fmsg = f
self._fmsgout, self._fmsgerr = _selectmsgdests(self)
@contextlib.contextmanager
def silent(
self, error: bool = False, subproc: bool = False, labeled: bool = False
):
self.pushbuffer(error=error, subproc=subproc, labeled=labeled)
try:
yield
finally:
self.popbuffer()
def pushbuffer(
self, error: bool = False, subproc: bool = False, labeled: bool = False
) -> None:
"""install a buffer to capture standard output of the ui object
If error is True, the error output will be captured too.
If subproc is True, output from subprocesses (typically hooks) will be
captured too.
If labeled is True, any labels associated with buffered
output will be handled. By default, this has no effect
on the output returned, but extensions and GUI tools may
handle this argument and returned styled output. If output
is being buffered so it can be captured and parsed or
processed, labeled should not be set to True.
"""
self._buffers.append([])
self._bufferstates.append((error, subproc, labeled))
self._bufferapplylabels = labeled
def popbuffer(self) -> bytes:
'''pop the last buffer and return the buffered output'''
self._bufferstates.pop()
if self._bufferstates:
self._bufferapplylabels = self._bufferstates[-1][2]
else:
self._bufferapplylabels = None
return b"".join(self._buffers.pop())
def _isbuffered(self, dest) -> bool:
if dest is self._fout:
return bool(self._buffers)
if dest is self._ferr:
return bool(self._bufferstates and self._bufferstates[-1][0])
return False
def canwritewithoutlabels(self) -> bool:
'''check if write skips the label'''
if self._buffers and not self._bufferapplylabels:
return True
return self._colormode is None
def canbatchlabeledwrites(self) -> bool:
'''check if write calls with labels are batchable'''
# Windows color printing is special, see ``write``.
return self._colormode != b'win32'
def write(self, *args: bytes, **opts: _MsgOpts) -> None:
"""write args to output
By default, this method simply writes to the buffer or stdout.
Color mode can be set on the UI class to have the output decorated
with color modifier before being written to stdout.
The color used is controlled by an optional keyword argument, "label".
This should be a string containing label names separated by space.
Label names take the form of "topic.type". For example, ui.debug()
issues a label of "ui.debug".
Progress reports via stderr are normally cleared before writing as
stdout and stderr go to the same terminal. This can be skipped with
the optional keyword argument "keepprogressbar". The progress bar
will continue to occupy a partial line on stderr in that case.
This functionality is intended when Mercurial acts as data source
in a pipe.
When labeling output for a specific command, a label of
"cmdname.type" is recommended. For example, status issues
a label of "status.modified" for modified files.
"""
dest = self._fout
# inlined _write() for speed
if self._buffers:
label = opts.get('label', b'')
if label and self._bufferapplylabels:
self._buffers[-1].extend(self.label(a, label) for a in args)
else:
self._buffers[-1].extend(args)
return
# inlined _writenobuf() for speed
if not opts.get('keepprogressbar', self._fout_is_a_tty):
self._progclear()
msg = b''.join(args)
# opencode timeblockedsection because this is a critical path
starttime = util.timer()
try:
if self._colormode == b'win32':
# windows color printing is its own can of crab, defer to
# the color module and that is it.
color.win32print(self, dest.write, msg, **opts)
else:
if self._colormode is not None:
label = opts.get('label', b'')
msg = self.label(msg, label)
dest.write(msg)
except IOError as err:
raise error.StdioError(err)
finally:
self._blockedtimes[b'stdio_blocked'] += (
util.timer() - starttime
) * 1000
def write_err(self, *args: bytes, **opts: _MsgOpts) -> None:
self._write(self._ferr, *args, **opts)
def _write(self, dest, *args: bytes, **opts: _MsgOpts) -> None:
# update write() as well if you touch this code
if self._isbuffered(dest):
label = opts.get('label', b'')
if label and self._bufferapplylabels:
self._buffers[-1].extend(self.label(a, label) for a in args)
else:
self._buffers[-1].extend(args)
else:
self._writenobuf(dest, *args, **opts)
def _writenobuf(self, dest, *args: bytes, **opts: _MsgOpts) -> None:
# update write() as well if you touch this code
if not opts.get('keepprogressbar', self._fout_is_a_tty):
self._progclear()
msg = b''.join(args)
# opencode timeblockedsection because this is a critical path
starttime = util.timer()
try:
if dest is self._ferr and not getattr(self._fout, 'closed', False):
self._fout.flush()
if getattr(dest, 'structured', False):
