manifest.py revision 2608
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import errno
import hashlib
import os
import tempfile
"""A Manifest is the representation of the actions composing a specific
package version on both the client and the repository. Both purposes
utilize the same storage format.
The serialized structure of a manifest is an unordered list of actions.
The special action, "set", represents a package attribute.
The reserved attribute, "fmri", represents the package and version
described by this manifest. It is available as a string via the
attributes dictionary, and as an FMRI object from the fmri member.
The list of manifest-wide reserved attributes is
base_directory Default base directory, for non-user images.
fmri Package FMRI.
isa Package is intended for a list of ISAs.
platform Package is intended for a list of platforms.
relocatable Suitable for User Image.
All non-prefixed attributes are reserved to the framework. Third
parties may prefix their attributes with a reversed domain name, domain
name, or stock symbol. An example might be
com.example,supported
as an indicator that a specific package version is supported by the
vendor, example.com.
manifest.null is provided as the null manifest. Differences against the
null manifest result in the complete set of attributes and actions of
the non-null manifest, meaning that all operations can be viewed as
tranitions between the manifest being installed and the manifest already
present in the image (which may be the null manifest).
"""
self.actions_bytype = {}
r = ""
r += "%s\n" % act
return r
"""A generator function that returns the unsorted manifest
contents as lines of text."""
yield "%s\n" % act
def tostr_unsorted(self):
"""Return three lists of action pairs representing origin and
destination actions. The first list contains the pairs
representing additions, the second list contains the pairs
representing updates, and the third list contains the pairs
representing removals. All three lists are in the order in
which they should be executed."""
# XXX Do we need to find some way to assert that the keys are
# all unique?
# No origin was provided, so nothing has been changed or
# removed; only added. In addition, this doesn't need
# to be sorted since the caller likely already does
return ManifestDifference(
[], [])
def hashify(v):
"""handle key values that may be lists"""
if isinstance(v, list):
return frozenset(v)
else:
return v
)
)
changed = [
]
# XXX Do changed actions need to be sorted at all? This is
# likely to be the largest list, so we might save significant
# time by not sorting. Should we sort above? Insert into a
# sorted list?
# singlesort = lambda x: x[0] or x[1]
addsort = lambda x: x[1]
remsort = lambda x: x[0]
"""Like the unix utility comm, except that this function
takes an arbitrary number of manifests and compares them,
returning a tuple consisting of each manifest's actions
that are not the same for all manifests, followed by a
list of actions that are the same in each manifest."""
# Must specify at least one manifest.
assert compare_m
dups = []
# construct list of dictionaries of actions in each
# manifest, indexed by unique key and variant combination
m_dicts = []
for m in compare_m:
m_dict = {}
for a in m.gen_actions():
# The unique key for each action is based on its
# type, key attribute, and unique variants set
# on the action.
try:
"%s=%s" % (v, a.attrs[v])
for v in a.get_varcet_keys()[0]
)
except KeyError:
# If there is no key attribute for the
# action, then fallback to the object
# id for the action as its identifier.
# catch duplicate actions here...
if dups:
# construct list of key sets in each dict
m_sets = [
for m in m_dicts
]
# determine which common_keys have common actions
for k in common_keys.copy():
m_dicts[i + 1][k]):
break
return tuple(
[
]
+
[
]
)
"""Where difference() returns three lists, combined_difference()
returns a single list of the concatenation of the three."""
"""Output expects that self is newer than other. Use of sets
requires that we convert the action objects into some marshalled
form, otherwise set member identities are derived from the
object pointers, rather than the contents."""
out = ""
if not src:
elif not dest:
else:
return out
def _gen_dirs_to_str(self):
"""Generate contents of dircache file containing all dirctories
referenced explicitly or implicitly from self.actions. Include
variants as values; collapse variants where possible."""
def gen_references(a):
for d in expanddirs(a.directory_references()):
yield d
for d in dirs:
for v in dirs[d]:
yield "dir path=%s %s\n" % \
for t in v.iteritems()))
def _gen_mediators_to_str(self):
"""Generate contents of mediatorcache file containing all
mediators referenced explicitly or implicitly from self.actions.
