it is incompatible with stack unwinding code, if they are invoked,
disable stack unwinding for current thread, and when thread is
exiting, print a warning message.
not be used outside of the reassembly queue implementation. Provide a new
function to flush all segments from a reassembly queue and call it from the
appropriate places instead of manipulating the queue directly.
Sponsored by: FreeBSD Foundation
Reviewed by: andre, gnn, rpaulo
MFC after: 2 weeks
for them, two functions _pthread_cancel_enter and _pthread_cancel_leave
are added to let thread enter and leave a cancellation point, it also
makes it possible that other functions can be cancellation points in
libraries without having to be rewritten in libthr.
these could be made dependent on either of the octusb or octe options, but
making them standard fixes a number of option combinations that were previously
broken.
- looking for partition with 'bootonce' attribute alone (without 'bootme'
attribute), removing it and logging that we successfully booted from this
partition.
- looking for partitions with 'bootfailed' attribute, removing it and
logging that we failed to boot from this partition.
Reviewed by: arch (Message-ID: <20100917234542.GE1902@garage.freebsd.pl>)
Obtained from: Wheel Systems Sp. z o.o. http://www.wheelsystems.com
MFC after: 2 weeks
clean up most layering violations:
sys/boot/i386/common/rbx.h:
RBX_* defines
OPT_SET()
OPT_CHECK()
sys/boot/common/util.[ch]:
memcpy()
memset()
memcmp()
bcpy()
bzero()
bcmp()
strcmp()
strncmp() [new]
strcpy()
strcat()
strchr()
strlen()
printf()
sys/boot/i386/common/cons.[ch]:
ioctrl
putc()
xputc()
putchar()
getc()
xgetc()
keyhit() [now takes number of seconds as an argument]
getstr()
sys/boot/i386/common/drv.[ch]:
struct dsk
drvread()
drvwrite() [new]
drvsize() [new]
sys/boot/common/crc32.[ch] [new]
sys/boot/common/gpt.[ch] [new]
- Teach gptboot and gptzfsboot about new files. I haven't touched the
rest, but there is still a lot of code duplication to be removed.
- Implement full GPT support. Currently we just read primary header and
partition table and don't care about checksums, etc. After this change we
verify checksums of primary header and primary partition table and if
there is a problem we fall back to backup header and backup partition
table.
- Clean up most messages to use prefix of boot program, so in case of an
error we know where the error comes from, eg.:
gptboot: unable to read primary GPT header
- If we can't boot, print boot prompt only once and not every five
seconds.
- Honour newly added GPT attributes:
bootme - this is bootable partition
bootonce - try to boot from this partition only once
bootfailed - we failed to boot from this partition
- Change boot order of gptboot to the following:
1. Try to boot from all the partitions that have both 'bootme'
and 'bootonce' attributes one by one.
2. Try to boot from all the partitions that have only 'bootme'
attribute one by one.
3. If there are no partitions with 'bootme' attribute, boot from
the first UFS partition.
- The 'bootonce' functionality is implemented in the following way:
1. Walk through all the partitions and when 'bootonce'
attribute is found without 'bootme' attribute, remove
'bootonce' attribute and set 'bootfailed' attribute.
'bootonce' attribute alone means that we tried to boot from
this partition, but boot failed after leaving gptboot and
machine was restarted.
2. Find partition with both 'bootme' and 'bootonce' attributes.
3. Remove 'bootme' attribute.
4. Try to execute /boot/loader or /boot/kernel/kernel from that
partition. If succeeded we stop here.
5. If execution failed, remove 'bootonce' and set 'bootfailed'.
6. Go to 2.
If whole boot succeeded there is new /etc/rc.d/gptboot script coming
that will log all partitions that we failed to boot from (the ones with
'bootfailed' attribute) and will remove this attribute. It will also
find partition with 'bootonce' attribute - this is the partition we
booted from successfully. The script will log success and remove the
attribute.
All the GPT updates we do here goes to both primary and backup GPT if
they are valid. We don't touch headers or partition tables when
checksum doesn't match.
Reviewed by: arch (Message-ID: <20100917234542.GE1902@garage.freebsd.pl>)
Obtained from: Wheel Systems Sp. z o.o. http://www.wheelsystems.com
MFC after: 2 weeks
attribute (it should be allowed only to unset it), but for test purposes it
might be useful, so the current code allows it.
