Debian 11 (codename Bullseye) was recently released. This was the smoothest upgrade I've experienced in some 20 years as a Debian user. In my haste, I completely forgot to first upgrade dpkg and apt, doing a straight dist-upgrade. Nonetheless, everything worked out of the box. No unresolved dependency cycles. Via my last-mile Gigabit connection, it took about 5 minutes to upgrade and reboot. Congratulations to everyone who made this possible!
Since the upgrade, only a handful of bugs were found. I filed bug reports. Over these past few days, maintainers have started responding. In once particular case, my report exposed a CVE caused by copy-pasted code between two similar packages. The source package fixed their code to something more secure a few years ago, while the destination package missed it. The situation has been brought to Debian's security team's attention and should be fixed over the next few days.
Having recently experienced hard-disk problems on my main desktop, upgrading to Bullseye made me revisit a few issues. One of these was the possibility of transiting to BTRFS. Last time I investigated the possibility was back when Ubuntu briefly switched their default filesystem to BRTFS. Back then, my feeling was that BRTFS wasn't ready for mainstream. For instance, the utility to convert an EXT2/3/4 partition to BTRFS corrupted the end of the partition. No thanks. However, in recent years, many large-scale online services have migrated to BRTFS and seem to be extremely happy with the result. Additionally, Linux kernel 5 added useful features such as background defragmentation. This got me pondering whether now would be a good time to migrate to BRTFS. Sadly it seems that the stock kernel shipping with Bullseye doesn't have any of these advanced features enabled in its configuration. Oh well.
The only point that has become problematic is my Geode hosts. For one things, upstream Rust maintainers have decided to ignore the fact that i686 is a specification and arbitrarily added compiler flags for more recent x86-32 CPUs to their i686 target. While Debian Rust maintainers have purposely downgraded the target, RustC still produces binaries that the Geode LX (essentially an i686 without PAE) cannot process. This affects fairly basic packages such as librsvg, which breaks SVG image support for a number of dependencies. Additionally, there's been persistent problems with systemd crashing on my Geode hosts whenever daemon-reload is issued. Then, a few days ago, problems started occurring with C++ binaries, because GCC-11 upstream enabled flags for more recent CPUs in their default i686 target. While I realize that SSE and similar recent CPU features produce better binaries, I cannot help but feel that treating CPU targets as anything else than a specification is a mistake. i686 is a specification. It is not a generic equivalent to x86-32.