Esempio n. 1
0
    def __init__(self,
                 fmri=None,
                 build_release=None,
                 publisher=None,
                 name=None,
                 version=None):
        if fmri is not None:
            fmri = fmri.rstrip()

            veridx, nameidx, pubidx = \
                PkgFmri._gen_fmri_indexes(fmri)

            if pubidx != None:
                # Always use publisher information provided in
                # FMRI string.  (It could be ""; pkg:///name is
                # valid.)
                publisher = fmri[pubidx:nameidx - 1]

            if veridx != None:
                self.pkg_name = fmri[nameidx:veridx]
                try:
                    self.version = Version(fmri[veridx + 1:], build_release)
                except VersionError as iv:
                    raise IllegalFmri(fmri,
                                      IllegalFmri.BAD_VERSION,
                                      nested_exc=iv)
            else:
                self.pkg_name = fmri[nameidx:]
                self.version = None
        else:
            # pkg_name and version must be explicitly set.
            self.pkg_name = name
            if version:
                self.version = Version(version, build_release)
            else:
                self.version = None

        # Ensure publisher is always None if one was not specified.
        if publisher:
            self.publisher = publisher
        else:
            self.publisher = None

        if not self.pkg_name:
            raise IllegalFmri(fmri,
                              IllegalFmri.SYNTAX_ERROR,
                              detail="Missing package name")

        if not self.valid_pkg_name.match(self.pkg_name):
            raise IllegalFmri(fmri,
                              IllegalFmri.BAD_PACKAGENAME,
                              detail=self.pkg_name)

        self._hash = None
Esempio n. 2
0
class PkgFmri(object):
    """The publisher is the anchor of a package namespace.  Clients can
        choose to take packages from multiple publishers, and specify a default
        search path.  In general, package names may also be prefixed by a domain
        name, reverse domain name, or a stock symbol to avoid conflict.  The
        unprefixed namespace is expected to be managed by architectural review.

        The primary equivalence relationship assumes that packages of the same
        package name are forwards compatible across all versions of that
        package, and that higher build release versions are superior
        publications than lower build release versions."""

    # Stored in a class variable so that subclasses can override
    valid_pkg_name = g_valid_pkg_name

    __slots__ = ["version", "publisher", "pkg_name", "_hash", "__weakref__"]

    def __init__(self,
                 fmri=None,
                 build_release=None,
                 publisher=None,
                 name=None,
                 version=None):
        if fmri is not None:
            fmri = fmri.rstrip()

            veridx, nameidx, pubidx = \
                PkgFmri._gen_fmri_indexes(fmri)

            if pubidx != None:
                # Always use publisher information provided in
                # FMRI string.  (It could be ""; pkg:///name is
                # valid.)
                publisher = fmri[pubidx:nameidx - 1]

            if veridx != None:
                self.pkg_name = fmri[nameidx:veridx]
                try:
                    self.version = Version(fmri[veridx + 1:], build_release)
                except VersionError as iv:
                    raise IllegalFmri(fmri,
                                      IllegalFmri.BAD_VERSION,
                                      nested_exc=iv)
            else:
                self.pkg_name = fmri[nameidx:]
                self.version = None
        else:
            # pkg_name and version must be explicitly set.
            self.pkg_name = name
            if version:
                self.version = Version(version, build_release)
            else:
                self.version = None

        # Ensure publisher is always None if one was not specified.
        if publisher:
            self.publisher = publisher
        else:
            self.publisher = None

        if not self.pkg_name:
            raise IllegalFmri(fmri,
                              IllegalFmri.SYNTAX_ERROR,
                              detail="Missing package name")

        if not self.valid_pkg_name.match(self.pkg_name):
            raise IllegalFmri(fmri,
                              IllegalFmri.BAD_PACKAGENAME,
                              detail=self.pkg_name)

        self._hash = None

    @staticmethod
    def getstate(obj, je_state=None):
        """Returns the serialized state of this object in a format
                that that can be easily stored using JSON, pickle, etc."""
        return str(obj)

    @staticmethod
    def fromstate(state, jd_state=None):
        """Allocate a new object using previously serialized state
                obtained via getstate()."""
        return PkgFmri(state)

    def copy(self):
        return PkgFmri(str(self))

    @staticmethod
    def _gen_fmri_indexes(fmri):
        """Return a tuple of offsets, used to extract different
                components of the FMRI."""

        veridx = fmri.rfind("@")
        if veridx == -1:
            veridx = None

        pubidx = None
        if fmri.startswith("pkg://"):
            nameidx = fmri.find("/", 6, veridx)
            if nameidx == -1:
                raise IllegalFmri(fmri,
                                  IllegalFmri.SYNTAX_ERROR,
                                  detail=_("Missing '/' after "
                                           "publisher name"))