Include variants as values; collapse variants where possible."""
def gen_references(a):
"mediator" in a.attrs:
values = {
}
a = "set name=pkg.mediator " \
" ".join((
"=".join(t)
if t[1]
)),
" ".join((
"=".join(t)
))
)
yield a
"""create dictionary of all actions referenced explicitly or
implicitly from self.actions... include variants as values;
collapse variants where possible"""
refs = {}
# build a dictionary containing all directories tagged w/
# variants
v, f = a.get_varcet_keys()
for ref in references(a):
# remove any tags if any entries are always delivered (NULL)
continue
# could collapse refs where all variants are present
# (the current logic only collapses them if at least
# one reference is delivered without a facet or
# variant)
return refs
""" return a list of directories implicitly or
explicitly referenced by this object"""
try:
except KeyError:
# generate actions that contain directories
for s in self._gen_dirs_to_str()
]
s = set([
a.attrs["path"]
for a in alist
if a.include_this(excludes)
])
return list(s)
"""A generator function that yields tuples of the form (mediator,
mediations) expressing the set of possible mediations for this
package, where 'mediations' is a set() of possible mediations for
the mediator. Each mediation is a tuple of the form (priority,
version, implementation).
"""
try:
except KeyError:
# generate actions that contain mediators
for s in self._gen_mediators_to_str()
]
for attrs in (
if med_ver:
try:
"5.11")
except version.VersionError:
# Consider this mediation unavailable
# if it can't be parsed for whatever
# reason.
continue
))
for m in ret:
yield m, ret[m]
"""Generate actions in manifest through ordered callable list"""
for c in excludes:
if not c(a):
break
else:
yield a
"""Generate actions in the manifest of type "type"
through ordered callable list"""
for c in excludes:
if not c(a):
break
else:
yield a
"""Generate actions in the manifest of types "atypes"
through ordered callable list."""
yield a
"""Generate the value of the key atrribute for each action
of type "type" in the manifest."""
return (
)
"""Find actions in the manifest which are duplicates (i.e.,
represent the same object) but which are not identical (i.e.,
have all the same attributes)."""
def fun(a):
"""Return a key on which actions can be sorted."""
alldups = []
if dups:
return alldups
accumulate = ""
lineno = 0
errors = []
# Get an iterable for the string.
for l in content:
lineno += 1
l = l.lstrip()
continue
elif accumulate:
l = accumulate + l
accumulate = ""
if not l or l[0] == "#": # ignore blank lines & comments
continue
try:
except actions.ActionError, e:
# Accumulate errors and continue so that as
# much of the action data as possible can be
# parsed.
if errors:
"""Populate the manifest with actions.
'content' is an optional value containing either the text
representation of the manifest or an iterable of
action objects.
'excludes' is optional. If provided it must be a length two
list with the variants to be excluded as the first element and
the facets to be exclduded as the second element.
'pathname' is an optional filename containing the location of
the manifest content.
'signatures' is an optional boolean value that indicates whether
a manifest signature should be generated. This is only possible
when 'content' is a string or 'pathname' is provided.
"""
self.actions_bytype = {}
self.attributes = {}
# sdict and odict in difference() above, and have that be our
# main datastore, rather than the simple list we have now. If
# we do that here, we can even assert that the "same" action
# can't be in a manifest twice. (The problem of having the same
# action more than once in packages that can be installed
# together has to be solved somewhere else, though.)
if pathname:
try:
except EnvironmentError, e:
raise apx._convert_error(e)
if signatures:
# Generate manifest signature based upon
# input content, but only if signatures
# were requested.
self.signatures = {
}
# Make sure that either no excludes were provided or that both
# variants and facet excludes were.
"""Remove any actions from the manifest which should be
excluded."""
"""Performs any needed transformations on the action then adds
it to the manifest.
The "action" parameter is the action object that should be
added to the manifest.
The "excludes" parameter is the variants to exclude from the
manifest."""
