Turbo NSS --------- Turbonss is a plugin for GNU Name Service Switch ([NSS][nsswitch]) 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)`][id] 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 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 is not recommended for production; just use nscd. Turbonss duly implements the full user/group API in `src/libnss.zig`: feel free to copy that. Yours truly (the author) worked on this for about 7 months. And when this was finished it turned out that just slapping nscd on top of the existing NSS implementation is almost as fast as this. Dependencies ------------ 1. Stage1 of the nightly zig compiler. 2. [cmph][cmph]: bundled with this repository. Trying it out ------------- Clone, compile and test first: $ git clone --recursive https://git.sr.ht/~motiejus/turbonss $ zig build -fstage1 test $ zig build -fstage1 -Dtarget=x86_64-linux-gnu.2.31 -Dcpu=x86_64_v3 -Drelease-safe=true One may choose different options, depending on requirements. Here are some hints: 1. `-Dcpu=<...>` for the CPU [microarchitecture](https://en.wikipedia.org/wiki/X86-64#Microarchitecture_levels). 2. `-Drelease-fast=true` for max speed 3. `-Drelease-small=true` for smallest binary sizes. 4. `-Dstrip=true` to strip debug symbols. Test it 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 <...> 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 Documentation ------------- Architecture is detailed in `docs/architecture.md` Development notes are in `docs/development.md` [git-subtrac]: https://apenwarr.ca/log/20191109 [nsswitch]: https://linux.die.net/man/5/nsswitch.conf [id]: https://linux.die.net/man/1/id [cmph]: http://cmph.sourceforge.net/