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467 строки
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Plaintext
467 строки
18 KiB
Plaintext
Concerning Git's Packing Heuristics
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===================================
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Oh, here's a really stupid question:
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Where do I go
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to learn the details
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of git's packing heuristics?
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Be careful what you ask!
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Followers of the git, please open the git IRC Log and turn to
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February 10, 2006.
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It's a rare occasion, and we are joined by the King Git Himself,
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Linus Torvalds (linus). Nathaniel Smith, (njs`), has the floor
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and seeks enlightenment. Others are present, but silent.
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Let's listen in!
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<njs`> Oh, here's a really stupid question -- where do I go to
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learn the details of git's packing heuristics? google avails
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me not, reading the source didn't help a lot, and wading
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through the whole mailing list seems less efficient than any
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of that.
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It is a bold start! A plea for help combined with a simultaneous
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tri-part attack on some of the tried and true mainstays in the quest
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for enlightenment. Brash accusations of google being useless. Hubris!
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Maligning the source. Heresy! Disdain for the mailing list archives.
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Woe.
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<pasky> yes, the packing-related delta stuff is somewhat
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mysterious even for me ;)
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Ah! Modesty after all.
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<linus> njs, I don't think the docs exist. That's something where
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I don't think anybody else than me even really got involved.
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Most of the rest of git others have been busy with (especially
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Junio), but packing nobody touched after I did it.
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It's cryptic, yet vague. Linus in style for sure. Wise men
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interpret this as an apology. A few argue it is merely a
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statement of fact.
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<njs`> I guess the next step is "read the source again", but I
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have to build up a certain level of gumption first :-)
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Indeed! On both points.
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<linus> The packing heuristic is actually really really simple.
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Bait...
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<linus> But strange.
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And switch. That ought to do it!
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<linus> Remember: git really doesn't follow files. So what it does is
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- generate a list of all objects
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- sort the list according to magic heuristics
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- walk the list, using a sliding window, seeing if an object
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can be diffed against another object in the window
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- write out the list in recency order
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The traditional understatement:
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<njs`> I suspect that what I'm missing is the precise definition of
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the word "magic"
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The traditional insight:
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<pasky> yes
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And Bable-like confusion flowed.
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<njs`> oh, hmm, and I'm not sure what this sliding window means either
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<pasky> iirc, it appeared to me to be just the sha1 of the object
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when reading the code casually ...
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... which simply doesn't sound as a very good heuristics, though ;)
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<njs`> .....and recency order. okay, I think it's clear I didn't
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even realize how much I wasn't realizing :-)
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Ah, grasshopper! And thus the enlightenment begins anew.
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<linus> The "magic" is actually in theory totally arbitrary.
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ANY order will give you a working pack, but no, it's not
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ordered by SHA1.
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Before talking about the ordering for the sliding delta
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window, let's talk about the recency order. That's more
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important in one way.
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<njs`> Right, but if all you want is a working way to pack things
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together, you could just use cat and save yourself some
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trouble...
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Waaait for it....
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<linus> The recency ordering (which is basically: put objects
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_physically_ into the pack in the order that they are
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"reachable" from the head) is important.
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<njs`> okay
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<linus> It's important because that's the thing that gives packs
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good locality. It keeps the objects close to the head (whether
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they are old or new, but they are _reachable_ from the head)
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at the head of the pack. So packs actually have absolutely
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_wonderful_ IO patterns.
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Read that again, because it is important.
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<linus> But recency ordering is totally useless for deciding how
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to actually generate the deltas, so the delta ordering is
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something else.
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The delta ordering is (wait for it):
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- first sort by the "basename" of the object, as defined by
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the name the object was _first_ reached through when
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generating the object list
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- within the same basename, sort by size of the object
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- but always sort different types separately (commits first).
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That's not exactly it, but it's very close.
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<njs`> The "_first_ reached" thing is not too important, just you
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need some way to break ties since the same objects may be
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reachable many ways, yes?
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And as if to clarify:
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<linus> The point is that it's all really just any random
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heuristic, and the ordering is totally unimportant for
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correctness, but it helps a lot if the heuristic gives
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"clumping" for things that are likely to delta well against
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each other.
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It is an important point, so secretly, I did my own research and have
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included my results below. To be fair, it has changed some over time.
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And through the magic of Revisionistic History, I draw upon this entry
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from The Git IRC Logs on my father's birthday, March 1:
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<gitster> The quote from the above linus should be rewritten a
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bit (wait for it):
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- first sort by type. Different objects never delta with
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each other.
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- then sort by filename/dirname. hash of the basename
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occupies the top BITS_PER_INT-DIR_BITS bits, and bottom
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DIR_BITS are for the hash of leading path elements.
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- then if we are doing "thin" pack, the objects we are _not_
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going to pack but we know about are sorted earlier than
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other objects.
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- and finally sort by size, larger to smaller.
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In one swell-foop, clarification and obscurification! Nonetheless,
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authoritative. Cryptic, yet concise. It even solicits notions of
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quotes from The Source Code. Clearly, more study is needed.