            # Publisher starts after //.
            pubidx = 6

            # Name starts after / which terminates publisher
            nameidx += 1

        elif fmri.startswith("pkg:/"):
            # Name starts after / which terminates scheme
            nameidx = 5
        elif fmri.startswith("//"):
            nameidx = fmri.find("/", 2, veridx)
            if nameidx == -1:
                raise IllegalFmri(fmri,
                                  IllegalFmri.SYNTAX_ERROR,
                                  detail=_("Missing '/' after "
                                           "publisher name"))

            # Publisher starts after //.
            pubidx = 2

            # Name starts after / which terminates publisher
            nameidx += 1
        elif fmri.startswith("/"):
            # Name starts after / which terminates scheme
            nameidx = 1
        else:
            nameidx = 0

        return (veridx, nameidx, pubidx)

    def get_publisher(self):
        """Return the name of the publisher that is contained
                within this FMRI.  This strips off extraneous data
                that may be attached to the publisher.  The output
                is suitable as a key into the publisher["prefix"] table."""

        # Strip off preferred publisher prefix, if it exists.
        if self.publisher and self.publisher.startswith(PREF_PUB_PFX):
            r = self.publisher.rsplit('_', 1)
            a = r[len(r) - 1]
            return a

        # Otherwise just return the publisher
        return self.publisher

    def set_publisher(self, publisher, preferred=False):
        """Set the FMRI's publisher.  If this is a preferred
                publisher, set preferred to True."""

        if preferred and not publisher.startswith(PREF_PUB_PFX):
            self.publisher = "{0}_{1}".format(PREF_PUB_PFX, publisher)
        else:
            self.publisher = publisher

    def remove_publisher(self):
        self.publisher = None
        return self

    def has_publisher(self):
        """Returns true if the FMRI has a publisher."""

        if self.publisher:
            return True

        return False

    def has_version(self):
        """Returns True if the FMRI has a version"""
        if self.version:
            return True
        return False

    def preferred_publisher(self):
        """Returns true if this FMRI's publisher is the preferred
                publisher."""

        if not self.publisher or \
            self.publisher.startswith(PREF_PUB_PFX):
            return True

        return False

    def get_publisher_str(self):
        """Return the bare string that specifies everything about
                the publisher.  This should only be used by code that
                must write out (or restore) the complete publisher
                information to disk."""

        return self.publisher

    def get_name(self):
        return self.pkg_name

    def set_name(self, name):
        self.pkg_name = name
        self._hash = None

    def set_timestamp(self, new_ts):
        self.version.set_timestamp(new_ts)
        self._hash = None

    def get_timestamp(self):
        return self.version.get_timestamp()

    def get_version(self):
        return self.version.get_short_version()

    def get_pkg_stem(self, anarchy=False, include_scheme=True):
        """Return a string representation of the FMRI without a specific
                version.  Anarchy returns a stem without any publisher."""
        pkg_str = ""
        if not self.publisher or \
            self.publisher.startswith(PREF_PUB_PFX) or anarchy:
            if include_scheme:
                pkg_str = "pkg:/"
            return "{0}{1}".format(pkg_str, self.pkg_name)
        if include_scheme:
            pkg_str = "pkg://"
        return "{0}{1}/{2}".format(pkg_str, self.publisher, self.pkg_name)

    def get_short_fmri(self,
                       default_publisher=None,
                       anarchy=False,
                       include_scheme=True):
        """Return a string representation of the FMRI without a specific
                version."""
        pkg_str = ""
        publisher = self.publisher
        if not publisher:
            publisher = default_publisher

        if self.version == None:
            version = ""
        else:
            version = "@" + self.version.get_short_version()

        if (not publisher or publisher.startswith(PREF_PUB_PFX) or anarchy):
            if include_scheme:
                pkg_str = "pkg:/"
            return "{0}{1}{2}".format(pkg_str, self.pkg_name, version)

        if include_scheme:
            pkg_str = "pkg://"
        return "{0}{1}/{2}{3}".format(pkg_str, publisher, self.pkg_name,
                                      version)

    def get_fmri(self,
                 default_publisher=None,
                 anarchy=False,
                 include_scheme=True,
                 include_build=True):
        """Return a string representation of the FMRI.
                Anarchy returns a string without any publisher."""
        pkg_str = ""
        publisher = self.publisher
        if publisher == None:
            publisher = default_publisher

        if not publisher or publisher.startswith(PREF_PUB_PFX) \
            or anarchy:
            if include_scheme:
                pkg_str = "pkg:/"
            if self.version == None:
                return "{0}{1}".format(pkg_str, self.pkg_name)

            return "{0}{1}@{2}".format(
                pkg_str, self.pkg_name,
                self.version.get_version(include_build=include_build))

        if include_scheme:
            pkg_str = "pkg://"
        if self.version == None:
            return "{0}{1}/{2}".format(pkg_str, publisher, self.pkg_name)

        return "{0}{1}/{2}@{3}".format(
            pkg_str, publisher, self.pkg_name,
            self.version.get_version(include_build=include_build))

    def hierarchical_names(self):
        """Generate the different hierarchical names that could be used
                to reference this fmri."""

