rust-index: using the `hg::index::Index` in ancestors iterator and lazy set
Since there is no Rust implementation for REVLOGV2/CHANGELOGv2, we declare
them to be incompatible with Rust, hence indexes in these formats will use
the implementations from Python `mercurial.ancestor`. If this is an unacceptable
performance hit for current users of these formats, we can later on add Rust
implementations based on the C index for them or implement these formats for
the Rust indexes.
Among the challenges that we had to meet, we wanted to avoid taking the GIL each
time the inner (vcsgraph) iterator has to call the parents function. This would probably
still be acceptable in terms of performance with `AncestorsIterator`, but not with
`LazyAncestors` nor for the upcoming change in `MissingAncestors`.
Hence we enclose the reference to the index in a `PySharedRef`, leading to more
rigourous checking of mutations, which does pass now that there no logically immutable
methods of `hg::index::Index` that take a mutable reference as input.
# coding=utf-8
import doctest
import os
def check(a, b):
if a != b:
print((a, b))
def cert(cn):
return {'subject': ((('commonName', cn),),)}
from mercurial import sslutil
_verifycert = sslutil._verifycert
# Test non-wildcard certificates
check(_verifycert(cert('example.com'), 'example.com'), None)
check(
_verifycert(cert('example.com'), 'www.example.com'),
b'certificate is for example.com',
)
check(
_verifycert(cert('www.example.com'), 'example.com'),
b'certificate is for www.example.com',
)
# Test wildcard certificates
check(_verifycert(cert('*.example.com'), 'www.example.com'), None)
check(
_verifycert(cert('*.example.com'), 'example.com'),
b'certificate is for *.example.com',
)
check(
_verifycert(cert('*.example.com'), 'w.w.example.com'),
b'certificate is for *.example.com',
)
# Test subjectAltName
san_cert = {
'subject': ((('commonName', 'example.com'),),),
'subjectAltName': (('DNS', '*.example.net'), ('DNS', 'example.net')),
}
check(_verifycert(san_cert, 'example.net'), None)
check(_verifycert(san_cert, 'foo.example.net'), None)
# no fallback to subject commonName when subjectAltName has DNS
check(
_verifycert(san_cert, 'example.com'),
b'certificate is for *.example.net, example.net',
)
# fallback to subject commonName when no DNS in subjectAltName
san_cert = {
'subject': ((('commonName', 'example.com'),),),
'subjectAltName': (('IP Address', '8.8.8.8'),),
}
check(_verifycert(san_cert, 'example.com'), None)
# Avoid some pitfalls
check(_verifycert(cert('*.foo'), 'foo'), b'certificate is for *.foo')
check(_verifycert(cert('*o'), 'foo'), None)
check(
_verifycert({'subject': ()}, 'example.com'),
b'no commonName or subjectAltName found in certificate',
)
check(_verifycert(None, 'example.com'), b'no certificate received')
# Unicode (IDN) certname isn't supported
check(
_verifycert(cert(u'\u4f8b.jp'), 'example.jp'),
b'IDN in certificate not supported',
)
# The following tests are from CPython's test_ssl.py.
check(_verifycert(cert('example.com'), 'example.com'), None)
check(_verifycert(cert('example.com'), 'ExAmple.cOm'), None)
check(
_verifycert(cert('example.com'), 'www.example.com'),
b'certificate is for example.com',
)
check(
_verifycert(cert('example.com'), '.example.com'),
b'certificate is for example.com',
)
check(
_verifycert(cert('example.com'), 'example.org'),
b'certificate is for example.com',
)
check(
_verifycert(cert('example.com'), 'exampleXcom'),
b'certificate is for example.com',
)
check(_verifycert(cert('*.a.com'), 'foo.a.com'), None)
check(
_verifycert(cert('*.a.com'), 'bar.foo.a.com'), b'certificate is for *.a.com'
)
check(_verifycert(cert('*.a.com'), 'a.com'), b'certificate is for *.a.com')
check(_verifycert(cert('*.a.com'), 'Xa.com'), b'certificate is for *.a.com')
check(_verifycert(cert('*.a.com'), '.a.com'), b'certificate is for *.a.com')
# only match one left-most wildcard
check(_verifycert(cert('f*.com'), 'foo.com'), None)
check(_verifycert(cert('f*.com'), 'f.com'), None)
check(_verifycert(cert('f*.com'), 'bar.com'), b'certificate is for f*.com')
check(_verifycert(cert('f*.com'), 'foo.a.com'), b'certificate is for f*.com')
check(_verifycert(cert('f*.com'), 'bar.foo.com'), b'certificate is for f*.com')