# channel for machine-readable output with metadata, where
# no extra colorization is necessary.
dest.write(msg, **opts)
elif self._colormode == b'win32':
# windows color printing is its own can of crab, defer to
# the color module and that is it.
color.win32print(self, dest.write, msg, **opts)
else:
if self._colormode is not None:
label = opts.get('label', b'')
msg = self.label(msg, label)
dest.write(msg)
# stderr may be buffered under win32 when redirected to files,
# including stdout.
if dest is self._ferr and not getattr(dest, 'closed', False):
dest.flush()
except IOError as err:
if dest is self._ferr and err.errno in (
errno.EPIPE,
errno.EIO,
errno.EBADF,
):
# no way to report the error, so ignore it
return
raise error.StdioError(err)
finally:
self._blockedtimes[b'stdio_blocked'] += (
util.timer() - starttime
) * 1000
def _writemsg(self, dest, *args: bytes, **opts: _MsgOpts) -> None:
timestamp = self.showtimestamp and opts.get('type') in {
b'debug',
b'error',
b'note',
b'status',
b'warning',
}
if timestamp:
args = (
b'[%s] '
% pycompat.bytestr(datetime.datetime.now().isoformat()),
) + args
_writemsgwith(self._write, dest, *args, **opts)
if timestamp:
dest.flush()
def _writemsgnobuf(self, dest, *args: bytes, **opts: _MsgOpts) -> None:
_writemsgwith(self._writenobuf, dest, *args, **opts)
def flush(self) -> None:
# opencode timeblockedsection because this is a critical path
starttime = util.timer()
try:
try:
self._fout.flush()
except IOError as err:
if err.errno not in (errno.EPIPE, errno.EIO, errno.EBADF):
raise error.StdioError(err)
finally:
try:
self._ferr.flush()
except IOError as err:
if err.errno not in (errno.EPIPE, errno.EIO, errno.EBADF):
raise error.StdioError(err)
finally:
self._blockedtimes[b'stdio_blocked'] += (
util.timer() - starttime
) * 1000
def _isatty(self, fh) -> bool:
if self.configbool(b'ui', b'nontty'):
return False
return procutil.isatty(fh)
def protectfinout(self):
"""Duplicate ui streams and redirect original if they are stdio
Returns (fin, fout) which point to the original ui fds, but may be
copy of them. The returned streams can be considered "owned" in that
print(), exec(), etc. never reach to them.
"""
if self._finoutredirected:
# if already redirected, protectstdio() would just create another
# nullfd pair, which is equivalent to returning self._fin/_fout.
return self._fin, self._fout
fin, fout = procutil.protectstdio(self._fin, self._fout)
self._finoutredirected = (fin, fout) != (self._fin, self._fout)
return fin, fout
def restorefinout(self, fin, fout):
"""Restore ui streams from possibly duplicated (fin, fout)"""
if (fin, fout) == (self._fin, self._fout):
return
procutil.restorestdio(self._fin, self._fout, fin, fout)
# protectfinout() won't create more than one duplicated streams,
# so we can just turn the redirection flag off.
self._finoutredirected = False
@contextlib.contextmanager
def protectedfinout(self):
"""Run code block with protected standard streams"""
fin, fout = self.protectfinout()
try:
yield fin, fout
finally:
self.restorefinout(fin, fout)
def disablepager(self) -> None:
self._disablepager = True
def pager(self, command: bytes) -> None:
"""Start a pager for subsequent command output.
Commands which produce a long stream of output should call
this function to activate the user's preferred pagination
mechanism (which may be no pager). Calling this function
precludes any future use of interactive functionality, such as
prompting the user or activating curses.
Args:
command: The full, non-aliased name of the command. That is, "log"
not "history, "summary" not "summ", etc.
"""
if self._disablepager or self.pageractive:
# how pager should do is already determined
return
if not command.startswith(b'internal-always-') and (
# explicit --pager=on (= 'internal-always-' prefix) should
# take precedence over disabling factors below
command in self.configlist(b'pager', b'ignore')
or not self.configbool(b'ui', b'paginate')
or not self.configbool(b'pager', b'attend-' + command, True)
or encoding.environ.get(b'TERM') == b'dumb'
# TODO: if we want to allow HGPLAINEXCEPT=pager,
# formatted() will need some adjustment.
or not self.formatted()
or self.plain()
or self._buffers
# TODO: expose debugger-enabled on the UI object
or b'--debugger' in pycompat.sysargv
):