        names = self.pkg_name.split("/")
        res = names[-1:]
        for n in reversed(names[:-1]):
            res.append("{0}/{1}".format(n, res[-1]))
        return res

    def __str__(self):
        """Return as specific an FMRI representation as possible."""
        return self.get_fmri()

    def __repr__(self):
        """Return as specific an FMRI representation as possible."""
        if not self.publisher:
            if not self.version:
                fmristr = "pkg:/{0}".format(self.pkg_name)
            else:
                fmristr = "pkg:/{0}@{1}".format(self.pkg_name, self.version)
        elif not self.version:
            fmristr = "pkg://{0}/{1}".format(self.publisher, self.pkg_name)
        else:
            fmristr = "pkg://{0}/{1}@{2}".format(self.publisher, self.pkg_name,
                                                 self.version)

        return "<pkg.fmri.PkgFmri '{0}' at {1:#x}".format(fmristr, id(self))

    def __hash__(self):
        #
        # __hash__ need not generate a unique hash value for all
        # possible objects-- it must simply guarantee that two
        # items which are equal (i.e. a = b) always hash to
        # the same value.
        #
        h = self._hash
        if h is None:
            h = self._hash = hash(self.version) + hash(self.pkg_name)
        return h

    def __eq__(self, other):
        if not other:
            return False

        if not isinstance(other, PkgFmri):
            return False

        if self.publisher == other.publisher and \
            self.pkg_name == other.pkg_name and \
            self.version == other.version:
            return True
        return False

    def __ne__(self, other):
        return not self == other

    def __lt__(self, other):
        if not other:
            return False

        if not isinstance(other, PkgFmri):
            return True

        if self.publisher != other.publisher:
            if self.publisher is None and other.publisher:
                return True
            if self.publisher and other.publisher is None:
                return False
            if self.publisher < other.publisher:
                return True
            return False

        if self.pkg_name < other.pkg_name:
            return True
        if self.pkg_name != other.pkg_name:
            return False

        if self.version is None and other.version is None:
            return False
        return self.version < other.version

    def __gt__(self, other):
        if not other:
            return True

        if not isinstance(other, PkgFmri):
            return False

        if self.publisher != other.publisher:
            if self.publisher and other.publisher is None:
                return True
            if self.publisher is None and other.publisher:
                return False
            if self.publisher > other.publisher:
                return True
            return False

        if self.pkg_name > other.pkg_name:
            return True
        if self.pkg_name != other.pkg_name:
            return False

        if self.version is None and other.version is None:
            return False
        return self.version > other.version

    def __ge__(self, other):
        return not self < other

    def __le__(self, other):
        return not self > other

    def get_link_path(self, stemonly=False):
        """Return the escaped link (or file) path fragment for this
                FMRI."""

        if stemonly:
            return "{0}".format(quote(self.pkg_name, ""))

        if self.version is None:
            raise MissingVersionError(self)

        return "{0}@{1}".format(quote(self.pkg_name, ""),
                                quote(str(self.version), ""))

    def get_dir_path(self, stemonly=False):
        """Return the escaped directory path fragment for this FMRI."""

        if stemonly:
            return "{0}".format(quote(self.pkg_name, ""))

        if self.version is None:
            raise MissingVersionError(self)

        return "{0}/{1}".format(quote(self.pkg_name, ""),
                                quote(self.version.__str__(), ""))

    def get_url_path(self):
        """Return the escaped URL path fragment for this FMRI.
                Requires a version to be defined."""

        if self.version is None:
            raise MissingVersionError(self)

        return "{0}@{1}".format(quote(self.pkg_name, ""),
                                quote(self.version.__str__(), ""))

    def is_same_pkg(self, other):
        """Return true if these packages are the same (although
                potentially of different versions.)"""
        return self.pkg_name == other.pkg_name

    def tuple(self):
        return self.get_publisher_str(), self.pkg_name, self.version

    def is_name_match(self, fmristr):
        """True if the regular expression given in fmristr matches the
                stem of this pkg: FMRI."""
        m = re.match(fmristr, self.pkg_name)
        return m != None

    def is_similar(self, other):
        """True if package names match exactly.  Not a pattern-based
                query."""
        return self.pkg_name == other.pkg_name

    def is_successor(self, other):
        """ returns True if self >= other """

        # Fastest path for most common case.
        if self.pkg_name != other.pkg_name:
            return False

        if self.version is None and other.version is None:
            return True
        if self.version < other.version:
            return False

        return True