12 KiB
virtual refs
IMPORTANT: fallthru is success in VREFs, unlike the normal refs. That won't make sense until you read further, but I had to put it up here for folks who stop reading halfway!
Here's an example to start you off.
repo r1
RW+ = lead_dev dev2 dev3
- VREF/COUNT/9 = dev2 dev3
- VREF/COUNT/3/NEWFILES = dev2 dev3
Now dev2 and dev3 cannot push changes that affect more than 9 files at a time, nor those that have more than 3 new files.
rule matching recap
You won't get any joy out of this if you don't understand at least [refex][]es and how [rules][] are processed.
But VREFs have one very important difference from normal rules. With VREFs, a fallthru results in success. You'll see why this is more convenient as you read on.
what is a virtual ref
A ref like refs/heads/master
is the main property of a push that gitolite
uses to make its yes/no decision. I call this a "real" ref.
Any other property of the push that you want to use to help in the decision is therefore a virtual ref. This could be a property that git knows about, like in the example above, or comes from outside git like, say, the current time; see examples section later for some ideas.
#vref-fallthru fallthru is success here
Notice that you didn't need to add an RW+ VREF/...
rule for user lead_dev
in our example. This section explains why.
Virtual refs are best used as additional "deny" rules, performing extra checks that core gitolite cannot.
Making fallthru be a "fail" forces you to add rules for all users, instead of just the ones who should have those extra checks. Worse, since every virtual ref involves calling an external program, many of these calls may be wasted.
There's another advantage to doing it this way: a VREF can choose to simply die if things look bad, and it will have the same effect, assuming you used the VREF only in "deny" rules.
This in turn means any existing update hook can be used as a VREF as-is, as long as it (a) prints nothing on success and (b) dies on failure. See the email-check example later.
how it works -- overview
Briefly, a refex starting with VREF/FOO
triggers a call to a program called
FOO
in $GL_BINDIR/VREF
.
That program is expected to print zero or more lines to its STDOUT; each line
that starts with VREF/
is taken by gitolite as a new "ref" to be matched
against all the refexes for this user in the config. Including the refex that
caused the vref call, of course.
Normally, you send back the refex itself, if the test determines that the rule
should be matched, otherwise nothing. So, in our example, we print
VREF/COUNT/9
if the count was indeed greater than 9. Otherwise we just
exit.
how it works -- details
-
The VREF code is only called if there are any VREF rules for the user, which means when the lead developer pushes, the VREF is not called at all.
Side note: this is enormously more efficient than adding additional
update
hooks, which will get executed whether they are needed or not, for every repo and every user! -
When dev2 or dev3 push, gitolite first checks the real ref (
ref/heads/master
or whatever). After this it looks at VREF rules, and calls an external program for every one it finds. Specifically, in a line like- VREF/COUNT/3/NEWFILES = user
COUNT is the vref name, so the program called is
$GL_BINDIR/VREF/COUNT
.The program is passed nine arguments in this case (see next section for details).
-
The script can print anything it wants to STDOUT. Lines not starting with
VREF/
are printed as is (so your VREF can do mostly-normal printing to STDOUT).For lines starting with
VREF/
, the first word in each such line will be treated as a virtual ref to be matched against all the rules, while the rest, if any, is a message to be added to the standard "...DENIED..." message that gitolite prints if that refex matches.Usually it only makes sense to either
- Print nothing that starts with
VREF/
-- if you don't want the rule that triggered it to match (ie., whatever condition being tested was not violated; like if the count of changed files did not exceed 9, in our earlier example). - Print the refex itself (plus an optional message), so that it matches the line which invoked it.
- Print nothing that starts with
arguments passed to the vref code
-
Arguments 1, 2, 3: the 'ref', 'oldsha', and 'newsha' that git passed to the update hook (see 'man githooks').
This, combined with the fact that non-zero exits are detected, mean that you can simply use an existing update.secondary as a new VREF as-is, no changes needed.
-
Arguments 4 and 5: the 'oldtree' and 'newtree' SHAs. These are the same as the oldsha and newsha values, except if one of them is all-0. (indicating a ref creation or deletion). In that case the corresponding 'tree' SHA is set (by gitolite, as a courtesy) to the special SHA
4b825dc642cb6eb9a060e54bf8d69288fbee4904
, which is the hash of an empty tree.(None of these shenanigans would have been needed if
git diff $oldsha $newsha
would not error out when passed an all-0 SHA.) -
Argument 6: the attempted access flag. Typically
W
or+
, but could also beC
,D
, or any of these 4 followed byM
. If you have to ask what they mean, you haven't read enough gitolite documentation to be able to make virtual refs work. -
Argument 7: is the entire refex; in our example
VREF/COUNT/3/NEWFILES
. -
Arguments 8 onward: are the split out (by
/
) portions of the refex, excluding the first two components. In our example they would be3
followed byNEWFILES
.