# We only want to paginate if the ui appears to be
# interactive, the user didn't say HGPLAIN or
# HGPLAINEXCEPT=pager, and the user didn't specify --debug.
return
# py2exe doesn't appear to be able to use legacy I/O, and nothing is
# output to the pager for paged commands. Piping to `more` in cmd.exe
# works, but is easy to forget. Just disable pager for py2exe, but
# leave it working for pyoxidizer and exewrapper builds.
if pycompat.iswindows and getattr(sys, "frozen", None) == "console_exe":
self.debug(b"pager is unavailable with py2exe packaging\n")
return
pagercmd = self.config(b'pager', b'pager', rcutil.fallbackpager)
if not pagercmd:
return
pagerenv = {}
for name, value in rcutil.defaultpagerenv().items():
if name not in encoding.environ:
pagerenv[name] = value
self.debug(
b'starting pager for command %s\n' % stringutil.pprint(command)
)
self.flush()
wasformatted = self.formatted()
if util.safehasattr(signal, b"SIGPIPE"):
signal.signal(signal.SIGPIPE, _catchterm)
if self._runpager(pagercmd, pagerenv):
self.pageractive = True
# Preserve the formatted-ness of the UI. This is important
# because we mess with stdout, which might confuse
# auto-detection of things being formatted.
self.setconfig(b'ui', b'formatted', wasformatted, b'pager')
self.setconfig(b'ui', b'interactive', False, b'pager')
# If pagermode differs from color.mode, reconfigure color now that
# pageractive is set.
cm = self._colormode
if cm != self.config(b'color', b'pagermode', cm):
color.setup(self)
else:
# If the pager can't be spawned in dispatch when --pager=on is
# given, don't try again when the command runs, to avoid a duplicate
# warning about a missing pager command.
self.disablepager()
def _runpager(self, command: bytes, env=None) -> bool:
"""Actually start the pager and set up file descriptors.
This is separate in part so that extensions (like chg) can
override how a pager is invoked.
"""
if command == b'cat':
# Save ourselves some work.
return False
# If the command doesn't contain any of these characters, we
# assume it's a binary and exec it directly. This means for
# simple pager command configurations, we can degrade
# gracefully and tell the user about their broken pager.
shell = any(c in command for c in b"|&;<>()$`\\\"' \t\n*?[#~=%")
if pycompat.iswindows and not shell:
# Window's built-in `more` cannot be invoked with shell=False, but
# its `more.com` can. Hide this implementation detail from the
# user so we can also get sane bad PAGER behavior. MSYS has
# `more.exe`, so do a cmd.exe style resolution of the executable to
# determine which one to use.
fullcmd = procutil.findexe(command)
if not fullcmd:
self.warn(
_(b"missing pager command '%s', skipping pager\n") % command
)
return False
command = fullcmd
try:
pager = subprocess.Popen(
procutil.tonativestr(command),
shell=shell,
bufsize=-1,
close_fds=procutil.closefds,
stdin=subprocess.PIPE,
stdout=procutil.stdout,
stderr=procutil.stderr,
env=procutil.tonativeenv(procutil.shellenviron(env)),
)
except FileNotFoundError:
if not shell:
self.warn(
_(b"missing pager command '%s', skipping pager\n") % command
)
return False
raise
# back up original file descriptors
stdoutfd = os.dup(procutil.stdout.fileno())
stderrfd = os.dup(procutil.stderr.fileno())
os.dup2(pager.stdin.fileno(), procutil.stdout.fileno())
if self._isatty(procutil.stderr):
os.dup2(pager.stdin.fileno(), procutil.stderr.fileno())
@self.atexit
def killpager():
if util.safehasattr(signal, b"SIGINT"):
signal.signal(signal.SIGINT, signal.SIG_IGN)
# restore original fds, closing pager.stdin copies in the process
os.dup2(stdoutfd, procutil.stdout.fileno())
os.dup2(stderrfd, procutil.stderr.fileno())
pager.stdin.close()
pager.wait()
return True
@property
def _exithandlers(self):
return _reqexithandlers
def atexit(self, func, *args, **kwargs):
"""register a function to run after dispatching a request
Handlers do not stay registered across request boundaries."""
self._exithandlers.append((func, args, kwargs))
return func
def interface(self, feature: bytes) -> bytes:
"""what interface to use for interactive console features?
The interface is controlled by the value of `ui.interface` but also by
the value of feature-specific configuration. For example:
ui.interface.histedit = text
ui.interface.chunkselector = curses
Here the features are "histedit" and "chunkselector".
The configuration above means that the default interfaces for commands
is curses, the interface for histedit is text and the interface for
selecting chunk is crecord (the best curses interface available).
