XXX Default paramsfile for NAME=label is /etc/cgd/dkNN (resolved wedge
partition) and /etc/cgd/ROOT.<suffix> for ROOT.<suffix>. This isn't yet
documented. IMO, it should be the other way around: /etc/cgd/label
for the former and /et/cgd/[root-device] for the latter.
is actually supported, so we can attempt to guess a vendor smart
table from the model name. add basic support for all the micron /
crucial disk names i could find, and add a couple more micron
specific values.
XXX: probably should add regex support for matching, and probably
should be more restrictive with the current matches.
describes more about what failed. now errors tell you which actual
variable was being requested instead of simply saying "not yours".
tested on amd64 as working. written for arm64 testing.
"Micron" (for Micron/Crucial) list with their documented values.
this allows the vendor-specific data to be used.
there appears to be no simple way to automatically determine the right
vendor to use -- identify data seems to be the only obvious way and
that data can be and is changed by OEMs. (eg, a disk may be listed as
being "dell", but dell don't make disks.) as such, no attempt is made
to automatically determine if a vendor list should be used.
in January 2009 (the Christos' time merge, when time_t went to 64 bits).
sysctl needs to catch up. (So do other progs, which will happen, eventually,
but most of them are unaffected in any practical way.)
If you are running a system (NetBSD 6 or later) without this change, try
sysctl -nn kern.boottime
and marvel at the result (in theory, seconds.microseconds) most
probably being something like:
jinx$ sysctl -nn kern.boottime
1540801874.999995564
(There is a 1 in 1000 chance your system will have booted
in the interval [0 , 999999] nanoseconds after some second,
in which case this will not be observed. You should get
(almost) the same value after this change - just now it is as
it should be (there should now always be 9 digits after the '.').
On the other hand, if you're on a big-endian 64 bit host (running
64 bit sysctl) you would have always seen 0 for the microseconds field.
That should be fixed by this.
In sysctl(7) also document what we mean by "the time the system booted".
XXX Pullup -8
XXX Pullup -7
XXX Pullup -6 (oops, missed that one...)
dmesg -T and the actual time a message was produced, noted on
current-users by Geoff Wing (Oct 27, 2018).
The size of the offset would depend upon architecture, and processor,
but was the delay from starting the clocks to initialising the time
of day (after mounting root, in case that is needed).
Change the kernel to set boottime to be the time at which the
clocks were started, rather than the time at which it is init'd
(by subtracting the interval between).
Correct dmesg to properly compute the ToD based upon the
boottime (which is a timespec, not a timeval, and has been
since Jan 2009) and the time logged in the message.
Note that this can (rarely) be 1 second earlier than date reports.
This occurs when the time when the message was logged was actually
in the next second, but the timecounters have not yet processed
the tick, and so the time of the last tick, near the end of the
previous second, is reported instead. Since times are always
truncated, rather than rounded, it is occasionally possible to
observe that disparity (if you try hard enough).
IOW: sys/kern/subr_prf.c:addtstamp() uses getnanouptime() rather
than nanouptime().
Note in dmesg(8) that -T conversions are gibberish other than
when the message comes from current the running kernel. (It
could be fixed when -M is used, for messages generated by the
kernel whose corpse is being observed. But hasn't been...)
- pass intmax to fmtydhmsf instead of time_t to avoid extra conversions.
- make -TTT mean "always keep 3 decimal digits of duration precision" (ie:
always print ms) (including trailing 0's, even .000 if it happens)
- make -T (all forms) be subject to the locale (obey the radix character)
- don't print ymd, since that would require calendar calculations to get
right.
decimal fractions of a second (as they should be) rather than integer
milliseconds (ie nnn.1means nnn seconds and 1/10 of a second, not
nnn seconds, and 1 millisecond). While here convert some inappropriate
time_t usage to intmax_t which works better (int, or long, would probably
work just as well).
The umb(4) driver provides support for USB MBIM (Mobile Broadband
Interface Model) devices.
MBIM devices establish connections via cellular networks such as GPRS,
UMTS, and LTE. They appear as a regular point-to-point network interface, transporting raw IP frames.
Required configuration parameters like PIN and APN have to be set with
umbctl(8), a new tool specific to this driver. The IP address is configured
automatically; the default route and DNS server information have to be set
separately.
The driver is not fully functional yet, it is therefore still marked as
experimental and disabled by default. Any help welcome to complete it!
Tested on NetBSD/amd64, with a Sierra Wireless EM7345 LTE modem on a Lenovo
ThinkPad T440s. No functional change expected otherwise.