Reviewed by: arch@ (Message-ID: <20100917234542.GE1902@garage.freebsd.pl>)
MFC after: 2 weeks
GPT_ENT_ATTR_BOOTME - this is bootable partition
GPT_ENT_ATTR_BOOTONCE - try to boot only once from this partition
GPT_ENT_ATTR_BOOTFAILED - set this flag if we cannot boot from partition
containing GPT_ENT_ATTR_BOOTONCE flag; note that if we cannot
boot from partition that contains only GPT_ENT_ATTR_BOOTME flag,
the GPT_ENT_ATTR_BOOTFAILED flag won't be set
According to wikipedia Microsoft TechNet says that attributes are divided into
two halves: the lower 4 bytes representing partition independent attributes,
and the upper 4 bytes are partition type dependent. Microsoft is already using
bits 60 (read-only), 62 (hidden) and 63 (do not automount) and I'd like to not
collide with those, so we are using bit 59 (bootme), 58 (bootonce) and 57
(bootfailed).
Reviewed by: arch (Message-ID: <20100917234542.GE1902@garage.freebsd.pl>)
MFC after: 2 weeks
Large (60GB) filesystems created using "newfs -U -O 1 -b 65536 -f 8192"
show incorrect results from "df" for free and used space when mounted
immediately after creation. fsck on the new filesystem (before ever
mounting it once) gives a "SUMMARY INFORMATION BAD" error in phase 5.
This error hasn't occurred in any runs of fsck immediately after
"newfs -U -b 65536 -f 8192" (leaving out the "-O 1" option).
Solution:
The default UFS1 superblock is located at offset 8K in the filesystem
partition; the default UFS2 superblock is located at offset 64K in
the filesystem partition. For UFS1 filesystems with a blocksize of
64K, the first alternate superblock resides at 64K which is the the
location used for the default UFS2 superblock. By default, the
system first checks for a valid superblock at the default location
for a UFS2 filoesystem. For a UFS1 filesystem with a blocksize of
64K, there is a valid UFS1 superblock at this location. Thus, even
though it is expected to be a backup superblock, the system will
use it as its default superblock. So, we have to ensure that all the
statistcs on usage are correct in this first alternate superblock
as it is the superblock that will actually be used.
While tracking down this problem, another limitation of UFS1 became
evident. For UFS1, the number of inodes per cylinder group is stored
in an int16_t. Thus the maximum number of inodes per cylinder group
is limited to 2^15 - 1. This limit can easily be exceeded for block
sizes of 32K and above. Thus when building UFS1 filesystems, newfs
must limit the number of inodes per cylinder group to 2^15 - 1.
Reported by: Guy Helmer<ghelmer@palisadesys.com>
Followup by: Bruce Cran <brucec@freebsd.org>
PR: 107692
MFC after: 4 weeks
in the kernel (just as inet_ntoa() and inet_aton()) are and sync their
prototype accordingly with already mentioned functions.
Sponsored by: Sandvine Incorporated
Reviewed by: emaste, rstone
Approved by: dfr
MFC after: 2 weeks
also was inappropriate as it triggered for every EACCESS and ENOTFOUND, not
just the case the -n option is intended to deal with and thus really spammed
us with ~20 messages in the default configuration when booting a diskless
FreeBSD client, introduced with r207608 again.
MFC after: 1 week
This option doesn't passed to kernel and handled in user-space.
With -F option gpart creates new "delete" request for each
partition in table. Each request has flags="X" that disables
auto-commit feature. Last request is the original "destroy" request.
It has own flags and can have disabled or enabled auto-commit feature.
If error is occurred when deleting partitions, then new "undo" request
is created and all changes will be rolled back.
Approved by: kib (mentor)
driver to try to switch interrupt handlers at setup. It's not a very
good implementation of bus_teardown_intr, though.
o) Set cache line size and latency timers for PCI devices per Linux.
o) Reset and configure the bus from scratch rather than expecting U-Boot to
do it for us. Values and configuration from Linux, U-Boot and comments
in the Cavium Simple Executive sources.
o) Do a resource assignment and bus numbering pass in the absence of a PCI
BIOS or firmware that will do it for us.
XXX This has to be the third or fourth instance of this in FreeBSD and
it would be nice to have it become part of the PCI bus driver itself,
like it is on Linux.
o) Fix interrupt mapping for and adjust bus configuration for the Lanner
MR-955, based on information provided by Lanner.
too many bge(4) controllers there and model name does not
necessarily match asic/chip revision. Relying on VPD string made
it hard to identify exact asic/chip revision so the first step to
debug bge(4) was getting exact asic/chip information with verbose
boot which may not be available on production server.
or some variation in the path, the new version assumes that $0 is
newvers.sh path, and that dirname $0/.. is the same as $S aka $SYSDIR.
It also removes knowledge of ${MACHINE} and ${MACHINE_ARCH}, which is
also good.
# I've had this in my tree for about 6 months now, which is why I
# didn't notice that I broke it in r209510 and that was fixed in
# r212954. This should finally resolve the issues people had with
# r204824 as well as address the issues that motivated r204824.