From: Brian Warner Date: Sat, 6 Jan 2007 04:11:19 +0000 (-0700) Subject: workqueue: fix pyflakes warnings, code is still quite incomplete X-Git-Tag: tahoe_v0.1.0-0-UNSTABLE~391 X-Git-Url: https://git.rkrishnan.org/running.html?a=commitdiff_plain;h=94b18402955a66350f20cbd0653629132d1747ab;p=tahoe-lafs%2Ftahoe-lafs.git workqueue: fix pyflakes warnings, code is still quite incomplete --- diff --git a/src/allmydata/workqueue.py b/src/allmydata/workqueue.py index 2f0de7db..13faf709 100644 --- a/src/allmydata/workqueue.py +++ b/src/allmydata/workqueue.py @@ -1,8 +1,10 @@ -import os, shutil +import os, shutil, sha from zope.interface import Interface, implements +from twisted.internet import defer from allmydata.util import bencode from allmydata.util.idlib import b2a +from allmydata.Crypto.Cipher import AES class IWorkQueue(Interface): """Each filetable root is associated a work queue, which is persisted on @@ -77,6 +79,9 @@ class IWorkQueue(Interface): def add_delete_box(boxname): """When executed, this step deletes the given box.""" +class NotCapableError(Exception): + """You have tried to write to a read-only node.""" + class Step(object): def setup(self, stepname, basedir): @@ -101,7 +106,7 @@ class UploadSSKStep(Step): previous_version = bencode.bdecode(f.read()) f.close() - n = SSKNode() + n = MutableSSKTracker() n.set_version(previous_version) n.set_write_capability(write_cap) f = open(source_filename, "rb") @@ -149,7 +154,7 @@ class WorkQueue(object): self.seqnum = max(self.seqnum, sn) # each of these files contains one string per line, and the first # line specifies what kind of step it is - assert seqnum < 1000 # TODO: don't let this grow unboundedly + assert self.seqnum < 1000 # TODO: don't let this grow unboundedly def create_tempfile(self, suffix=""): randomname = b2a(os.random(10)) @@ -243,8 +248,8 @@ class WorkQueue(object): will fire when the step completes.""" next_step = self.get_next_step() if next_step: - steptype, lines = self.get_next_step() - return self.dispatch_step(steptype, lines) + stepname, steptype, lines = self.get_next_step() + return self.dispatch_step(stepname, steptype, lines) return None def get_next_step(self): @@ -260,9 +265,9 @@ class WorkQueue(object): assert lines[-1] == "" lines.pop(-1) steptype = lines[0] - return steptype, lines + return stepname, steptype, lines - def dispatch_step(self, steptype, lines): + def dispatch_step(self, stepname, steptype, lines): handlername = "step_" + steptype if not hasattr(self, handlername): raise RuntimeError("unknown workqueue step type '%s'" % steptype) @@ -286,7 +291,7 @@ class WorkQueue(object): def step_addpath(self, boxname, *path): data = self.read_from_box(boxname) - child_spec = something.unserialize(data) + child_spec = unserialize(data) return self.root.add_subpath(path, child_spec, self) def step_retain_ssk(self, index_a, read_key_a): @@ -311,6 +316,26 @@ def make_aes_key(): return os.urandom(16) def make_rsa_key(): raise NotImplementedError +def hash_sha(data): + return sha.new(data).digest() +def hash_sha_to_key(data): + return sha.new(data).digest()[:AES_KEY_LENGTH] +def aes_encrypt(key, plaintext): + assert isinstance(key, str) + assert len(key) == AES_KEY_LENGTH + cryptor = AES.new(key=key, mode=AES.MODE_CTR, counterstart="\x00"*16) + crypttext = cryptor.encrypt(plaintext) + return crypttext +def aes_decrypt(key, crypttext): + assert isinstance(key, str) + assert len(key) == AES_KEY_LENGTH + cryptor = AES.new(key=key, mode=AES.MODE_CTR, counterstart="\x00"*16) + plaintext = cryptor.decrypt(crypttext) + return plaintext +def serialize(objects): + return bencode.bencode(objects) +def unserialize(data): + return bencode.bdecode(data) class MutableSSKTracker(object): """I represent a mutable file, indexed by an SSK. @@ -320,9 +345,9 @@ class MutableSSKTracker(object): # if you create the node this way, you will have both read and write # capabilities self.priv_key, self.pub_key = make_rsa_key() - self.ssk_index = sha(self.pub_key.serialized()) + self.ssk_index = hash_sha(self.pub_key.serialized()) self.write_key = make_aes_key() - self.read_key = sha(self.write_key)[:AES_KEY_LENGTH] + self.read_key = hash_sha_to_key(self.write_key) self.version = 0 def set_version(self, version): @@ -336,11 +361,11 @@ class MutableSSKTracker(object): # set_read_capability and set_write_capability, make sure the keys # match (self.ssk_index, self.write_key) = write_cap - self.read_key = sha(self.write_key)[:AES_KEY_LENGTH] + self.read_key = hash_sha_to_key(self.write_key) def extract_readwrite_from_published(self, published_data, write_key): self.write_key = write_key - self.read_key = sha(self.write_key)[:AES_KEY_LENGTH] + self.read_key = hash_sha_to_key(self.write_key) self._extract(published_data) self.priv_key = aes_decrypt(write_key, self.encrypted_privkey) assert self.priv_key.is_this_your_pub_key(self.pub_key) @@ -364,12 +389,12 @@ class MutableSSKTracker(object): def get_write_capability(self): if not self.write_key: - raise NotCapableError("This SSKNode is read-only") + raise NotCapableError("This MutableSSKTracker is read-only") return (self.ssk_index, self.write_key) def write_new_version(self, data): if not self.write_key: - raise NotCapableError("This SSKNode is read-only") + raise NotCapableError("This MutableSSKTracker is read-only") encrypted_privkey = aes_encrypt(self.write_key, self.priv_key.serialized()) encrypted_data = aes_encrypt(self.read_key, data) @@ -383,17 +408,17 @@ class MutableSSKTracker(object): return published_data def make_new_SSK_node(): - n = SSKNode() + n = MutableSSKTracker() n.create() return n def extract_readwrite_SSK_node(published_data, write_key): - n = SSKNode() + n = MutableSSKTracker() n.extract_readwrite_SSK_node(published_data, write_key) return n def extract_readonly_SSK_node(published_data, read_key): - n = SSKNode() + n = MutableSSKTracker() n.extract_readonly_from_published(published_data, read_key) return n