# XXX handle legacy transition issues; not needed after
# 2009.06 release & republication are complete.
# Translate old action to new.
return
# add any set actions to attributes
# append any variants and facets to manifest dict
return
try:
except TypeError:
# Lists can't be set elements.
_("%(forv)s '%(v)s' specified multiple times") %
"""Fill attribute array w/ set action contents."""
try:
if keyvalue == "fmri":
keyvalue = "pkg.fmri"
except KeyError: # ignore broken set actions
pass
log=None):
"""Produces the search dictionary for a specific manifest.
A dictionary is constructed which maps a tuple of token,
action type, key, and the value that matched the token to
the byte offset into the manifest file. file_path is the
path to the manifest file. excludes is the variants which
should be allowed in this image. return_line is a debugging
flag which makes the function map the information to the
string of the line, rather than the byte offset to allow
easier debugging."""
if log is None:
log = lambda x: None
cur_pos = 0
action_dict = {}
"""Translates what actions.generate_indices produces
into a dictionary mapping token, action_name, key, and
the value that should be displayed for matching that
token to byte offsets into the manifest file.
The "lst" parameter is the data to be converted.
The "cp" parameter is the byte offset into the file
for the action which produced lst."""
if action_name == "set":
if full_value is None:
else:
if full_value is None:
if full_value is None:
(action_name, subtype, t,
for t in tok
], cp)
else:
full_value) in action_dict:
else:
while line:
if l and l[0] != "#":
try:
except actions.ActionError, e:
log((_("%(fp)s:\n%(e)s") %
else:
try:
except KeyError, k:
log(_("%(fp)s contains "
"an action which is"
" missing the "
"expected attribute"
": %(at)s.\nThe "
"action is:"
"%(act)s") %
{
"fp": file_path,
"act":l
})
else:
if return_line:
arg = l
return action_dict
def hash_create(mfstcontent):
"""This method takes a string representing the on-disk
manifest content, and returns a hash value."""
# Byte stream expected, so pass encoded.
else:
"""Verifies whether the signatures for the contents of
the manifest match the specified signature data. Raises
the 'BadManifestSignatures' exception on failure."""
"""Store the manifest contents to disk."""
try:
except EnvironmentError, e:
raise apx.ReadOnlyFileSystemException(
e.filename)
raise
try:
except EnvironmentError, e:
raise apx.ReadOnlyFileSystemException(
e.filename)
raise
#
# We specifically avoid sorting manifests before writing
# them to disk-- there's really no point in doing so, since
# we'll sort actions globally during packaging operations.
#
try:
except EnvironmentError, e:
raise apx.ReadOnlyFileSystemException(
e.filename)
raise
return None
return variants
return [variants]
def get_all_variants(self):
"""Return a dictionary mapping variant tags to their values."""
)))
try:
except KeyError:
return default
"""Returns the boolean of the value of the attribute 'key'."""
if ret == "true":
return True
elif ret == "false":
return False
else:
raise ValueError(_("Attribute value '%s' not 'true' or "
"'false'" % ret))
"""Returns an integer representing the total size, in bytes, of
the Manifest's data payload.
'excludes' is a list of variants which should be allowed when
calculating the total.
"""
size = 0
return size
"""Return the value for the package attribute 'key'."""
"""Set the value for the package attribute 'key' to 'value'."""
return
class FactoredManifest(Manifest):
"""This class serves as a wrapper for the Manifest class for callers
that need efficient access to package data on a per-action type basis.
It achieves this by partitioning the manifest into multiple files (one
per action type) and then storing an on-disk cache of the directories
explictly and implicitly referenced by the manifest each tagged with
pathname=None):
"""Raises KeyError exception if factored manifest is not present
and contents are None; delays reading of manifest until required
if cache file is present.
'fmri' is a PkgFmri object representing the identity of the
package.
'cache_root' is the pathname of the directory where the manifest
and cache files should be stored or loaded from.
'contents' is an optional string to use as the contents of the
manifest if a cached copy does not already exist.
'excludes' is optional. If provided it must be a length two
list with the variants to be excluded as the first element and
the facets to be exclduded as the second element.
'pathname' is an optional string containing the pathname of a
manifest. If not provided, it is assumed that the manifest is
stored in a file named 'manifest' in the directory indicated by
'cache_root'. If provided, and contents is also provided, then
'contents' will be stored in 'pathname' if it does not already
exist.