Consider the following example:
ui.interface = curses
ui.interface.histedit = text
Then histedit will use the text interface and chunkselector will use
the default curses interface (crecord at the moment).
"""
alldefaults = frozenset([b"text", b"curses"])
featureinterfaces = {
b"chunkselector": [
b"text",
b"curses",
],
b"histedit": [
b"text",
b"curses",
],
}
# Feature-specific interface
if feature not in featureinterfaces.keys():
# Programming error, not user error
raise ValueError(b"Unknown feature requested %s" % feature)
availableinterfaces = frozenset(featureinterfaces[feature])
if alldefaults > availableinterfaces:
# Programming error, not user error. We need a use case to
# define the right thing to do here.
raise ValueError(
b"Feature %s does not handle all default interfaces" % feature
)
if self.plain() or encoding.environ.get(b'TERM') == b'dumb':
return b"text"
# Default interface for all the features
defaultinterface = b"text"
i = self.config(b"ui", b"interface")
if i in alldefaults:
defaultinterface = cast(bytes, i) # cast to help pytype
choseninterface: bytes = defaultinterface
f = self.config(b"ui", b"interface.%s" % feature)
if f in availableinterfaces:
choseninterface = cast(bytes, f) # cast to help pytype
if i is not None and defaultinterface != i:
if f is not None:
self.warn(_(b"invalid value for ui.interface: %s\n") % (i,))
else:
self.warn(
_(b"invalid value for ui.interface: %s (using %s)\n")
% (i, choseninterface)
)
if f is not None and choseninterface != f:
self.warn(
_(b"invalid value for ui.interface.%s: %s (using %s)\n")
% (feature, f, choseninterface)
)
return choseninterface
def interactive(self):
"""is interactive input allowed?
An interactive session is a session where input can be reasonably read
from `sys.stdin'. If this function returns false, any attempt to read
from stdin should fail with an error, unless a sensible default has been
specified.
Interactiveness is triggered by the value of the `ui.interactive'
configuration variable or - if it is unset - when `sys.stdin' points
to a terminal device.
This function refers to input only; for output, see `ui.formatted()'.
"""
i = self.configbool(b"ui", b"interactive")
if i is None:
# some environments replace stdin without implementing isatty
# usually those are non-interactive
return self._isatty(self._fin)
return i
def termwidth(self) -> int:
"""how wide is the terminal in columns?"""
if b'COLUMNS' in encoding.environ:
try:
return int(encoding.environ[b'COLUMNS'])
except ValueError:
pass
return scmutil.termsize(self)[0]
def formatted(self):
"""should formatted output be used?
It is often desirable to format the output to suite the output medium.
Examples of this are truncating long lines or colorizing messages.
However, this is not often not desirable when piping output into other
utilities, e.g. `grep'.
Formatted output is triggered by the value of the `ui.formatted'
configuration variable or - if it is unset - when `sys.stdout' points
to a terminal device. Please note that `ui.formatted' should be
considered an implementation detail; it is not intended for use outside
Mercurial or its extensions.
This function refers to output only; for input, see `ui.interactive()'.
This function always returns false when in plain mode, see `ui.plain()'.
"""
if self.plain():
return False
i = self.configbool(b"ui", b"formatted")
if i is None:
# some environments replace stdout without implementing isatty
# usually those are non-interactive
return self._isatty(self._fout)
return i
def _readline(
self,
prompt: bytes = b' ',
promptopts: Optional[Dict[str, _MsgOpts]] = None,
) -> bytes:
# Replacing stdin/stdout temporarily is a hard problem on Python 3
# because they have to be text streams with *no buffering*. Instead,
# we use rawinput() only if call_readline() will be invoked by
# PyOS_Readline(), so no I/O will be made at Python layer.
usereadline = (
self._isatty(self._fin)
and self._isatty(self._fout)
and procutil.isstdin(self._fin)
and procutil.isstdout(self._fout)
)
if usereadline:
try:
# magically add command line editing support, where
# available
import readline
# force demandimport to really load the module
readline.read_history_file
# windows sometimes raises something other than ImportError
except Exception:
usereadline = False
if self._colormode == b'win32' or not usereadline:
if not promptopts:
promptopts = {}
self._writemsgnobuf(
self._fmsgout, prompt, type=b'prompt', **promptopts
)
self.flush()
prompt = b' '
else:
prompt = self.label(prompt, b'ui.prompt') + b' '
# prompt ' ' must exist; otherwise readline may delete entire line
# - http://bugs.python.org/issue12833
with self.timeblockedsection(b'stdio'):
if usereadline:
self.flush()
prompt = encoding.strfromlocal(prompt)
line = encoding.strtolocal(input(prompt))
# When stdin is in binary mode on Windows, it can cause
# input() to emit an extra trailing carriage return
if pycompat.oslinesep == b'\r\n' and line.endswith(b'\r'):
line = line[:-1]
else:
self._fout.write(pycompat.bytestr(prompt))
self._fout.flush()
line = self._fin.readline()
if not line:
raise EOFError
line = line.rstrip(pycompat.oslinesep)
return line
if pycompat.TYPE_CHECKING:
@overload
def prompt(self, msg: bytes, default: bytes) -> bytes:
pass
@overload
def prompt(self, msg: bytes, default: None) -> Optional[bytes]:
pass
def prompt(self, msg, default=b"y"):
"""Prompt user with msg, read response.
