""" URIs (kinda sorta, really they're capabilities?). Ported to Python 3. Methods ending in to_string() are actually to_bytes(), possibly should be fixed in follow-up port. """ from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals from future.utils import PY2 if PY2: # Don't import bytes or str, to prevent future's newbytes leaking and # breaking code that only expects normal bytes. from future.builtins import filter, map, zip, ascii, chr, hex, input, next, oct, open, pow, round, super, dict, list, object, range, max, min # noqa: F401 str = unicode from past.builtins import unicode, long import re from zope.interface import implementer from twisted.python.components import registerAdapter from allmydata.storage.server import si_a2b, si_b2a from allmydata.util import base32, hashutil from allmydata.util.assertutil import _assert from allmydata.interfaces import IURI, IDirnodeURI, IFileURI, IImmutableFileURI, \ IVerifierURI, IMutableFileURI, IDirectoryURI, IReadonlyDirectoryURI, \ MustBeDeepImmutableError, MustBeReadonlyError, CapConstraintError class BadURIError(CapConstraintError): pass # The URI shall be an ASCII representation of a reference to the file/directory. # It shall contain enough information to retrieve and validate the contents. # It shall be expressed in a limited character set (currently base32 plus ':' and # capital letters, but future URIs might use a larger charset). # TODO: # - rename all of the *URI classes/interfaces to *Cap # - make variable and method names consistently use _uri for an URI string, # and _cap for a Cap object (decoded URI) BASE32STR_128bits = b'(%s{25}%s)' % (base32.BASE32CHAR, base32.BASE32CHAR_3bits) BASE32STR_256bits = b'(%s{51}%s)' % (base32.BASE32CHAR, base32.BASE32CHAR_1bits) NUMBER=b'([0-9]+)' class _BaseURI(object): def __hash__(self): return self.to_string().__hash__() def __eq__(self, them): if isinstance(them, _BaseURI): return self.to_string() == them.to_string() else: return False def __ne__(self, them): if isinstance(them, _BaseURI): return self.to_string() != them.to_string() else: return True def get_storage_index(self): return self.storage_index @implementer(IURI, IImmutableFileURI) class CHKFileURI(_BaseURI): BASE_STRING=b'URI:CHK:' STRING_RE=re.compile(b'^URI:CHK:'+BASE32STR_128bits+b':'+ BASE32STR_256bits+b':'+NUMBER+b':'+NUMBER+b':'+NUMBER+ b'$') def __init__(self, key, uri_extension_hash, needed_shares, total_shares, size): self.key = key self.uri_extension_hash = uri_extension_hash self.needed_shares = needed_shares self.total_shares = total_shares self.size = size self.storage_index = hashutil.storage_index_hash(self.key) if not len(self.storage_index) == 16: # sha256 hash truncated to 128 raise BadURIError("storage index must be 16 bytes long") @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(base32.a2b(mo.group(1)), base32.a2b(mo.group(2)), int(mo.group(3)), int(mo.group(4)), int(mo.group(5))) def to_string(self): assert isinstance(self.needed_shares, int) assert isinstance(self.total_shares, int) assert isinstance(self.size, (int,long)) return (b'URI:CHK:%s:%s:%d:%d:%d' % (base32.b2a(self.key), base32.b2a(self.uri_extension_hash), self.needed_shares, self.total_shares, self.size)) def is_readonly(self): return True def is_mutable(self): return False def get_readonly(self): return self def get_size(self): return self.size def get_verify_cap(self): return CHKFileVerifierURI(storage_index=self.storage_index, uri_extension_hash=self.uri_extension_hash, needed_shares=self.needed_shares, total_shares=self.total_shares, size=self.size) @implementer(IVerifierURI) class CHKFileVerifierURI(_BaseURI): BASE_STRING=b'URI:CHK-Verifier:' STRING_RE=re.compile(b'^URI:CHK-Verifier:'+BASE32STR_128bits+b':'+ BASE32STR_256bits+b':'+NUMBER+b':'+NUMBER+b':'+NUMBER) def __init__(self, storage_index, uri_extension_hash, needed_shares, total_shares, size): assert len(storage_index) == 16 self.storage_index = storage_index self.uri_extension_hash = uri_extension_hash self.needed_shares = needed_shares self.total_shares = total_shares self.size = size @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(si_a2b(mo.group(1)), base32.a2b(mo.group(2)), int(mo.group(3)), int(mo.group(4)), int(mo.group(5))) def to_string(self): assert isinstance(self.needed_shares, int) assert isinstance(self.total_shares, int) assert isinstance(self.size, (int,long)) return (b'URI:CHK-Verifier:%s:%s:%d:%d:%d' % (si_b2a(self.storage_index), base32.b2a(self.uri_extension_hash), self.needed_shares, self.total_shares, self.size)) def is_readonly(self): return True def is_mutable(self): return False def get_readonly(self): return self def get_verify_cap(self): return self @implementer(IURI, IImmutableFileURI) class LiteralFileURI(_BaseURI): BASE_STRING=b'URI:LIT:' STRING_RE=re.compile(b'^URI:LIT:'+base32.BASE32STR_anybytes+b'$') def __init__(self, data=None): if data is not None: assert isinstance(data, bytes) self.data = data @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(base32.a2b(mo.group(1))) def to_string(self): return b'URI:LIT:%s' % base32.b2a(self.data) def is_readonly(self): return True def is_mutable(self): return False def get_readonly(self): return self def get_storage_index(self): return None def get_verify_cap(self): # LIT files need no verification, all the data is present in the URI return None def get_size(self): return len(self.data) @implementer(IURI, IMutableFileURI) class WriteableSSKFileURI(_BaseURI): BASE_STRING=b'URI:SSK:' STRING_RE=re.compile(b'^'+BASE_STRING+BASE32STR_128bits+b':'+ BASE32STR_256bits+b'$') def __init__(self, writekey, fingerprint): self.writekey = writekey self.readkey = hashutil.ssk_readkey_hash(writekey) self.storage_index = hashutil.ssk_storage_index_hash(self.readkey) assert len(self.storage_index) == 16 self.fingerprint = fingerprint @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(base32.a2b(mo.group(1)), base32.a2b(mo.group(2))) def to_string(self): assert isinstance(self.writekey, bytes) assert isinstance(self.fingerprint, bytes) return b'URI:SSK:%s:%s' % (base32.b2a(self.writekey), base32.b2a(self.fingerprint)) def __repr__(self): return "<%s %s>" % (self.__class__.__name__, self.abbrev()) def abbrev(self): return base32.b2a(self.writekey[:5]) def abbrev_si(self): return base32.b2a(self.storage_index)[:5] def is_readonly(self): return False def is_mutable(self): return True def get_readonly(self): return ReadonlySSKFileURI(self.readkey, self.fingerprint) def get_verify_cap(self): return SSKVerifierURI(self.storage_index, self.fingerprint) @implementer(IURI, IMutableFileURI) class ReadonlySSKFileURI(_BaseURI): BASE_STRING=b'URI:SSK-RO:' STRING_RE=re.compile(b'^URI:SSK-RO:'+BASE32STR_128bits+b':'+BASE32STR_256bits+b'$') def __init__(self, readkey, fingerprint): self.readkey = readkey self.storage_index = hashutil.ssk_storage_index_hash(self.readkey) assert len(self.storage_index) == 16 self.fingerprint = fingerprint @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(base32.a2b(mo.group(1)), base32.a2b(mo.group(2))) def to_string(self): assert isinstance(self.readkey, bytes) assert isinstance(self.fingerprint, bytes) return b'URI:SSK-RO:%s:%s' % (base32.b2a(self.readkey), base32.b2a(self.fingerprint)) def __repr__(self): return "<%s %s>" % (self.__class__.