This introduces new client and server halves to the Introducer (renaming the
old one with a _V1 suffix). Both have fallbacks to accomodate talking to a
different version: the publishing client switches on whether the server's
.get_version() advertises V2 support, the server switches on which
subscription method was invoked by the subscribing client.
The V2 protocol sends a three-tuple of (serialized announcement dictionary,
signature, pubkey) for each announcement. The V2 server dispatches messages
to subscribers according to the service-name, and throws errors for invalid
signatures, but does not otherwise examine the messages. The V2 receiver's
subscription callback will receive a (serverid, ann_dict) pair. The
'serverid' will be equal to the pubkey if all of the following are true:
the originating client is V2, and was told a privkey to use
the announcement went through a V2 server
the signature is valid
If not, 'serverid' will be equal to the tubid portion of the announced FURL,
as was the case for V1 receivers.
Servers will create a keypair if one does not exist yet, stored in
private/server.privkey .
The signed announcement dictionary puts the server FURL in a key named
"anonymous-storage-FURL", which anticipates upcoming Accounting-related
changes in the server advertisements. It also provides a key named
"permutation-seed-base32" to tell clients what permutation seed to use. This
is computed at startup, using tubid if there are existing shares, otherwise
the pubkey, to retain share-order compatibility for existing servers.
The "#section" declaration (which matches id="section") should have been
".section" (which matches class="section").
The welcome page has a feature that I actually liked: the little "This
Client" sidebar sits just to the right of the start of the Controls block.
Fixing .section broke that (the clear:both introduces a gap, forcing the
Controls block to start strictly below the bottom of the This Client block).
So I also removed class="section" from the Controls block to allow them to
share the horizontal space again.
The removed assertions are appropriate for a download that seeks to
return plaintext to a caller; if we don't have at least k active remote
shares, then we can't hope to do that. They're not appropriate for a
verification operation; a user can try to verify a file that has fewer
than k shares available, so that shouldn't be treated as an error.
Instead, we proceed with fewer than k shares, and ensure that we
terminate the download if we have no shares at all and we're verifying.
test_verify_mdmf_all_bad_sharedata tests for the regression described
in ticket 1648. In particular, it will trigger the misplaced assertion
in the share activation code. It also tests to make sure that
verification continues with fewer than k shares.
This uses explicitly enumerated packages= and package_data= arguments to
setup(), rather than relying upon the convenient (but darcs-specific)
functions which would determine these values by asking the revision-control
system.
Note that darcsver is still used, when building from a darcs tree.
* replace DeferredList with gatherResults, simplify result handling
* use BadShareError to signal recoverable problems in either fetch or
validate, catch after _validate_block
* _validate_block is thus not responsible for noticing fetch problems
* rename _validation_or_decoding_failed() to _handle_bad_share()
* _get_needed_hashes() returns two Deferreds, instead of a hard-to-unpack
DeferredList