Note that these tests won't pass on master branch yet as the join/leave don't work, and there's a bug in Activity parsing which prevents interop between new feeds and old remote subscribers (both fixed in this branch).
Given a notice in the local system, we package it up as an Atom entry and MagicSig it up.
We run the magicenv verification on it locally to make sure our own functions can decode it.
Optionally with --verify we can send to Tuomas Koski's verification test service (not sure if this is working 100%)
If given --slap= with a target Salmon endpoint, we'll sent it on and see if it liked it. (Note that StatusNet will reject if there's not a relevant mention, but will report acceptance for dupes so you can use a message that's already been delivered as a test.)
Added StartRegistrationTry/EndRegistrationTry calls into those three, and moved the actual recording hook to EndUserRegister which is guaranteed to be called from User::register (so we don't need to worry about other auth methods forgetting to call the other UI-code hooks).
It seems to have actually been saving correctly, but the update of the colors on the form success page wasn't working properly.
When a design object is pulled out of the database, the numeric fields are read in as strings, so black comes back as "0".
But, when we populate the new object and then stick it live, we've populated it with actual integers; with memcache on these might live for a while in the cache...
The fallback code in Design::toWebColor() did a check ($color == null) which would be false for the string "0", but counts as true for the *integer* 0.
Thus, the display code would initially interpret the correctly-saved black color as "use default".
Changing the check to === against null and "" empty string avoids the false positive on integers, and lets us see our nice black text immediately after save.
We can make a lot of HTTP requests from the server side. This change
adds some configuration options for using an HTTP proxy, which can
cache hits from multiple sites (good for status.net-like services, for example).
We were passing DOM nodes directly into the queues for the final bookmark import stage; unfortunately these don't actually survive serialization.
Moved the extraction of properties from the HTML up to the first-stage handler, so now we don't have to worry about moving DOM nodes from one handler to the next. Instead passing an associative array of properties, which is fed into the Bookmark::saveNew by the per-bookmark handler.
delicious bookmark exports use the godawful HTML bookmark file format that ancient versions of Netscape used (and has thus been the common import/export format for bookmarks since the dark ages of the web :)
This arranges bookmark entries as an HTML definition list, using a lot of implied close tags (leaving off the </dt> and </dd>).
DOMDocument->loadHTML() uses libxml2's HTML mode, which generally does ok with muddling through things but apparently is really, really bad about handling those implied close tags.
Sequences of adjacent <dt> elements (eg bookmark without a description, followed by another bookmark "<dt><dt>"), end up interpreted as nested ("<dt><dt></dt></dt>") instead of as siblings ("<dt></dt><dt></dt>").
The first round of code tried to resolve the nesting inline, but ended up a bit funky in places.
I've replaced this with a standalone run through the data to re-order the elements, based on our knowing that <dt> and <dd> cannot directly contain one another; once that's done, our main logic loop can be a bit cleaner. I'm not 100% sure it's doing nested sublists correctly, but these don't seem to show up in delicious export (and even if they do, with the way we flatten the input it shouldn't make a difference).
Also fixed a clearer edge case where some bookmarks didn't get imported when missing descriptions.