Yes, argument 7 is redundant if you have 8 and 9. It's meant to make it easy to write vref scripts in any language. See script examples in source.
what (else) can the vref code pass back
Actually, the vref code can pass anything back; each line in its output that
starts with VREF/
will be matched against all the rules as usual (with the
exception that fallthru is not failure).
For example, you could have a ruleset like this:
repo r1
# ... normal rules ...
- VREF/TIME/WEEKEND = @interns
- VREF/TIME/WEEKNIGHT = @interns
- VREF/TIME/HOLIDAY = @interns
and you could write the TIME vref code to passback any or all of the times that match. Then if an intern tried to access the system, each rule would trigger a call to gl-bindir/VREF/TIME.
The script should send back any of the applicable times (even more than one, or none at all, as the case may be). So even if it was invoked using the first rule, it might pass back (to gitolite) a virtual ref saying 'VREF/TIME/HOLIDAY', which would promptly cause the request to be denied.
VREFs shipped with gitolite
#NAME restricting pushes by dir/file name
The "NAME" VREF allows you to restrict pushes by the names of dirs and files changed.
Here's an example. Say you don't want junior developers pushing changes to the Makefile, because it's quite complex:
repo foo
RW+ = @senior_devs
RW = @junior_devs
- VREF/NAME/Makefile = @junior_devs
When a senior dev pushes, the VREF is not invoked at all. But when a junior dev pushes, the VREF is invoked, and it returns a list of files changed as refs, looking like this:
VREF/NAME/file-1
VREF/NAME/dir-2/file-3
...etc...
Each of these refs is matched against the access rules. If one of them happens to be the Makefile, then the ref returned (VREF/NAME/Makefile) will match the deny rule and kill the push.
Another way to use this is when you know what is allowed instead of what is not allowed. Let's say the QA person is only allowed to touch a file called CHANGELOG and any files in a directory called ReleaseNotes:
repo foo
RW+ = @senior_devs
RW = @junior_devs
RW+ = QA-guy
RW+ VREF/NAME/CHANGELOG = QA-guy
RW+ VREF/NAME/ReleaseNotes/ = QA-guy
- VREF/NAME/ = QA-guy
number of new files
The COUNT VREF is used like this:
- VREF/COUNT/9 = @junior-developers
In response, if anyone in the user list pushes a commit series that changes more than 9 files, a vref of "VREF/COUNT/9" is returned. Gitolite uses that as a "ref" to match against all the rules, hits the same rule that invoked it, and denies the request.
If the user did not push more than 9 files, the VREF code returns nothing, and nothing happens.
COUNT can take one more argument:
- VREF/COUNT/9/NEWFILES = @junior-developers
This is the same as before, but have to be more than 9 new files not just changed files.
advanced filetype detection
Note: this is more for illustration than use; it's rather specific to one of the projects I manage but the idea is the important thing.
Sometimes a file has a standard extension (that cannot be 'gitignore'd), but it is actually automatically generated. Here's one way to catch it:
- VREF/FILETYPE/AUTOGENERATED = @all
You can look at src/VREF/FILETYPE
to see how it handles the
'AUTOGENERATED' option. You could also have a more generic option, like
perhaps BINARY, and handle that in the FILETYPE vref too.
checking author email
Some people want to ensure that "you can only push your own commits".
If you force it on everyone, this is a very silly idea (see "Philosophical
Notes" section of src/VREF/EMAIL-CHECK
).
But there may be value in enforcing it just for the junior developers.
The neat thing is that the existing contrib/update.email-check
was just
copied to src/VREF/EMAIL-CHECK
and it works, because VREFs get
the same first 3 arguments and those are all that it cares about. (Note: you
have to change one subroutine in that script if you want to use it)
#votes voting on commits
Although gitolite can't/won't do the whole "code review + workflow enforcement" thing that Gerrit Code Review does, a basic implementation of voting on a commit is surprisingly easy. See src/VREF/VOTES for details (and note that the actual code is just 2-3 lines; the rest is inline documentation).
other ideas -- code welcome!
"no non-merge first-parents"
Shruggar on #gitolite wanted this. Possible code to implement it would be something like this (untested)
[ -z "$(git rev-list --first-parent --no-merges $2..$3)" ]
This can be implemented using src/VREF/MERGE-CHECK
as a model. That script
does what the 'M' qualifier does in access rules (see last part of
[this][write-types]), although the syntax to be used in conf/gitolite will be
quite different.
other ideas for VREFs
Here are some more ideas:
- Number of commits (
git rev-list --count $old $new
). - Number of binary files in commit (currently I only know to count
occurrences of
Bin
in the output ofgit diff --stat
. - Number of new binary files (count
Bin 0 ->
ingit diff --stat
output). - Time of day/day of week (see example snippet somewhere above).
- IP address.
- Phase of the moon.
Note that pretty much anything that involves $oldsha..$newsha
will have to
deal with the issue that when you push a new tag or branch, the "old" part
is all 0's, and unless you consider --all
existing branches and tags it
becomes meaningless in terms of "number of new files" etc.