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<gitster> That's the sort order. What this means is:
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- we do not delta different object types.
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- we prefer to delta the objects with the same full path, but
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allow files with the same name from different directories.
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- we always prefer to delta against objects we are not going
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to send, if there are some.
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- we prefer to delta against larger objects, so that we have
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lots of removals.
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The penultimate rule is for "thin" packs. It is used when
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the other side is known to have such objects.
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There it is again. "Thin" packs. I'm thinking to myself, "What
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is a 'thin' pack?" So I ask:
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<jdl> What is a "thin" pack?
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<gitster> Use of --objects-edge to rev-list as the upstream of
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pack-objects. The pack transfer protocol negotiates that.
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Woo hoo! Cleared that _right_ up!
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<gitster> There are two directions - push and fetch.
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There! Did you see it? It is not '"push" and "pull"'! How often the
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confusion has started here. So casually mentioned, too!
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<gitster> For push, git-send-pack invokes git-receive-pack on the
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other end. The receive-pack says "I have up to these commits".
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send-pack looks at them, and computes what are missing from
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the other end. So "thin" could be the default there.
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In the other direction, fetch, git-fetch-pack and
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git-clone-pack invokes git-upload-pack on the other end
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(via ssh or by talking to the daemon).
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There are two cases: fetch-pack with -k and clone-pack is one,
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fetch-pack without -k is the other. clone-pack and fetch-pack
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with -k will keep the downloaded packfile without expanded, so
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we do not use thin pack transfer. Otherwise, the generated
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pack will have delta without base object in the same pack.
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But fetch-pack without -k will explode the received pack into
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individual objects, so we automatically ask upload-pack to
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give us a thin pack if upload-pack supports it.
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OK then.
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Uh.
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Let's return to the previous conversation still in progress.
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<njs`> and "basename" means something like "the tail of end of
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path of file objects and dir objects, as per basename(3), and
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we just declare all commit and tag objects to have the same
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basename" or something?
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Luckily, that too is a point that gitster clarified for us!
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If I might add, the trick is to make files that _might_ be similar be
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located close to each other in the hash buckets based on their file
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names. It used to be that "foo/Makefile", "bar/baz/quux/Makefile" and
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"Makefile" all landed in the same bucket due to their common basename,
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"Makefile". However, now they land in "close" buckets.
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The algorithm allows not just for the _same_ bucket, but for _close_
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buckets to be considered delta candidates. The rationale is
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essentially that files, like Makefiles, often have very similar
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content no matter what directory they live in.
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<linus> I played around with different delta algorithms, and with
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making the "delta window" bigger, but having too big of a
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sliding window makes it very expensive to generate the pack:
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you need to compare every object with a _ton_ of other objects.
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There are a number of other trivial heuristics too, which
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basically boil down to "don't bother even trying to delta this
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pair" if we can tell before-hand that the delta isn't worth it
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(due to size differences, where we can take a previous delta
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result into account to decide that "ok, no point in trying
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that one, it will be worse").
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End result: packing is actually very size efficient. It's
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somewhat CPU-wasteful, but on the other hand, since you're
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really only supposed to do it maybe once a month (and you can
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do it during the night), nobody really seems to care.
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Nice Engineering Touch, there. Find when it doesn't matter, and
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proclaim it a non-issue. Good style too!
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<njs`> So, just to repeat to see if I'm following, we start by
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getting a list of the objects we want to pack, we sort it by
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this heuristic (basically lexicographically on the tuple
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(type, basename, size)).
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Then we walk through this list, and calculate a delta of
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each object against the last n (tunable paramater) objects,
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and pick the smallest of these deltas.
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Vastly simplified, but the essence is there!
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<linus> Correct.
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<njs`> And then once we have picked a delta or fulltext to
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represent each object, we re-sort by recency, and write them
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out in that order.
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<linus> Yup. Some other small details:
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And of course there is the "Other Shoe" Factor too.
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<linus> - We limit the delta depth to another magic value (right
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now both the window and delta depth magic values are just "10")
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<njs`> Hrm, my intuition is that you'd end up with really _bad_ IO
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patterns, because the things you want are near by, but to
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actually reconstruct them you may have to jump all over in
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random ways.
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<linus> - When we write out a delta, and we haven't yet written
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out the object it is a delta against, we write out the base
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object first. And no, when we reconstruct them, we actually
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get nice IO patterns, because:
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- larger objects tend to be "more recent" (Linus' law: files grow)
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- we actively try to generate deltas from a larger object to a
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smaller one
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- this means that the top-of-tree very seldom has deltas
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(ie deltas in _practice_ are "backwards deltas")
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Again, we should reread that whole paragraph. Not just because
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Linus has slipped Linus's Law in there on us, but because it is
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important. Let's make sure we clarify some of the points here:
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<njs`> So the point is just that in practice, delta order and
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recency order match each other quite well.
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<linus> Yes. There's another nice side to this (and yes, it was
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designed that way ;):
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- the reason we generate deltas against the larger object is
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actually a big space saver too!