# NULL bytes are bad, CVE-2013-4073
check(
_verifycert(
cert('null.python.org\x00example.org'), 'null.python.org\x00example.org'
),
None,
)
check(
_verifycert(cert('null.python.org\x00example.org'), 'example.org'),
b'certificate is for null.python.org\x00example.org',
)
check(
_verifycert(cert('null.python.org\x00example.org'), 'null.python.org'),
b'certificate is for null.python.org\x00example.org',
)
# error cases with wildcards
check(
_verifycert(cert('*.*.a.com'), 'bar.foo.a.com'),
b'certificate is for *.*.a.com',
)
check(_verifycert(cert('*.*.a.com'), 'a.com'), b'certificate is for *.*.a.com')
check(_verifycert(cert('*.*.a.com'), 'Xa.com'), b'certificate is for *.*.a.com')
check(_verifycert(cert('*.*.a.com'), '.a.com'), b'certificate is for *.*.a.com')
check(_verifycert(cert('a.*.com'), 'a.foo.com'), b'certificate is for a.*.com')
check(_verifycert(cert('a.*.com'), 'a..com'), b'certificate is for a.*.com')
check(_verifycert(cert('a.*.com'), 'a.com'), b'certificate is for a.*.com')
# wildcard doesn't match IDNA prefix 'xn--'
idna = u'püthon.python.org'.encode('idna').decode('ascii')
check(_verifycert(cert(idna), idna), None)
check(
_verifycert(cert('x*.python.org'), idna),
b'certificate is for x*.python.org',
)
check(
_verifycert(cert('xn--p*.python.org'), idna),
b'certificate is for xn--p*.python.org',
)
# wildcard in first fragment and IDNA A-labels in sequent fragments
# are supported.
idna = u'www*.pythön.org'.encode('idna').decode('ascii')
check(
_verifycert(cert(idna), u'www.pythön.org'.encode('idna').decode('ascii')),
None,
)
check(
_verifycert(cert(idna), u'www1.pythön.org'.encode('idna').decode('ascii')),
None,
)
check(
_verifycert(cert(idna), u'ftp.pythön.org'.encode('idna').decode('ascii')),
b'certificate is for www*.xn--pythn-mua.org',
)
check(
_verifycert(cert(idna), u'pythön.org'.encode('idna').decode('ascii')),
b'certificate is for www*.xn--pythn-mua.org',
)
c = {
'notAfter': 'Jun 26 21:41:46 2011 GMT',
'subject': (((u'commonName', u'linuxfrz.org'),),),
'subjectAltName': (
('DNS', 'linuxfr.org'),
('DNS', 'linuxfr.com'),
('othername', '<unsupported>'),
),
}
check(_verifycert(c, 'linuxfr.org'), None)
check(_verifycert(c, 'linuxfr.com'), None)
# Not a "DNS" entry
check(
_verifycert(c, '<unsupported>'),
b'certificate is for linuxfr.org, linuxfr.com',
)
# When there is a subjectAltName, commonName isn't used
check(
_verifycert(c, 'linuxfrz.org'),
b'certificate is for linuxfr.org, linuxfr.com',
)
# A pristine real-world example
c = {
'notAfter': 'Dec 18 23:59:59 2011 GMT',
'subject': (
((u'countryName', u'US'),),
((u'stateOrProvinceName', u'California'),),
((u'localityName', u'Mountain View'),),
((u'organizationName', u'Google Inc'),),
((u'commonName', u'mail.google.com'),),
),
}
check(_verifycert(c, 'mail.google.com'), None)
check(_verifycert(c, 'gmail.com'), b'certificate is for mail.google.com')
# Only commonName is considered
check(_verifycert(c, 'California'), b'certificate is for mail.google.com')
# Neither commonName nor subjectAltName
c = {
'notAfter': 'Dec 18 23:59:59 2011 GMT',
'subject': (
((u'countryName', u'US'),),
((u'stateOrProvinceName', u'California'),),
((u'localityName', u'Mountain View'),),
((u'organizationName', u'Google Inc'),),
),
}
check(
_verifycert(c, 'mail.google.com'),
b'no commonName or subjectAltName found in certificate',
)
# No DNS entry in subjectAltName but a commonName
c = {
'notAfter': 'Dec 18 23:59:59 2099 GMT',
'subject': (
((u'countryName', u'US'),),
((u'stateOrProvinceName', u'California'),),
((u'localityName', u'Mountain View'),),
((u'commonName', u'mail.google.com'),),
),
'subjectAltName': (('othername', 'blabla'),),
}
check(_verifycert(c, 'mail.google.com'), None)
# No DNS entry subjectAltName and no commonName
c = {
'notAfter': 'Dec 18 23:59:59 2099 GMT',
'subject': (
((u'countryName', u'US'),),
((u'stateOrProvinceName', u'California'),),
((u'localityName', u'Mountain View'),),
((u'organizationName', u'Google Inc'),),
),
'subjectAltName': (('othername', 'blabla'),),
}
check(
_verifycert(c, 'google.com'),
b'no commonName or subjectAltName found in certificate',
)
# Empty cert / no cert
check(_verifycert(None, 'example.com'), b'no certificate received')
check(_verifycert({}, 'example.com'), b'no certificate received')