If ui is not interactive, the default is returned.
"""
return self._prompt(msg, default=default)
if pycompat.TYPE_CHECKING:
@overload
def _prompt(
self, msg: bytes, default: bytes, **opts: _MsgOpts
) -> bytes:
pass
@overload
def _prompt(
self, msg: bytes, default: None, **opts: _MsgOpts
) -> Optional[bytes]:
pass
def _prompt(self, msg, default=b'y', **opts):
opts = {**opts, 'default': default}
if not self.interactive():
self._writemsg(self._fmsgout, msg, b' ', type=b'prompt', **opts)
self._writemsg(
self._fmsgout, default or b'', b"\n", type=b'promptecho'
)
return default
try:
r = self._readline(prompt=msg, promptopts=opts)
if not r:
r = default
if self.configbool(b'ui', b'promptecho'):
self._writemsg(
self._fmsgout, r or b'', b"\n", type=b'promptecho'
)
return r
except EOFError:
raise error.ResponseExpected()
@staticmethod
def extractchoices(prompt: bytes) -> Tuple[bytes, List[_PromptChoice]]:
"""Extract prompt message and list of choices from specified prompt.
This returns tuple "(message, choices)", and "choices" is the
list of tuple "(response character, text without &)".
>>> ui.extractchoices(b"awake? $$ &Yes $$ &No")
('awake? ', [('y', 'Yes'), ('n', 'No')])
>>> ui.extractchoices(b"line\\nbreak? $$ &Yes $$ &No")
('line\\nbreak? ', [('y', 'Yes'), ('n', 'No')])
>>> ui.extractchoices(b"want lots of $$money$$?$$Ye&s$$N&o")
('want lots of $$money$$?', [('s', 'Yes'), ('o', 'No')])
"""
# Sadly, the prompt string may have been built with a filename
# containing "$$" so let's try to find the first valid-looking
# prompt to start parsing. Sadly, we also can't rely on
# choices containing spaces, ASCII, or basically anything
# except an ampersand followed by a character.
m = re.match(br'(?s)(.+?)\$\$([^$]*&[^ $].*)', prompt)
assert m is not None # help pytype
msg = m.group(1)
choices = [p.strip(b' ') for p in m.group(2).split(b'$$')]
def choicetuple(s):
ampidx = s.index(b'&')
return s[ampidx + 1 : ampidx + 2].lower(), s.replace(b'&', b'', 1)
return (msg, [choicetuple(s) for s in choices])
def promptchoice(self, prompt: bytes, default: int = 0) -> int:
"""Prompt user with a message, read response, and ensure it matches
one of the provided choices. The prompt is formatted as follows:
"would you like fries with that (Yn)? $$ &Yes $$ &No"
The index of the choice is returned. Responses are case
insensitive. If ui is not interactive, the default is
returned.
"""
msg, choices = self.extractchoices(prompt)
resps = [r for r, t in choices]
while True:
r = self._prompt(msg, default=resps[default], choices=choices)
if r.lower() in resps:
return resps.index(r.lower())
# TODO: shouldn't it be a warning?
self._writemsg(self._fmsgout, _(b"unrecognized response\n"))
def getpass(
self, prompt: Optional[bytes] = None, default: Optional[bytes] = None
) -> Optional[bytes]:
if not self.interactive():
return default
try:
self._writemsg(
self._fmsgerr,
prompt or _(b'password: '),
type=b'prompt',
password=True,
)
# disable getpass() only if explicitly specified. it's still valid
# to interact with tty even if fin is not a tty.
with self.timeblockedsection(b'stdio'):
if self.configbool(b'ui', b'nontty'):
l = self._fin.readline()
if not l:
raise EOFError
return l.rstrip(b'\n')
else:
return util.get_password()
except EOFError:
raise error.ResponseExpected()
def status(self, *msg: bytes, **opts: _MsgOpts) -> None:
"""write status message to output (if ui.quiet is False)
This adds an output label of "ui.status".
