On 5/9/2017 8:51 AM, Ben Peart wrote:
On 5/9/2017 1:02 AM, Junio C Hamano wrote:
David Turner <David.Turner@xxxxxxxxxxxx> writes:
Can you actually keep the email address as my Twopensource one? I
want to make sure that Twitter, my employer at the time, gets credit
for this work (just as I want to make sure that my current employer,
Two Sigma, gets credit for my current work).
Please feel free to add Signed-off-by: David Turner
<dturner@xxxxxxxxxxxx> in case that makes tracking easier.
Thanks.
WRT the actual patch, I want to note that past me did not do a
great job here. The tests do not correctly check that the
post-checkout untracked cache is still valid after a checkout.
For example, let's say that previously, the directory foo was
entirely untracked (but it contained a file bar), but after the
checkout, there is a file foo/baz. Does the untracked cache need
to get updated?
Unfortunately, the untracked cache is very unlikely to make it to
the top of my priority list any time soon, so I won't be able to
correct this test (and, if necessary, correct the code). But I
would strongly suggest that the test be improved before this code
is merged.
Thanks for CCing me.
I will try to find time to tweak what was sent to the list here to
reflect your affiliations better, but marked with DONTMERGE waiting
for the necessary updates you mentioned above, so that this change
is not forgotten. It may turn out to be that copying from src to
dst like the patch does is all that is needed, or the cache may need
further invalidation when the copying happens, and I haven't got a
good feeling that anybody who are familiar with the codepath vetted
the correctness from seeing the discussion from sidelines (yet).
Thanks.
I've been looking into similar issues with the cache associated with
using a file system monitor (aka Watchman)
(https://github.com/git-for-windows/git/compare/master...benpeart:fsmonitor)
to speed updating the index to reflect changes in the working directory.
I can take a look and see if this patch results in valid results and
reply to the thread or resubmit as needed.
Ben
TLDR: the patch looks good from my perspective but I'd like the experts
to weigh in as well.
After digging into the untracked cache code and thinking about whether
it is reasonable to copy the cache from the old index to the new index
in unpack_trees() I believe the answer is "yes." I'm not the expert in
this code so I'll outline my reasoning here and hopefully the real
experts can review it and see if I've missed something.
The interesting part of the untracked cache for this discussion is the
list of untracked_cache_dir structures. Because each directory cache
entry contains stat_data (esp ctime and mtime) for that directory - the
existing logic will detect if that directory has had any changes made in
it since the cache entry was saved. It doesn't really care when, why,
or how the change was made, just if one has happened.
I then tried to think of ways that this logic could be broken (like
David's example above) but was unsuccessful in coming up with any. This
makes sense because the untracked cache obviously has to correctly
detect _any_ change so really doesn't care whether it's cached state was
initially saved before or after a call to unpack_trees().
Even scenarios of creating files in sub-directories of sub-directories
works because eventually, either is a directory or file is created in a
cached directory entry which will change the mtime of that directory and
invalidate that part of the cache.
Ultimately, it is this behavior of saving the mtime of each cached
directory that makes this all work as each entry can be
validated/invalidated separately from all the rest and independently
from the index from which they came.
Once I did the code examination and thinking exercise, I wanted to test
it out and see if the theory held up. I started out with some manual
testing (esp of the scenario David mentioned) and then wrote a couple of
additional tests all of which passed.
I then ran all existing git tests with the patch applied and they all
passed. This only really tells us that it didn't break anything because
untracked cache is turned off by default but it does show us that it
still passes the untracked cache specific test cases (as they obviously
turn it on).
I then modified the test_create_repo() function in test-lib-functions.sh
to turn on the untracked cache feature after creating the test repo and
ran all the tests again twice - the first time without the patch and
again with the patch). This run is more interesting because it is
testing that having the untracked cache turned (with and without the
patch) on doesn't break anything.
There were two test scripts that had failures:
t7063-status-untracked-cache.sh failed the test "not ok 1 -
core.untrackedCache is unset" This is actually a positive result
because it is showing that I successfully turned on the untracked cache
feature.
t1700-split-index.sh failed several tests in both runs (with and without
patch) and upon examining the tests and their failures they are to be
expected and do not indicate any bug. Specifically, the failures were
caused because the tests check the sha of the index against a hard coded
value in the test script. Because the untracked cache is turned on, the
sha of the index does not match that hard coded value. I edited several
of the tests to update the sha they are checking against to match the
sha actually generated and the tests pass.
In the end, both my code examination and all the testing I was able to
do give me some confidence that the patch will produce valid results.
However, I'm not the expert in this area so I'd like the experts to
weigh in on any potential issues this patch may cause that I've missed.
Thanks,
Ben