# avoid denials of service by refusing more than one
# wildcard per fragment.
check(
_verifycert({'subject': (((u'commonName', u'a*b.com'),),)}, 'axxb.com'),
None,
)
check(
_verifycert({'subject': (((u'commonName', u'a*b.co*'),),)}, 'axxb.com'),
b'certificate is for a*b.co*',
)
check(
_verifycert({'subject': (((u'commonName', u'a*b*.com'),),)}, 'axxbxxc.com'),
b'too many wildcards in certificate DNS name: a*b*.com',
)
def test_url():
"""
>>> from mercurial import error, pycompat
>>> from mercurial.utils.urlutil import url
>>> from mercurial.utils.stringutil import forcebytestr
This tests for edge cases in url.URL's parsing algorithm. Most of
these aren't useful for documentation purposes, so they aren't
part of the class's doc tests.
Query strings and fragments:
>>> url(b'http://host/a?b#c')
<url scheme: 'http', host: 'host', path: 'a', query: 'b', fragment: 'c'>
>>> url(b'http://host/a?')
<url scheme: 'http', host: 'host', path: 'a'>
>>> url(b'http://host/a#b#c')
<url scheme: 'http', host: 'host', path: 'a', fragment: 'b#c'>
>>> url(b'http://host/a#b?c')
<url scheme: 'http', host: 'host', path: 'a', fragment: 'b?c'>
>>> url(b'http://host/?a#b')
<url scheme: 'http', host: 'host', path: '', query: 'a', fragment: 'b'>
>>> url(b'http://host/?a#b', parsequery=False)
<url scheme: 'http', host: 'host', path: '?a', fragment: 'b'>
>>> url(b'http://host/?a#b', parsefragment=False)
<url scheme: 'http', host: 'host', path: '', query: 'a#b'>
>>> url(b'http://host/?a#b', parsequery=False, parsefragment=False)
<url scheme: 'http', host: 'host', path: '?a#b'>
IPv6 addresses:
>>> url(b'ldap://[2001:db8::7]/c=GB?objectClass?one')
<url scheme: 'ldap', host: '[2001:db8::7]', path: 'c=GB',
query: 'objectClass?one'>
>>> url(b'ldap://joe:xxx@[2001:db8::7]:80/c=GB?objectClass?one')
<url scheme: 'ldap', user: 'joe', passwd: 'xxx', host: '[2001:db8::7]',
port: '80', path: 'c=GB', query: 'objectClass?one'>
Missing scheme, host, etc.:
>>> url(b'://192.0.2.16:80/')
<url path: '://192.0.2.16:80/'>
>>> url(b'https://mercurial-scm.org')
<url scheme: 'https', host: 'mercurial-scm.org'>
>>> url(b'/foo')
<url path: '/foo'>
>>> url(b'bundle:/foo')
<url scheme: 'bundle', path: '/foo'>
>>> url(b'a?b#c')
<url path: 'a?b', fragment: 'c'>
>>> url(b'http://x.com?arg=/foo')
<url scheme: 'http', host: 'x.com', query: 'arg=/foo'>
>>> url(b'http://joe:xxx@/foo')
<url scheme: 'http', user: 'joe', passwd: 'xxx', path: 'foo'>
Just a scheme and a path:
>>> url(b'mailto:John.Doe@example.com')
<url scheme: 'mailto', path: 'John.Doe@example.com'>
>>> url(b'a:b:c:d')
<url path: 'a:b:c:d'>
>>> url(b'aa:bb:cc:dd')
<url scheme: 'aa', path: 'bb:cc:dd'>
SSH examples:
>>> url(b'ssh://joe@host//home/joe')
<url scheme: 'ssh', user: 'joe', host: 'host', path: '/home/joe'>
>>> url(b'ssh://joe:xxx@host/src')