"""
if not self.quiet:
self._writemsg(self._fmsgout, type=b'status', *msg, **opts)
def warn(self, *msg: bytes, **opts: _MsgOpts) -> None:
"""write warning message to output (stderr)
This adds an output label of "ui.warning".
"""
self._writemsg(self._fmsgerr, type=b'warning', *msg, **opts)
def error(self, *msg: bytes, **opts: _MsgOpts) -> None:
"""write error message to output (stderr)
This adds an output label of "ui.error".
"""
self._writemsg(self._fmsgerr, type=b'error', *msg, **opts)
def note(self, *msg: bytes, **opts: _MsgOpts) -> None:
"""write note to output (if ui.verbose is True)
This adds an output label of "ui.note".
"""
if self.verbose:
self._writemsg(self._fmsgout, type=b'note', *msg, **opts)
def debug(self, *msg: bytes, **opts: _MsgOpts) -> None:
"""write debug message to output (if ui.debugflag is True)
This adds an output label of "ui.debug".
"""
if self.debugflag:
self._writemsg(self._fmsgout, type=b'debug', *msg, **opts)
self.log(b'debug', b'%s', b''.join(msg))
# Aliases to defeat check-code.
statusnoi18n = status
notenoi18n = note
warnnoi18n = warn
writenoi18n = write
def edit(
self,
text: bytes,
user: bytes,
extra: Optional[Dict[bytes, Any]] = None, # TODO: value type of bytes?
editform=None,
pending=None,
repopath: Optional[bytes] = None,
action: Optional[bytes] = None,
) -> bytes:
if action is None:
self.develwarn(
b'action is None but will soon be a required '
b'parameter to ui.edit()'
)
extra_defaults = {
b'prefix': b'editor',
b'suffix': b'.txt',
}
if extra is not None:
if extra.get(b'suffix') is not None:
self.develwarn(
b'extra.suffix is not None but will soon be '
b'ignored by ui.edit()'
)
extra_defaults.update(extra)
extra = extra_defaults
if action == b'diff':
suffix = b'.diff'
elif action:
suffix = b'.%s.hg.txt' % action
else:
suffix = extra[b'suffix']
rdir = None
if self.configbool(b'experimental', b'editortmpinhg'):
rdir = repopath
(fd, name) = pycompat.mkstemp(
prefix=b'hg-' + extra[b'prefix'] + b'-', suffix=suffix, dir=rdir
)
try:
with os.fdopen(fd, 'wb') as f:
f.write(util.tonativeeol(text))
environ = {b'HGUSER': user}
if b'transplant_source' in extra:
environ.update(
{b'HGREVISION': hex(extra[b'transplant_source'])}
)
for label in (b'intermediate-source', b'source', b'rebase_source'):
if label in extra:
environ.update({b'HGREVISION': extra[label]})
break
if editform:
environ.update({b'HGEDITFORM': editform})
if pending:
environ.update({b'HG_PENDING': pending})
editor = self.geteditor()
self.system(
b"%s \"%s\"" % (editor, name),
environ=environ,
onerr=error.CanceledError,
errprefix=_(b"edit failed"),
blockedtag=b'editor',
)
with open(name, 'rb') as f:
t = util.fromnativeeol(f.read())
finally:
os.unlink(name)
return t
def system(
self,
cmd: bytes,
environ=None,
cwd: Optional[bytes] = None,
onerr: Optional[Callable[[bytes], Exception]] = None,
errprefix: Optional[bytes] = None,
blockedtag: Optional[bytes] = None,
) -> int:
"""execute shell command with appropriate output stream. command
output will be redirected if fout is not stdout.
if command fails and onerr is None, return status, else raise onerr
object as exception.
"""
if blockedtag is None:
# Long cmds tend to be because of an absolute path on cmd. Keep
# the tail end instead
cmdsuffix = cmd.translate(None, _keepalnum)[-85:]
blockedtag = b'unknown_system_' + cmdsuffix
out = self._fout
if any(s[1] for s in self._bufferstates):
out = self
with self.timeblockedsection(blockedtag):
rc = self._runsystem(cmd, environ=environ, cwd=cwd, out=out)
if rc and onerr:
errmsg = b'%s %s' % (
procutil.shellsplit(cmd)[0],
procutil.explainexit(rc),
)
if errprefix:
errmsg = b'%s: %s' % (errprefix, errmsg)
raise onerr(errmsg)
return rc
def _runsystem(self, cmd: bytes, environ, cwd: Optional[bytes], out) -> int:
"""actually execute the given shell command (can be overridden by
extensions like chg)"""
return procutil.system(cmd, environ=environ, cwd=cwd, out=out)
def traceback(self, exc=None, force: bool = False):
"""print exception traceback if traceback printing enabled or forced.