__name__, self.abbrev()) def abbrev(self): return base32.b2a(self.readkey[:5]) def abbrev_si(self): return base32.b2a(self.storage_index)[:5] def is_readonly(self): return True def is_mutable(self): return True def get_readonly(self): return self def get_verify_cap(self): return SSKVerifierURI(self.storage_index, self.fingerprint) @implementer(IVerifierURI) class SSKVerifierURI(_BaseURI): BASE_STRING=b'URI:SSK-Verifier:' STRING_RE=re.compile(b'^'+BASE_STRING+BASE32STR_128bits+b':'+BASE32STR_256bits+b'$') def __init__(self, storage_index, fingerprint): assert len(storage_index) == 16 self.storage_index = storage_index self.fingerprint = fingerprint @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(si_a2b(mo.group(1)), base32.a2b(mo.group(2))) def to_string(self): assert isinstance(self.storage_index, bytes) assert isinstance(self.fingerprint, bytes) return b'URI:SSK-Verifier:%s:%s' % (si_b2a(self.storage_index), base32.b2a(self.fingerprint)) def is_readonly(self): return True def is_mutable(self): return False def get_readonly(self): return self def get_verify_cap(self): return self @implementer(IURI, IMutableFileURI) class WriteableMDMFFileURI(_BaseURI): BASE_STRING=b'URI:MDMF:' STRING_RE=re.compile(b'^'+BASE_STRING+BASE32STR_128bits+b':'+BASE32STR_256bits+b'(:|$)') def __init__(self, writekey, fingerprint): self.writekey = writekey self.readkey = hashutil.ssk_readkey_hash(writekey) self.storage_index = hashutil.ssk_storage_index_hash(self.readkey) assert len(self.storage_index) == 16 self.fingerprint = fingerprint @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(base32.a2b(mo.group(1)), base32.a2b(mo.group(2))) def to_string(self): assert isinstance(self.writekey, bytes) assert isinstance(self.fingerprint, bytes) ret = b'URI:MDMF:%s:%s' % (base32.b2a(self.writekey), base32.b2a(self.fingerprint)) return ret def __repr__(self): return "<%s %s>" % (self.__class__.__name__, self.abbrev()) def abbrev(self): return base32.b2a(self.writekey[:5]) def abbrev_si(self): return base32.b2a(self.storage_index)[:5] def is_readonly(self): return False def is_mutable(self): return True def get_readonly(self): return ReadonlyMDMFFileURI(self.readkey, self.fingerprint) def get_verify_cap(self): return MDMFVerifierURI(self.storage_index, self.fingerprint) @implementer(IURI, IMutableFileURI) class ReadonlyMDMFFileURI(_BaseURI): BASE_STRING=b'URI:MDMF-RO:' STRING_RE=re.compile(b'^' +BASE_STRING+BASE32STR_128bits+b':'+BASE32STR_256bits+b'(:|$)') def __init__(self, readkey, fingerprint): self.readkey = readkey self.storage_index = hashutil.ssk_storage_index_hash(self.readkey) assert len(self.storage_index) == 16 self.fingerprint = fingerprint @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(base32.a2b(mo.group(1)), base32.a2b(mo.group(2))) def to_string(self): assert isinstance(self.readkey, bytes) assert isinstance(self.fingerprint, bytes) ret = b'URI:MDMF-RO:%s:%s' % (base32.b2a(self.readkey), base32.b2a(self.fingerprint)) return ret def __repr__(self): return "<%s %s>" % (self.__class__.__name__, self.abbrev()) def abbrev(self): return base32.b2a(self.readkey[:5]) def abbrev_si(self): return base32.b2a(self.storage_index)[:5] def is_readonly(self): return True def is_mutable(self): return True def get_readonly(self): return self def get_verify_cap(self): return MDMFVerifierURI(self.storage_index, self.fingerprint) @implementer(IVerifierURI) class MDMFVerifierURI(_BaseURI): BASE_STRING=b'URI:MDMF-Verifier:' STRING_RE=re.compile(b'^'+BASE_STRING+BASE32STR_128bits+b':'+BASE32STR_256bits+b'(:|$)') def __init__(self, storage_index, fingerprint): assert len(storage_index) == 16 self.storage_index = storage_index self.fingerprint = fingerprint @classmethod def init_from_string(cls, uri): mo = cls.STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) return cls(si_a2b(mo.group(1)), base32.a2b(mo.group(2))) def to_string(self): assert isinstance(self.storage_index, bytes) assert isinstance(self.fingerprint, bytes) ret = b'URI:MDMF-Verifier:%s:%s' % (si_b2a(self.storage_index), base32.b2a(self.fingerprint)) return ret def is_readonly(self): return True def is_mutable(self): return False def get_readonly(self): return self def get_verify_cap(self): return self @implementer(IURI, IDirnodeURI) class _DirectoryBaseURI(_BaseURI): def __init__(self, filenode_uri=None): self._filenode_uri = filenode_uri def __repr__(self): return "<%s %s>" % (self.__class__.