<url scheme: 'ssh', user: 'joe', passwd: 'xxx', host: 'host', path: 'src'>
>>> url(b'ssh://joe:xxx@host')
<url scheme: 'ssh', user: 'joe', passwd: 'xxx', host: 'host'>
>>> url(b'ssh://joe@host')
<url scheme: 'ssh', user: 'joe', host: 'host'>
>>> url(b'ssh://host')
<url scheme: 'ssh', host: 'host'>
>>> url(b'ssh://')
<url scheme: 'ssh'>
>>> url(b'ssh:')
<url scheme: 'ssh'>
Non-numeric port:
>>> url(b'http://example.com:dd')
<url scheme: 'http', host: 'example.com', port: 'dd'>
>>> url(b'ssh://joe:xxx@host:ssh/foo')
<url scheme: 'ssh', user: 'joe', passwd: 'xxx', host: 'host', port: 'ssh',
path: 'foo'>
Bad authentication credentials:
>>> url(b'http://joe@joeville:123@4:@host/a?b#c')
<url scheme: 'http', user: 'joe@joeville', passwd: '123@4:',
host: 'host', path: 'a', query: 'b', fragment: 'c'>
>>> url(b'http://!*#?/@!*#?/:@host/a?b#c')
<url scheme: 'http', host: '!*', fragment: '?/@!*#?/:@host/a?b#c'>
>>> url(b'http://!*#?@!*#?:@host/a?b#c')
<url scheme: 'http', host: '!*', fragment: '?@!*#?:@host/a?b#c'>
>>> url(b'http://!*@:!*@@host/a?b#c')
<url scheme: 'http', user: '!*@', passwd: '!*@', host: 'host',
path: 'a', query: 'b', fragment: 'c'>
File paths:
>>> url(b'a/b/c/d.g.f')
<url path: 'a/b/c/d.g.f'>
>>> url(b'/x///z/y/')
<url path: '/x///z/y/'>
>>> url(b'/foo:bar')
<url path: '/foo:bar'>
>>> url(b'\\\\foo:bar')
<url path: '\\\\foo:bar'>
>>> url(b'./foo:bar')
<url path: './foo:bar'>
Non-localhost file URL:
>>> try:
... u = url(b'file://mercurial-scm.org/foo')
... except error.Abort as e:
... pycompat.bytestr(e.message)
'file:// URLs can only refer to localhost'
Empty URL:
>>> u = url(b'')
>>> u
<url path: ''>
>>> str(u)
''
Empty path with query string:
>>> str(url(b'http://foo/?bar'))
'http://foo/?bar'
Invalid path:
>>> u = url(b'http://foo/bar')
>>> u.path = b'bar'
>>> str(u)
'http://foo/bar'
>>> u = url(b'file:/foo/bar/baz')
>>> u
<url scheme: 'file', path: '/foo/bar/baz'>
>>> str(u)
'file:///foo/bar/baz'
>>> pycompat.bytestr(u.localpath())
'/foo/bar/baz'
>>> u = url(b'file:///foo/bar/baz')
>>> u
<url scheme: 'file', path: '/foo/bar/baz'>
>>> str(u)
'file:///foo/bar/baz'
>>> pycompat.bytestr(u.localpath())
'/foo/bar/baz'
>>> u = url(b'file:///f:oo/bar/baz')
>>> u
<url scheme: 'file', path: 'f:oo/bar/baz'>
>>> str(u)
'file:///f:oo/bar/baz'
>>> pycompat.bytestr(u.localpath())
'f:oo/bar/baz'
>>> u = url(b'file://localhost/f:oo/bar/baz')
>>> u
<url scheme: 'file', host: 'localhost', path: 'f:oo/bar/baz'>
>>> str(u)
'file://localhost/f:oo/bar/baz'
>>> pycompat.bytestr(u.localpath())
'f:oo/bar/baz'
>>> u = url(b'file:foo/bar/baz')
>>> u
<url scheme: 'file', path: 'foo/bar/baz'>
>>> str(u)
'file:foo/bar/baz'
>>> pycompat.bytestr(u.localpath())
'foo/bar/baz'
"""
if 'TERM' in os.environ:
del os.environ['TERM']
doctest.testmod(optionflags=doctest.NORMALIZE_WHITESPACE)