only to call in exception handler. returns true if traceback
printed."""
if self.tracebackflag or force:
if exc is None:
exc = sys.exc_info()
cause = getattr(exc[1], 'cause', None)
if cause is not None:
causetb = traceback.format_tb(cause[2])
exctb = traceback.format_tb(exc[2])
exconly = traceback.format_exception_only(cause[0], cause[1])
# exclude frame where 'exc' was chained and rethrown from exctb
self.write_err(
b'Traceback (most recent call last):\n',
encoding.strtolocal(''.join(exctb[:-1])),
encoding.strtolocal(''.join(causetb)),
encoding.strtolocal(''.join(exconly)),
)
else:
output = traceback.format_exception(exc[0], exc[1], exc[2])
self.write_err(encoding.strtolocal(''.join(output)))
return self.tracebackflag or force
def geteditor(self):
'''return editor to use'''
if pycompat.sysplatform == b'plan9':
# vi is the MIPS instruction simulator on Plan 9. We
# instead default to E to plumb commit messages to
# avoid confusion.
editor = b'E'
elif pycompat.isdarwin:
# vi on darwin is POSIX compatible to a fault, and that includes
# exiting non-zero if you make any mistake when running an ex
# command. Proof: `vi -c ':unknown' -c ':qa'; echo $?` produces 1,
# while s/vi/vim/ doesn't.
editor = b'vim'
else:
editor = b'vi'
return encoding.environ.get(b"HGEDITOR") or self.config(
b"ui", b"editor", editor
)
@util.propertycache
def _progbar(self) -> Optional[progress.progbar]:
"""setup the progbar singleton to the ui object"""
if (
self.quiet
or self.debugflag
or self.configbool(b'progress', b'disable')
or not progress.shouldprint(self)
):
return None
return getprogbar(self)
def _progclear(self) -> None:
"""clear progress bar output if any. use it before any output"""
if not haveprogbar(): # nothing loaded yet
return
if self._progbar is not None and self._progbar.printed:
self._progbar.clear()
def makeprogress(
self, topic: bytes, unit: bytes = b"", total: Optional[int] = None
) -> scmutil.progress:
"""Create a progress helper for the specified topic"""
if getattr(self._fmsgerr, 'structured', False):
# channel for machine-readable output with metadata, just send
# raw information
# TODO: consider porting some useful information (e.g. estimated
# time) from progbar. we might want to support update delay to
# reduce the cost of transferring progress messages.
def updatebar(topic, pos, item, unit, total):
self._fmsgerr.write(
None,
type=b'progress',
topic=topic,
pos=pos,
item=item,
unit=unit,
total=total,
)
elif self._progbar is not None:
updatebar = self._progbar.progress
else:
def updatebar(topic, pos, item, unit, total):
pass
return scmutil.progress(self, updatebar, topic, unit, total)
def getlogger(self, name):
"""Returns a logger of the given name; or None if not registered"""
return self._loggers.get(name)
def setlogger(self, name, logger) -> None:
"""Install logger which can be identified later by the given name
More than one loggers can be registered. Use extension or module
name to uniquely identify the logger instance.
"""
self._loggers[name] = logger
def log(self, event, msgfmt, *msgargs, **opts) -> None:
"""hook for logging facility extensions
event should be a readily-identifiable subsystem, which will
allow filtering.
msgfmt should be a newline-terminated format string to log, and
*msgargs are %-formatted into it.
**opts currently has no defined meanings.
"""
if not self._loggers:
return
activeloggers = [l for l in self._loggers.values() if l.tracked(event)]
if not activeloggers:
return
msg = msgfmt % msgargs
opts = pycompat.byteskwargs(opts)
# guard against recursion from e.g. ui.debug()
registeredloggers = self._loggers
self._loggers = {}
try:
for logger in activeloggers:
logger.log(self, event, msg, opts)
finally:
self._loggers = registeredloggers
def label(self, msg: bytes, label: bytes) -> bytes:
"""style msg based on supplied label
If some color mode is enabled, this will add the necessary control
characters to apply such color. In addition, 'debug' color mode adds
markup showing which label affects a piece of text.
ui.write(s, 'label') is equivalent to
ui.write(ui.label(s, 'label')).