__name__, self.abbrev()) @classmethod def init_from_string(cls, uri): mo = cls.BASE_STRING_RE.search(uri) if not mo: raise BadURIError("'%s' doesn't look like a %s cap" % (uri, cls)) bits = uri[mo.end():] fn = cls.INNER_URI_CLASS.init_from_string( cls.INNER_URI_CLASS.BASE_STRING+bits) return cls(fn) def to_string(self): fnuri = self._filenode_uri.to_string() mo = re.match(self.INNER_URI_CLASS.BASE_STRING, fnuri) assert mo, fnuri bits = fnuri[mo.end():] return self.BASE_STRING+bits def abbrev(self): return self._filenode_uri.to_string().split(b':')[2][:5] def abbrev_si(self): si = self._filenode_uri.get_storage_index() if si is None: return b"" return base32.b2a(si)[:5] def is_mutable(self): return True def get_filenode_cap(self): return self._filenode_uri def get_verify_cap(self): return DirectoryURIVerifier(self._filenode_uri.get_verify_cap()) def get_storage_index(self): return self._filenode_uri.get_storage_index() @implementer(IDirectoryURI) class DirectoryURI(_DirectoryBaseURI): BASE_STRING=b'URI:DIR2:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=WriteableSSKFileURI def __init__(self, filenode_uri=None): if filenode_uri: assert not filenode_uri.is_readonly() _DirectoryBaseURI.__init__(self, filenode_uri) def is_readonly(self): return False def get_readonly(self): return ReadonlyDirectoryURI(self._filenode_uri.get_readonly()) @implementer(IReadonlyDirectoryURI) class ReadonlyDirectoryURI(_DirectoryBaseURI): BASE_STRING=b'URI:DIR2-RO:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=ReadonlySSKFileURI def __init__(self, filenode_uri=None): if filenode_uri: assert filenode_uri.is_readonly() _DirectoryBaseURI.__init__(self, filenode_uri) def is_readonly(self): return True def get_readonly(self): return self class _ImmutableDirectoryBaseURI(_DirectoryBaseURI): def __init__(self, filenode_uri=None): if filenode_uri: assert isinstance(filenode_uri, self.INNER_URI_CLASS), filenode_uri assert not filenode_uri.is_mutable() _DirectoryBaseURI.__init__(self, filenode_uri) def is_readonly(self): return True def is_mutable(self): return False def get_readonly(self): return self class ImmutableDirectoryURI(_ImmutableDirectoryBaseURI): BASE_STRING=b'URI:DIR2-CHK:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=CHKFileURI def get_verify_cap(self): vcap = self._filenode_uri.get_verify_cap() return ImmutableDirectoryURIVerifier(vcap) class LiteralDirectoryURI(_ImmutableDirectoryBaseURI): BASE_STRING=b'URI:DIR2-LIT:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=LiteralFileURI def get_verify_cap(self): # LIT caps have no verifier, since they aren't distributed return None @implementer(IDirectoryURI) class MDMFDirectoryURI(_DirectoryBaseURI): BASE_STRING=b'URI:DIR2-MDMF:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=WriteableMDMFFileURI def __init__(self, filenode_uri=None): if filenode_uri: assert not filenode_uri.is_readonly() _DirectoryBaseURI.__init__(self, filenode_uri) def is_readonly(self): return False def get_readonly(self): return ReadonlyMDMFDirectoryURI(self._filenode_uri.get_readonly()) def get_verify_cap(self): return MDMFDirectoryURIVerifier(self._filenode_uri.get_verify_cap()) @implementer(IReadonlyDirectoryURI) class ReadonlyMDMFDirectoryURI(_DirectoryBaseURI): BASE_STRING=b'URI:DIR2-MDMF-RO:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=ReadonlyMDMFFileURI def __init__(self, filenode_uri=None): if filenode_uri: assert filenode_uri.is_readonly() _DirectoryBaseURI.__init__(self, filenode_uri) def is_readonly(self): return True def get_readonly(self): return self def get_verify_cap(self): return MDMFDirectoryURIVerifier(self._filenode_uri.get_verify_cap()) def wrap_dirnode_cap(filecap): if isinstance(filecap, WriteableSSKFileURI): return DirectoryURI(filecap) if isinstance(filecap, ReadonlySSKFileURI): return ReadonlyDirectoryURI(filecap) if isinstance(filecap, CHKFileURI): return ImmutableDirectoryURI(filecap) if isinstance(filecap, LiteralFileURI): return LiteralDirectoryURI(filecap) if isinstance(filecap, WriteableMDMFFileURI): return MDMFDirectoryURI(filecap) if isinstance(filecap, ReadonlyMDMFFileURI): return ReadonlyMDMFDirectoryURI(filecap) raise AssertionError("cannot interpret as a directory cap: %s" % filecap.