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README.md |
Turbo NSS
Turbonss is a plugin for GNU Name Service Switch (NSS)
functionality of GNU C Library (glibc). Turbonss implements lookup for user
and passwd
database entries (i.e. system users, groups, and group
memberships). It's main goal is to run id(1)
as fast as possible.
Turbonss is optimized for reading. If the data changes in any way, the whole file will need to be regenerated. Therefore, it was created, and best suited, for environments that have a central user & group database which then needs to be distributed to many servers/services, and the data does not change very often (e.g. hourly).
This is the fastest known NSS passwd/group implementation for reads. On my
2018-era laptop a corpus with 10k users, 10k groups and 500 average members per
group, id
takes 17 seconds with the glibc default implementation, 10-17
milliseconds with a pre-cached nscd
, ~8 milliseconds with turbonss
.
Project status
The project is finished and was never used recommended for production. If you are considering using turbonss, try nscd first. Turbonss is only 2-5 times faster than pre-warmed nscd, which usually does not matter enough to go through the hoops of using a nonstandard nss library in the first place.
Yours truly worked on this for about 7 months. This was also my first zig project which I never went to (nor really needed to) come back and clean up.
Update 2022-02: I am reviving it:
- updated to stage2, so it works on nightly again.
- I learned some zig over the last year, will be cleaning it up.
Currently it has not been fuzz-tested, so it will crash on invalid data. Please
use ReleaseSafe
until it is fuzzed.
Dependencies
- zig 0.11.0-dev.1782+b52be973d or higher.
- cmph: bundled with this repository.
Trying it out
Clone, compile and test first:
$ git clone --recursive https://git.sr.ht/~motiejus/turbonss
$ zig build test
$ zig build -Dtarget=x86_64-linux-gnu.2.16 -Dcpu=baseline -Doptimize=ReleaseSafe
One may choose different options, depending on requirements. Here are some hints:
-Dcpu=<...>
for the CPU microarchitecture.-Dstrip=true
to strip debug symbols.
For reference, size of the shared library and helper binaries when compiled
with -Dstrip=true -Drelease-small=true
:
28K zig-out/bin/turbonss-analyze
20K zig-out/bin/turbonss-getent
24K zig-out/bin/turbonss-makecorpus
140K zig-out/bin/turbonss-unix2db
24K zig-out/lib/libnss_turbo.so.2.0.0
Many thanks to Ulrich Drepper for teaching how to link it properly.
Test turobnss on a real system
db.turbo
is the TurboNSS database file. To create one from /etc/group
and
/etc/passwd
, use turbonss-unix2db
:
$ zig-out/bin/turbonss-unix2db --passwd /etc/passwd --group /etc/group
$ zig-out/bin/turbonss-analyze db.turbo
File: /etc/turbonss/db.turbo
Size: 2,624 bytes
Version: 0
Endian: little
Pointer size: 8 bytes
getgr buffer size: 17
getpw buffer size: 74
Users: 19
Groups: 39
Shells: 1
Most memberships: _apt (1)
Sections:
Name Begin End Size bytes
header 00000000 00000080 128
bdz_gid 00000080 000000c0 64
bdz_groupname 000000c0 00000100 64
bdz_uid 00000100 00000140 64
bdz_username 00000140 00000180 64
idx_gid2group 00000180 00000240 192
idx_groupname2group 00000240 00000300 192
idx_uid2user 00000300 00000380 128
idx_name2user 00000380 00000400 128
shell_index 00000400 00000440 64
shell_blob 00000440 00000480 64
groups 00000480 00000700 640
users 00000700 000009c0 704
groupmembers 000009c0 00000a00 64
additional_gids 00000a00 00000a40 64
Run and configure a test container that uses turbonss
instead of the default
files
:
$ docker run -ti --rm -v `pwd`:/etc/turbonss -w /etc/turbonss debian:bullseye
# cp zig-out/lib/libnss_turbo.so.2 /lib/x86_64-linux-gnu/
# sed -i '/passwd\|group/ s/files/turbo/' /etc/nsswitch.conf
And run the commands:
$ getent passwd
$ getent group
$ id root
More users and groups
turbonss-makecorpus
can synthesize more users
and groups
:
# ./zig-out/bin/turbonss-makecorpus
wrote users=10000 groups=10000 avg-members=1000 to .
# cat group >> /etc/group
# cat passwd >> /etc/passwd
# time id u_1000000
<...>
real 0m17.380s
user 0m13.117s
sys 0m4.263s
17 seconds for an id
command! Well, there are indeed many users and groups.
Let's see how turbonss fares with it:
# zig-out/bin/turbonss-unix2db --group /etc/group --passwd /etc/passwd
total 10968512 bytes. groups=10019 users=10039
# ls -hs /etc/group /etc/passwd db.turbo
48M /etc/group 668K /etc/passwd 11M db.turbo
# sed -i '/passwd\|group/ s/files/turbo/' /etc/nsswitch.conf
# time id u_1000000
real 0m0.008s
user 0m0.000s
sys 0m0.008s
That's ~1500x improvement for the id
command (and notice about 4X compression
ratio compared to plain files). If the number of users and groups is increased
by 10x (to 100k each), the difference becomes even crazier:
# time id u_1000000
<...>
real 3m42.281s
user 2m30.482s
sys 0m55.840s
# sed -i '/passwd\|group/ s/files/turbo/' /etc/nsswitch.conf
# time id u_1000000
<...>
real 0m0.008s
user 0m0.000s
sys 0m0.008s
Note that to author's knowledge this has not been used on any real production nor a development machine.
Documentation
- Architecture is detailed in
docs/architecture.md
- Development notes are in
docs/development.md