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<njs`> Hmm, but your last comment (if "we haven't yet written out
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the object it is a delta against, we write out the base object
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first"), seems like it would make these facts mostly
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irrelevant because even if in practice you would not have to
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wander around much, in fact you just brute-force say that in
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the cases where you might have to wander, don't do that :-)
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<linus> Yes and no. Notice the rule: we only write out the base
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object first if the delta against it was more recent. That
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means that you can actually have deltas that refer to a base
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object that is _not_ close to the delta object, but that only
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happens when the delta is needed to generate an _old_ object.
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<linus> See?
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Yeah, no. I missed that on the first two or three readings myself.
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<linus> This keeps the front of the pack dense. The front of the
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pack never contains data that isn't relevant to a "recent"
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object. The size optimization comes from our use of xdelta
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(but is true for many other delta algorithms): removing data
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is cheaper (in size) than adding data.
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When you remove data, you only need to say "copy bytes n--m".
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In contrast, in a delta that _adds_ data, you have to say "add
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these bytes: 'actual data goes here'"
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*** njs` has quit: Read error: 104 (Connection reset by peer)
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<linus> Uhhuh. I hope I didn't blow njs` mind.
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*** njs` has joined channel #git
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<pasky> :)
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The silent observers are amused. Of course.
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And as if njs` was expected to be omniscient:
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<linus> njs - did you miss anything?
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OK, I'll spell it out. That's Geek Humor. If njs` was not actually
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connected for a little bit there, how would he know if missed anything
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while he was disconnected? He's a benevolent dictator with a sense of
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humor! Well noted!
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<njs`> Stupid router. Or gremlins, or whatever.
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It's a cheap shot at Cisco. Take 'em when you can.
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<njs`> Yes and no. Notice the rule: we only write out the base
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object first if the delta against it was more recent.
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I'm getting lost in all these orders, let me re-read :-)
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So the write-out order is from most recent to least recent?
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(Conceivably it could be the opposite way too, I'm not sure if
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we've said) though my connection back at home is logging, so I
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can just read what you said there :-)
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And for those of you paying attention, the Omniscient Trick has just
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been detailed!
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<linus> Yes, we always write out most recent first
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For the other record:
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<pasky> njs`: http://pastebin.com/547965
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The 'net never forgets, so that should be good until the end of time.
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<njs`> And, yeah, I got the part about deeper-in-history stuff
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having worse IO characteristics, one sort of doesn't care.
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<linus> With the caveat that if the "most recent" needs an older
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object to delta against (hey, shrinking sometimes does
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happen), we write out the old object with the delta.
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<njs`> (if only it happened more...)
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<linus> Anyway, the pack-file could easily be denser still, but
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because it's used both for streaming (the git protocol) and
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for on-disk, it has a few pessimizations.
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Actually, it is a made-up word. But it is a made-up word being
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used as setup for a later optimization, which is a real word:
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<linus> In particular, while the pack-file is then compressed,
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it's compressed just one object at a time, so the actual
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compression factor is less than it could be in theory. But it
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means that it's all nice random-access with a simple index to
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do "object name->location in packfile" translation.
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<njs`> I'm assuming the real win for delta-ing large->small is
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more homogenous statistics for gzip to run over?
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(You have to put the bytes in one place or another, but
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putting them in a larger blob wins on compression)
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Actually, what is the compression strategy -- each delta
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individually gzipped, the whole file gzipped, somewhere in
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between, no compression at all, ....?
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Right.
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Reality IRC sets in. For example:
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<pasky> I'll read the rest in the morning, I really have to go
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sleep or there's no hope whatsoever for me at the today's
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exam... g'nite all.
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Heh.
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<linus> pasky: g'nite
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<njs`> pasky: 'luck
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<linus> Right: large->small matters exactly because of compression
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behaviour. If it was non-compressed, it probably wouldn't make
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any difference.
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<njs`> yeah
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<linus> Anyway: I'm not even trying to claim that the pack-files
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are perfect, but they do tend to have a nice balance of
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density vs ease-of use.
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Gasp! OK, saved. That's a fair Engineering trade off. Close call!
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In fact, Linus reflects on some Basic Engineering Fundamentals,
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design options, etc.
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<linus> More importantly, they allow git to still _conceptually_
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never deal with deltas at all, and be a "whole object" store.
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Which has some problems (we discussed bad huge-file
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behaviour on the git lists the other day), but it does mean
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that the basic git concepts are really really simple and
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straightforward.
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It's all been quite stable.
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Which I think is very much a result of having very simple
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basic ideas, so that there's never any confusion about what's
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going on.
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Bugs happen, but they are "simple" bugs. And bugs that
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actually get some object store detail wrong are almost always
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so obious that they never go anywhere.
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<njs`> Yeah.
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Nuff said.
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<linus> Anyway. I'm off for bed. It's not 6AM here, but I've got
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three kids, and have to get up early in the morning to send
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them off. I need my beauty sleep.
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<njs`> :-)
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<njs`> appreciate the infodump, I really was failing to find the
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details on git packs :-)
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And now you know the rest of the story.
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