"""
# Make sure that either no excludes were provided or that both
# variants and facet excludes were.
# Do we have a cached copy?
if not contents:
# we have no cached copy; save one
# don't specify excludes so on-disk copy has
# all variants
if self.__storeback():
elif excludes:
return
# we have a cached copy of the manifest
# have we computed the dircache?
if self.__storeback():
elif excludes:
"""Load all manifest contents from on-disk copy of manifest"""
"""Unload manifest; used to reduce peak memory comsumption
when downloading new manifests"""
self.actions_bytype = {}
self.attributes = {}
def __finiload(self):
"""Finish loading.... this part of initialization is common
to multiple code paths"""
def __storeback(self):
""" store the current action set; also create per-type
caches. Return True if data was saved, False if not"""
try:
return True
except apx.PermissionsException:
# this allows us to try to cache new manifests
# when non-root w/o failures.
return False
def __storebytype(self):
""" create manifest.<typename> files to accelerate partial
parsing of manifests. Separate from __storeback code to
allow upgrade to reuse existing on disk manifests"""
# Ensure target cache directory and intermediates exist.
# create per-action type cache; use rename to avoid
# corrupt files if ^C'd in the middle
t_prefix = "manifest.%s." % n
for a in self.actions_bytype[n]:
f.write("%s\n" % a)
f.close()
try:
prefix="manifest.dircache.")
f.writelines(refs())
except EnvironmentError, e:
raise apx._convert_error(e)
create_cache("manifest.mediatorcache",
def clear_cache(cache_root):
"""Remove all manifest cache files found in the given directory
(excluding the manifest itself).
"""
try:
continue
try:
cache_root, cname))
except EnvironmentError, e:
raise
except EnvironmentError, e:
# Only raise error if failure wasn't due to
# cache directory not existing.
raise apx._convert_error(e)
"""Private helper function for loading arbitrary cached manifest
data.
"""
# no cached copy
# need to load from disk
return
# we have cached copy on disk; use it
try:
for s in f
]
except EnvironmentError, e:
raise apx._convert_error(e)
""" return a list of directories implicitly or explicitly
referenced by this object
"""
""" generate actions of the specified type;
use already in-memory stuff if already loaded,
otherwise use per-action types files"""
# invoke subclass method to generate action by action
excludes):
yield a
return
# This checks if we've already written out the factorerd
# manifest files. If so, we'll use it, and if not, then
# we'll load the full manifest.
# no cached copy :-(
# get manifest from disk
# invoke subclass method to generate action by action
excludes):
yield a
else:
# we have a cached copy - use it
return # no such action in this manifest
for l in f:
if a.include_this(excludes):
yield a
f.close()
"""A generator function that yields set actions expressing the
set of possible mediations for this package.
"""
def __load_attributes(self):
"""Load attributes dictionary from cached set actions;
this speeds up pkg info a lot"""
return False
for l in f:
f.close()
return True
"""No assignments to factored manifests allowed."""
assert "FactoredManifests are not dicts"
try:
except KeyError:
return default
def get_all_variants(self):
"""The absolute pathname of the file containing the manifest."""
if self.__pathname:
return self.__pathname
class EmptyFactoredManifest(Manifest):
"""Special class for pkgplan's need for a empty manifest;
the regular null manifest doesn't support get_directories
and making the factored manifest code handle this case is
too ugly..."""
"""Return three lists of action pairs representing origin and
destination actions. The first list contains the pairs
representing additions, the second list contains the pairs
representing updates, and the third list contains the pairs
representing removals. All three lists are in the order in
which they should be executed."""
# The difference for this case is simply everything in the
# origin has been removed. This is an optimization for
# uninstall.
return ManifestDifference([], [],
def get_directories(excludes):
return []
# This method is overridden so that self.excludes is never set
# on the singleton NullFactoredManifest.
return
raise RuntimeError("Cannot call set_content on an "
"EmptyFactoredManifest")
class ManifestError(Exception):
"""Simple Exception class to handle manifest specific errors"""
ret = []
for d in self.__duplicates: