From: Brian Warner Date: Sun, 21 Jan 2007 00:04:56 +0000 (-0700) Subject: filetree: put SubTreeMaker and NodeMaker in separate classes X-Git-Tag: tahoe_v0.1.0-0-UNSTABLE~342 X-Git-Url: https://git.rkrishnan.org/pf/content/en/seg/biz/?a=commitdiff_plain;h=8c7d33f4a2c9eb10833a34a70c4d475e81314633;p=tahoe-lafs%2Ftahoe-lafs.git filetree: put SubTreeMaker and NodeMaker in separate classes --- diff --git a/src/allmydata/filetree/interfaces.py b/src/allmydata/filetree/interfaces.py index 49d19504..dd799018 100644 --- a/src/allmydata/filetree/interfaces.py +++ b/src/allmydata/filetree/interfaces.py @@ -11,17 +11,17 @@ class INode(Interface): def serialize_node(): """Return a data structure which contains enough information to build this node again in the future (by calling - vdrive.make_node_from_serialized(). For IDirectoryNodes, this will be - a list. For all other nodes this will be a string of the form + INodeMaker.make_node_from_serialized(). For IDirectoryNodes, this + will be a list. For all other nodes this will be a string of the form 'prefix:body', where 'prefix' must be the same as the class attribute .prefix .""" def populate_node(body, node_maker): - """vdrive.make_node_from_serialized() will first use the prefix from - the .prefix attribute to decide what kind of Node to create. They - will then call this populate_node() method with the body to populate - the new Node. 'node_maker' provides INodeMaker, which provides that - same make_node_from_serialized function to create any internal child - nodes that might be necessary.""" + """INodeMaker.make_node_from_serialized() will first use the prefix + from the .prefix attribute to decide what kind of Node to create. + They will then call this populate_node() method with the body to + populate the new Node. 'node_maker' provides INodeMaker, which + provides that same make_node_from_serialized function to create any + internal child nodes that might be necessary.""" class IFileNode(Interface): """This is a file which can be retrieved.""" @@ -74,14 +74,14 @@ class ISubTree(Interface): # All ISubTree-providing instances must have a class-level attribute # named .node_class which references the matching INode-providing class. - # This is used by the Opener to turn nodes into subtrees. + # This is used by the ISubTreeMaker to turn nodes into subtrees. def populate_from_node(node, parent_is_mutable, node_maker, downloader): - """Subtrees are created by opener.open() being called with an INode - which describes both the kind of subtree to be created and a way to - obtain its contents. open() uses the node to create a new instance of - the appropriate subtree type, then calls this populate_from_node() - method. + """Subtrees are created by ISubTreeMaker.open() being called with an + INode which describes both the kind of subtree to be created and a + way to obtain its contents. open() uses the node to create a new + instance of the appropriate subtree type, then calls this + populate_from_node() method. Each subtree's populate_from_node() method is expected to use the downloader to obtain a file with the subtree's serialized contents @@ -195,59 +195,22 @@ class ISubTree(Interface): class INodeMaker(Interface): def make_node_from_serialized(serialized): - """Turn a string into an INode, which contains information about - the file or directory (like a URI), but does not contain the actual - contents. An IOpener can be used later to retrieve the contents - (which means downloading the file if this is an IFileNode, or - perhaps creating a new subtree from the contents).""" + """Turn a string into an INode, which contains information about the + file or directory (like a URI), but does not contain the actual + contents. An ISubTreeMaker can be used later to retrieve the contents + (which means downloading the file if this is an IFileNode, or perhaps + creating a new subtree from the contents).""" class ISubTreeMaker(Interface): def make_subtree_from_node(node, parent_is_mutable): - """Turn an INode into an ISubTree (using an internal opener to - download the data, if necessary). - This returns a Deferred that fires with the ISubTree instance. - """ + """Turn an INode into an ISubTree. -#class IMutableSubTree(Interface): -# def mutation_affects_parent(): -# """This returns True for CHK nodes where you must inform the parent -# of the new URI each time you change the child subtree. It returns -# False for SSK nodes (or other nodes which have a pointer stored in -# some mutable form). -# """ -# -# def add_subpath(subpath, child_spec, work_queue): -# """Ask this subtree to add the given child to an internal node at the -# given subpath. The subpath must not exit the subtree through another -# subtree (specifically get_subtree_for_path(subpath) must either -# return None or (True,node), and in the latter case, this subtree will -# create new internal nodes as necessary). -# -# The subtree will probably serialize itself to a file and add steps to -# the work queue to accomplish its goals. -# -# This returns a Deferred (the value of which is ignored) when -# everything has been added to the work queue. -# """ -# -# def serialize_to_file(f): -# """Write a bencoded data structure to the given filehandle that can -# be used to reproduce the contents of this subtree.""" -# -#class ISubTreeSpecification(Interface): -# def serialize(): -# """Return a tuple that describes this subtree. This tuple can be -# passed to IOpener.open() to reconstitute the subtree. It can also be -# bencoded and stuffed in a series of persistent bytes somewhere on the -# mesh or in a file.""" - -class IOpener(Interface): - def open(subtree_node, parent_is_mutable, node_maker): - """I can take an INode-providing specification of a subtree and - return a Deferred which fires with an instance that provides ISubTree - (and maybe even IMutableSubTree). I probably do this by performing - network IO: reading a file from the mesh, or from local disk, or - asking some central-service node for the current value.""" + I accept an INode-providing specification of a subtree, and return a + Deferred that fires with an ISubTree-providing instance. I will + perform network IO and download the serialized data that the INode + references, if necessary, or ask the queen (or other provider) for a + pointer, or read it from local disk. + """ class IVirtualDrive(Interface): @@ -255,20 +218,6 @@ class IVirtualDrive(Interface): def __init__(workqueue, downloader, root_node): pass - # internal methods - - def make_node_from_serialized(serialized): - """Given a string produced by original_node.serialize_node(), produce - an equivalent node. - """ - def make_subtree_from_node(node, parent_is_mutable): - """Given an INode, create an ISubTree. - - This returns a Deferred that fires (with the new subtree) when the - subtree is ready for use. This uses an IOpener to download the - subtree data, if necessary. - """ - # commands to manipulate files def list(path): diff --git a/src/allmydata/filetree/opener.py b/src/allmydata/filetree/opener.py deleted file mode 100644 index 1f052c11..00000000 --- a/src/allmydata/filetree/opener.py +++ /dev/null @@ -1,77 +0,0 @@ - -from zope.interface import implements -from twisted.internet import defer -from allmydata.filetree import interfaces, directory, redirect -#from allmydata.filetree.file import CHKFile, MutableSSKFile, ImmutableSSKFile -from allmydata.filetree.interfaces import INode, IDirectoryNode, INodeMaker - -all_openable_subtree_types = [ - directory.LocalFileSubTree, - directory.CHKDirectorySubTree, - directory.SSKDirectorySubTree, - redirect.LocalFileRedirection, - redirect.QueenRedirection, - redirect.QueenOrLocalFileRedirection, - redirect.HTTPRedirection, - ] - -# the Opener can turn an INode (which describes a subtree, like a directory -# or a redirection) into the fully-populated subtree. - -class Opener(object): - implements(interfaces.IOpener) - def __init__(self, queen, downloader): - self._queen = queen - self._downloader = downloader - self._cache = {} - - def _create(self, node, parent_is_mutable, node_maker): - assert INode(node) - assert INodeMaker(node_maker) - for subtree_class in all_openable_subtree_types: - if isinstance(node, subtree_class.node_class): - subtree = subtree_class() - d = subtree.populate_from_node(node, - parent_is_mutable, - node_maker, - self._downloader) - return d - raise RuntimeError("unable to handle subtree specification '%s'" - % (node,)) - - def open(self, node, parent_is_mutable, node_maker): - assert INode(node) - assert not isinstance(node, IDirectoryNode) - assert INodeMaker(node_maker) - - # is it in cache? To check this we need to use the node's serialized - # form, since nodes are instances and don't compare by value - node_s = node.serialize_node() - if node_s in self._cache: - return defer.succeed(self._cache[node_s]) - - d = defer.maybeDeferred(self._create, - node, parent_is_mutable, node_maker) - d.addCallback(self._add_to_cache, node_s) - return d - - def _add_to_cache(self, subtree, node_s): - self._cache[node_s] = subtree - # TODO: remove things from the cache eventually - return subtree - -""" - def _get_chk_file(self, spec): - subtree = CHKFile(spec.get_uri()) - return defer.succeed(subtree) - - def _get_ssk_file(self, spec): - if isinstance(spec, fspec.MutableSSKFileSpecification): - subtree = MutableSSKFile(spec.get_read_capability(), - spec.get_write_capability()) - else: - assert isinstance(spec, fspec.ImmutableSSKFileSpecification) - subtree = ImmutableSSKFile(spec.get_read_cap()) - return defer.succeed(subtree) - -""" diff --git a/src/allmydata/filetree/vdrive.py b/src/allmydata/filetree/vdrive.py index 3868ee2b..64e78b69 100644 --- a/src/allmydata/filetree/vdrive.py +++ b/src/allmydata/filetree/vdrive.py @@ -1,16 +1,18 @@ from zope.interface import implements -from allmydata.filetree import opener, directory, file, redirect +from twisted.internet import defer +from allmydata.filetree import directory, file, redirect from allmydata.filetree.interfaces import ( - IVirtualDrive, INodeMaker, INode, ISubTree, IFileNode, IDirectoryNode, + IVirtualDrive, ISubTreeMaker, + INodeMaker, INode, ISubTree, IFileNode, IDirectoryNode, NoSuchDirectoryError, NoSuchChildError, PathAlreadyExistsError, PathDoesNotExistError, ) from allmydata.upload import IUploadable -# this list is used by VirtualDrive.make_node_from_serialized() to convert -# node specification strings (found inside the serialized form of subtrees) -# into Nodes (which live in the in-RAM form of subtrees). +# this list is used by NodeMaker to convert node specification strings (found +# inside the serialized form of subtrees) into Nodes (which live in the +# in-RAM form of subtrees). all_node_types = [ directory.LocalFileSubTreeNode, directory.CHKDirectorySubTreeNode, @@ -23,27 +25,15 @@ all_node_types = [ redirect.QueenOrLocalFileRedirectionNode, ] -class VirtualDrive(object): - implements(IVirtualDrive, INodeMaker) +class NodeMaker(object): + implements(INodeMaker) - def __init__(self, workqueue, downloader, root_node): - assert INode(root_node) - self.workqueue = workqueue - workqueue.set_vdrive(self) - # TODO: queen? - self.queen = None - self.opener = opener.Opener(self.queen, downloader) - self.root_node = root_node - - # these are called when loading and creating nodes - - # INodeMaker def make_node_from_serialized(self, serialized): # this turns a string into an INode, which contains information about # the file or directory (like a URI), but does not contain the actual - # contents. An IOpener can be used later to retrieve the contents - # (which means downloading the file if this is an IFileNode, or - # perhaps creating a new subtree from the contents) + # contents. An ISubTreeMaker can be used later to retrieve the + # contents (which means downloading the file if this is an IFileNode, + # or perhaps creating a new subtree from the contents) # maybe include parent_is_mutable? assert isinstance(serialized, str) @@ -56,15 +46,78 @@ class VirtualDrive(object): return node raise RuntimeError("unable to handle node type '%s'" % prefix) - # ISubTreeMaker +all_openable_subtree_types = [ + directory.LocalFileSubTree, + directory.CHKDirectorySubTree, + directory.SSKDirectorySubTree, + redirect.LocalFileRedirection, + redirect.QueenRedirection, + redirect.QueenOrLocalFileRedirection, + redirect.HTTPRedirection, + ] + +class SubTreeMaker(object): + implements(ISubTreeMaker) + + def __init__(self, queen, downloader): + # this is created with everything it might need to download and + # create subtrees. That means a Downloader and a reference to the + # queen. + self._queen = queen + self._downloader = downloader + self._node_maker = NodeMaker() + self._cache = {} + + def _create(self, node, parent_is_mutable): + assert INode(node) + assert INodeMaker(self._node_maker) + for subtree_class in all_openable_subtree_types: + if isinstance(node, subtree_class.node_class): + subtree = subtree_class() + d = subtree.populate_from_node(node, + parent_is_mutable, + self._node_maker, + self._downloader) + return d + raise RuntimeError("unable to handle subtree specification '%s'" + % (node,)) + def make_subtree_from_node(self, node, parent_is_mutable): assert INode(node) - return self.opener.open(node, parent_is_mutable, self) + assert not isinstance(node, IDirectoryNode) + + # is it in cache? To check this we need to use the node's serialized + # form, since nodes are instances and don't compare by value + node_s = node.serialize_node() + if node_s in self._cache: + return defer.succeed(self._cache[node_s]) + + d = defer.maybeDeferred(self._create, node, parent_is_mutable) + d.addCallback(self._add_to_cache, node_s) + return d + + def _add_to_cache(self, subtree, node_s): + self._cache[node_s] = subtree + # TODO: remove things from the cache eventually + return subtree + + +class VirtualDrive(object): + implements(IVirtualDrive) + + def __init__(self, workqueue, downloader, root_node): + assert INode(root_node) + self.workqueue = workqueue + workqueue.set_vdrive(self) + # TODO: queen? + self.queen = None + self.root_node = root_node + self.subtree_maker = SubTreeMaker(self.queen, downloader) # these methods are used to walk through our subtrees def _get_root(self): - return self.make_subtree_from_node(self.root_node, False) + return self.subtree_maker.make_subtree_from_node(self.root_node, False) def _get_node(self, path): d = self._get_closest_node(path) @@ -94,7 +147,7 @@ class VirtualDrive(object): # traversal done return (node, remaining_path) # otherwise, we must open and recurse into a new subtree - d = self.make_subtree_from_node(node, parent_is_mutable) + d = self.subtree_maker.make_subtree_from_node(node, parent_is_mutable) def _opened(next_subtree): next_subtree = ISubTree(next_subtree) return self._get_closest_node_1(next_subtree, remaining_path) diff --git a/src/allmydata/test/test_filetree_new.py b/src/allmydata/test/test_filetree_new.py index 3f933479..cb592837 100644 --- a/src/allmydata/test/test_filetree_new.py +++ b/src/allmydata/test/test_filetree_new.py @@ -339,7 +339,7 @@ class Stuff(unittest.TestCase): # TODO: we only need this VirtualDrive for the opener. Perhaps # make_subtree_from_node should move out of that class and into a # module-level function. - v = self.makeVirtualDrive("test_filetree_new/testDirectory") + stm = vdrive.SubTreeMaker(None, None) # create an empty directory (stored locally) subtree = directory.LocalFileSubTree() @@ -399,7 +399,7 @@ class Stuff(unittest.TestCase): d = defer.maybeDeferred(subtree.update_now, None) def _updated(node): # now reconstruct it - return v.make_subtree_from_node(node, False) + return stm.make_subtree_from_node(node, False) d.addCallback(_updated) def _opened(new_subtree):