__class__) @implementer(IVerifierURI) class MDMFDirectoryURIVerifier(_DirectoryBaseURI): BASE_STRING=b'URI:DIR2-MDMF-Verifier:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=MDMFVerifierURI def __init__(self, filenode_uri=None): if filenode_uri: _assert(IVerifierURI.providedBy(filenode_uri)) self._filenode_uri = filenode_uri def get_filenode_cap(self): return self._filenode_uri def is_mutable(self): return False def is_readonly(self): return True def get_readonly(self): return self @implementer(IVerifierURI) class DirectoryURIVerifier(_DirectoryBaseURI): BASE_STRING=b'URI:DIR2-Verifier:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=SSKVerifierURI def __init__(self, filenode_uri=None): if filenode_uri: _assert(IVerifierURI.providedBy(filenode_uri)) self._filenode_uri = filenode_uri def get_filenode_cap(self): return self._filenode_uri def is_mutable(self): return False def is_readonly(self): return True def get_readonly(self): return self @implementer(IVerifierURI) class ImmutableDirectoryURIVerifier(DirectoryURIVerifier): BASE_STRING=b'URI:DIR2-CHK-Verifier:' BASE_STRING_RE=re.compile(b'^'+BASE_STRING) INNER_URI_CLASS=CHKFileVerifierURI class UnknownURI(object): def __init__(self, uri, error=None): self._uri = uri self._error = error def to_string(self): return self._uri def get_readonly(self): return None def get_error(self): return self._error def get_verify_cap(self): return None ALLEGED_READONLY_PREFIX = b'ro.' ALLEGED_IMMUTABLE_PREFIX = b'imm.' def from_string(u, deep_immutable=False, name=u""): """Create URI from either unicode or byte string.""" if isinstance(u, unicode): u = u.encode("utf-8") if not isinstance(u, bytes): raise TypeError("URI must be unicode string or bytes: %r" % (u,)) # We allow and check ALLEGED_READONLY_PREFIX or ALLEGED_IMMUTABLE_PREFIX # on all URIs, even though we would only strictly need to do so for caps of # new formats (post Tahoe-LAFS 1.6). URIs that are not consistent with their # prefix are treated as unknown. This should be revisited when we add the # new cap formats. See ticket #833 comment:31. s = u can_be_mutable = can_be_writeable = not deep_immutable if s.startswith(ALLEGED_IMMUTABLE_PREFIX): can_be_mutable = can_be_writeable = False s = s[len(ALLEGED_IMMUTABLE_PREFIX):] elif s.startswith(ALLEGED_READONLY_PREFIX): can_be_writeable = False s = s[len(ALLEGED_READONLY_PREFIX):] error = None try: if s.startswith(b'URI:CHK:'): return CHKFileURI.init_from_string(s) elif s.startswith(b'URI:CHK-Verifier:'): return CHKFileVerifierURI.init_from_string(s) elif s.startswith(b'URI:LIT:'): return LiteralFileURI.init_from_string(s) elif s.startswith(b'URI:SSK:'): if can_be_writeable: return WriteableSSKFileURI.init_from_string(s) kind = "URI:SSK file writecap" elif s.startswith(b'URI:SSK-RO:'): if can_be_mutable: return ReadonlySSKFileURI.init_from_string(s) kind = "URI:SSK-RO readcap to a mutable file" elif s.startswith(b'URI:SSK-Verifier:'): return SSKVerifierURI.init_from_string(s) elif s.startswith(b'URI:MDMF:'): if can_be_writeable: return WriteableMDMFFileURI.init_from_string(s) kind = "URI:MDMF file writecap" elif s.startswith(b'URI:MDMF-RO:'): if can_be_mutable: return ReadonlyMDMFFileURI.init_from_string(s) kind = "URI:MDMF-RO readcap to a mutable file" elif s.startswith(b'URI:MDMF-Verifier:'): return MDMFVerifierURI.init_from_string(s) elif s.startswith(b'URI:DIR2:'): if can_be_writeable: return DirectoryURI.init_from_string(s) kind = "URI:DIR2 directory writecap" elif s.startswith(b'URI:DIR2-RO:'): if can_be_mutable: return ReadonlyDirectoryURI.init_from_string(s) kind = "URI:DIR2-RO readcap to a mutable directory" elif s.startswith(b'URI:DIR2-Verifier:'): return DirectoryURIVerifier.init_from_string(s) elif s.startswith(b'URI:DIR2-CHK:'): return ImmutableDirectoryURI.init_from_string(s) elif s.startswith(b'URI:DIR2-CHK-Verifier:'): return ImmutableDirectoryURIVerifier.init_from_string(s) elif s.startswith(b'URI:DIR2-LIT:'): return LiteralDirectoryURI.init_from_string(s) elif s.startswith(b'URI:DIR2-MDMF:'): if can_be_writeable: return MDMFDirectoryURI.init_from_string(s) kind = "URI:DIR2-MDMF directory writecap" elif s.startswith(b'URI:DIR2-MDMF-RO:'): if can_be_mutable: return ReadonlyMDMFDirectoryURI.init_from_string(s) kind = "URI:DIR2-MDMF-RO readcap to a mutable directory" elif s.startswith(b'URI:DIR2-MDMF-Verifier:'): return MDMFDirectoryURIVerifier.init_from_string(s) elif s.startswith(b'x-tahoe-future-test-writeable:') and not can_be_writeable: # For testing how future writeable caps would behave in read-only contexts. kind = "x-tahoe-future-test-writeable: testing cap" elif s.startswith(b'x-tahoe-future-test-mutable:') and not can_be_mutable: # For testing how future mutable readcaps would behave in immutable contexts. kind = "x-tahoe-future-test-mutable: testing cap" else: return UnknownURI(u) # We fell through because a constraint was not met. # Prefer to report the most specific constraint. if not can_be_mutable: error = MustBeDeepImmutableError(kind + " used in an immutable context", name) else: error = MustBeReadonlyError(kind + " used in a read-only context", name) except BadURIError as e: error = e return UnknownURI(u, error=error) def is_uri(s): try: from_string(s, deep_immutable=False) return True except (TypeError, AssertionError): return False def is_literal_file_uri(s): if isinstance(s, unicode): s = s.encode("utf-8") if not isinstance(s, bytes): return False return (s.startswith(b'URI:LIT:') or s.startswith(ALLEGED_READONLY_PREFIX + b'URI:LIT:') or s.startswith(ALLEGED_IMMUTABLE_PREFIX + b'URI:LIT:')) def has_uri_prefix(s): if isinstance(s, unicode): s = s.encode("utf-8") if not isinstance(s, bytes): return False return (s.startswith(b"URI:") or s.startswith(ALLEGED_READONLY_PREFIX + b'URI:') or s.startswith(ALLEGED_IMMUTABLE_PREFIX + b'URI:')) # These take the same keyword arguments as from_string above. def from_string_dirnode(s, **kwargs): u = from_string(s, **kwargs) _assert(IDirnodeURI.providedBy(u)) return u registerAdapter(from_string_dirnode, bytes, IDirnodeURI) def from_string_filenode(s, **kwargs): u = from_string(s, **kwargs) _assert(IFileURI.providedBy(u)) return u registerAdapter(from_string_filenode, bytes, IFileURI) def from_string_mutable_filenode(s, **kwargs): u = from_string(s, **kwargs) _assert(IMutableFileURI.providedBy(u)) return u registerAdapter(from_string_mutable_filenode, bytes, IMutableFileURI) def from_string_verifier(s, **kwargs): u = from_string(s, **kwargs) _assert(IVerifierURI.providedBy(u)) return u registerAdapter(from_string_verifier, bytes, IVerifierURI) def pack_extension(data): pieces = [] for k in sorted(data.keys()): value = data[k] if isinstance(value, (int, long)): value = b"%d" % value if isinstance(k, unicode): k = k.encode("utf-8") assert isinstance(value, bytes), k assert re.match(br'^[a-zA-Z_\-]+$', k) pieces.append(k + b':' + hashutil.netstring(value)) uri_extension = b''.join(pieces) return uri_extension def unpack_extension(data): d = {} while data: colon = data.index(b':') key = data[:colon] data = data[colon+1:] colon = data.index(b':') number = data[:colon] length = int(number) data = data[colon+1:] value = data[:length] assert data[length:length+1] == b',' data = data[length+1:] d[str(key, "utf-8")] = value # convert certain things to numbers for intkey in ('size', 'segment_size', 'num_segments', 'needed_shares', 'total_shares'): if intkey in d: d[intkey] = int(d[intkey]) return d def unpack_extension_readable(data): unpacked = unpack_extension(data) unpacked["UEB_hash"] = hashutil.uri_extension_hash(data) for k in sorted(unpacked.keys()): if 'hash' in k: unpacked[k] = base32.b2a(unpacked[k]) return unpacked