This is a list of possible work projects within openrsync, rated by difficulty. First, porting: see [Porting](https://github.com/kristapsdz/openrsync/blob/master/README.md#Portability) for information on this topic. I've included the specific security porting topics below. This list also does not include adding support for features (e.g., **-u** and so on). The **-a** feature is probably most important, and involves a little legwork in the protocol getting **-g** and **-u** passing around file modes. I would rate this as easy/medium. - Easy: speed up the uid/gid mapping/remapping with a simple table. Right now, the code in [ids.c](https://github.com/kristapsdz/openrsync/blob/master/ids.c) is simple, but could easily bottleneck with a large number of groups and files with **-g**. - Easy: add a hashtable to `blk_find()` in [blocks.c](https://github.com/kristapsdz/openrsync/blob/master/blocks.c) for quickly looking up fast-hash matches. - Easy: print more statistics, such as transfer times and rates. - Easy: tighten the [pledge(2)](https://man.openbsd.org/pledge.2) and [unveil(2)](https://man.openbsd.org/unveil.2) to work with **-n**, as it does not touch files. - Easy: find the shared path for all input files and [unveil(2)](https://man.openbsd.org/unveil.2) only the shared path instead of each one. - Medium: have the log messages when multiplex writing (server mode) is enabled by flushed out through the multiplex channel. Right now, they're emitted on `stderr` just like with the client. - Medium: porting the security precautions ([unveil(2)](https://man.openbsd.org/unveil.2), [pledge(2)](https://man.openbsd.org/pledge.2)) to [FreeBSD](https://www.freebsd.org)'s [Capsicum](https://wiki.freebsd.org/Capsicum). Without this in place, you're exposing your file-system to whatever is coming down over the wire. This is certainly possible, as openrsync makes exclusive use of the "at" functions (e.g., [openat(2)](https://man.openbsd.org/openat.2)) for working with files. - Hard: the same, but for Linux. - Hard: once the sender loop is optimised, the uploader can also queue up block metadata to send on-demand instead of reading in the file then sending, then reading again, then sending. In general, be careful with the last two. The rsync protocol is quite brittle and prone to deadlocking if senders or receivers send too much data and clog output buffers. So I suppose the hardest point, now that the protocol has been documented, is: - Hardest: make the entire system use a event-loop and loop over buffered data with a fine-grained state machine. I guess that will wait for openrsync v2. Above all, `grep FIXME *.c *.h` and start from there.