"""
if self._colormode is not None:
return color.colorlabel(self, msg, label)
return msg
def develwarn(
self, msg: bytes, stacklevel: int = 1, config: Optional[bytes] = None
) -> None:
"""issue a developer warning message
Use 'stacklevel' to report the offender some layers further up in the
stack.
"""
if not self.configbool(b'devel', b'all-warnings'):
if config is None or not self.configbool(b'devel', config):
return
msg = b'devel-warn: ' + msg
stacklevel += 1 # get in develwarn
if self.tracebackflag:
util.debugstacktrace(msg, stacklevel, self._ferr, self._fout)
self.log(
b'develwarn',
b'%s at:\n%s'
% (msg, b''.join(util.getstackframes(stacklevel))),
)
else:
curframe = inspect.currentframe()
calframe = inspect.getouterframes(curframe, 2)
fname, lineno, fmsg = calframe[stacklevel][1:4]
fname, fmsg = pycompat.sysbytes(fname), pycompat.sysbytes(fmsg)
self.write_err(b'%s at: %s:%d (%s)\n' % (msg, fname, lineno, fmsg))
self.log(
b'develwarn', b'%s at: %s:%d (%s)\n', msg, fname, lineno, fmsg
)
# avoid cycles
del curframe
del calframe
def deprecwarn(
self,
msg: bytes,
version: bytes,
stacklevel: int = 2,
) -> None:
"""issue a deprecation warning
- msg: message explaining what is deprecated and how to upgrade,
- version: last version where the API will be supported,
"""
if not (
self.configbool(b'devel', b'all-warnings')
or self.configbool(b'devel', b'deprec-warn')
):
return
msg += (
b"\n(compatibility will be dropped after Mercurial-%s,"
b" update your code.)"
) % version
self.develwarn(msg, stacklevel=stacklevel, config=b'deprec-warn')
def exportableenviron(self):
"""The environment variables that are safe to export, e.g. through
hgweb.
"""
return self._exportableenviron
@contextlib.contextmanager
def configoverride(self, overrides: _ConfigItems, source: bytes = b""):
"""Context manager for temporary config overrides
`overrides` must be a dict of the following structure:
{(section, name) : value}"""
backups = {}
try:
for (section, name), value in overrides.items():
backups[(section, name)] = self.backupconfig(section, name)
self.setconfig(section, name, value, source)
yield
finally:
for __, backup in backups.items():
self.restoreconfig(backup)
# just restoring ui.quiet config to the previous value is not enough
# as it does not update ui.quiet class member
if (b'ui', b'quiet') in overrides:
self.fixconfig(section=b'ui')
def estimatememory(self) -> Optional[int]:
"""Provide an estimate for the available system memory in Bytes.
This can be overriden via ui.available-memory. It returns None, if
no estimate can be computed.
"""
value = self.config(b'ui', b'available-memory')
if value is not None:
try:
return util.sizetoint(value)
except error.ParseError:
raise error.ConfigError(
_(b"ui.available-memory value is invalid ('%s')") % value
)
return util._estimatememory()
# we instantiate one globally shared progress bar to avoid
# competing progress bars when multiple UI objects get created
_progresssingleton: Optional[progress.progbar] = None
def getprogbar(ui: ui) -> progress.progbar:
global _progresssingleton
if _progresssingleton is None:
# passing 'ui' object to the singleton is fishy,
# this is how the extension used to work but feel free to rework it.
_progresssingleton = progress.progbar(ui)
return _progresssingleton
def haveprogbar() -> bool:
return _progresssingleton is not None
def _selectmsgdests(ui: ui):
name = ui.config(b'ui', b'message-output')
if name == b'channel':
if ui.fmsg:
return ui.fmsg, ui.fmsg
else:
# fall back to ferr if channel isn't ready so that status/error
# messages can be printed
return ui.ferr, ui.ferr
if name == b'stdio':
return ui.fout, ui.ferr
if name == b'stderr':
return ui.ferr, ui.ferr
raise error.Abort(b'invalid ui.message-output destination: %s' % name)
def _writemsgwith(write, dest, *args: bytes, **opts: _MsgOpts) -> None:
"""Write ui message with the given ui._write*() function
The specified message type is translated to 'ui.<type>' label if the dest
isn't a structured channel, so that the message will be colorized.
"""
# TODO: maybe change 'type' to a mandatory option
if 'type' in opts and not getattr(dest, 'structured', False):
opts['label'] = opts.get('label', b'') + b' ui.%s' % opts.pop('type')
write(dest, *args, **opts)