gpt and zfs boot blocks are not nearly as size-constrained as boot2
from which they inherited their current optimization and anti-optimization
options. As such the current options do not provide any benefit, but
make debugging of the code much harder.
Also, it has been demonstrated that combination of -mrtd and
-fno-unit-at-a-time may result in mis-compilation of the boot code
with the current base gcc.
Additionally, intermediate assembly file filtering is removed for
zfsboot.
The new boot blocks are all compile- and boot- tested using qemu.
gptzfsboot is tested with real hardware.
Reported by: Peter Jeremy <peterjeremy@acm.org> [miscompilation]
Discussed with: bde, jhb
Tested by: Sebastian Chmielewski <chmielsster@gmail.com> [gptzfsboot]
Approved by: re (kib)
MFC after: 3 weeks
The utility is not connected to the build, so it should be safe
to update it.
To do: move the utility to tools/.
Some code is provided by Peter Jeremy <peterjeremy@acm.org>
Tested by: Sebastian Chmielewski <chmielsster@gmail.com>,
Peter Jeremy <peterjeremy@acm.org> (earlier versions)
Approved by: re (kib)
MFC after: 4 days
pre-r222417 state. The behavior was essentially reversed in r222417
which can cause confusion.
PR: 159775
Submitted by: Devin Teske
Approved by: re (kib)
default/loader.conf
This should help people installing ${OS} to USB devices, where there are
frequently cases where kernel tries to mount root before actual umass sensing
is finished.
Reviewed by: mav
Approved by: re (kib)
MFC after: 1 week
large (>= 10^10) numbers. In theory, 20 characaters should be enough,
but bump the buffer to 32 characters, so we have some room for the
future.
Reviewed by: pjd
Approved by: re (kib)
containing a kernel under /boot and that it's default value is "kernel"
not "/boot/kernel/kernel".
PR: docs/158992
Reported by: Wayne Mitchell wayne.mitchell.iz at gmail
Approved by: re (kib)
MFC after: 1 week
CFLAGS having '-g' in it, clang outputs several assembly directives that
are too new for our version of binutils.
Therefore, assemble the resulting .s files with clang instead. A more
general solution can be implemented when a GNU as-compatible driver for
clang's integrated assembler appears.
Reported by: dougb
we can find a way to get the information from petitboot or to guess it, so
the current algorithm is:
1. See if ps3disk3p1 (first GPT slice on OtherOS partition) exists, and if
so try to boot it.
2. Otherwise, netboot.
Submitted by: glevand <geoffrey.levand at mail dot ru >
bogusly casts its contents around causing alignment faults on sparc64 and
most likely also on at least powerpc. Fix this by copying the contents
bytewise instead as partly already done here. Solving this the right way
costs some space, i.e. 148 bytes with GCC and 16 bytes with clang on x86
there are still some bytes left there though, and an acceptable hack which
tricks the compiler into only using a 2-byte alignment instead of the native
one when accessing the contents turned out to even take up more space that.
the TLBs in order to get rid of the user mappings but instead traverse
them an flush only the latter like we also do for the Spitfire-class.
Also flushing the unlocked kernel entries can cause instant faults which
when called from within cpu_switch() are handled with the scheduler lock
held which in turn can cause timeouts on the acquisition of the lock by
other CPUs. This was easily seen with a 16-core V890 but occasionally
also happened with 2-way machines.
While at it, move the SPARC64-V support code entirely to zeus.c. This
causes a little bit of duplication but is less confusing than partially
using Cheetah-class bits for these.
- For SPARC64-V ensure that 4-Mbyte page entries are stored in the 1024-
entry, 2-way set associative TLB.
- In {d,i}tlb_get_data_sun4u() turn off the interrupts in order to ensure
that ASI_{D,I}TLB_DATA_ACCESS_REG actually are read twice back-to-back.
Tested by: Peter Jeremy (16-core US-IV), Michael Moll (2-way SPARC64-V)
floppies, so it will not be used as the start of an emulated floppy
image on a bootable CD which is what the fake BPB was used for.
- Only check that EDD packet mode is available once at the start of
zfsldr rather than for each disk sector now that we read data in one
sector at a time. As a result, collapse the remaining bits of read
up into nread and rename nread to read.
- Restore a return at the end of putstr that I removed in the previous
revision.
Tested by: Henri Hennebert (earlier version)
MFC after: 1 week
unhappy (probably they don't handle crossing the 64k boundary, etc.).
Fix this by changing zfsldr to use a loop reading from the disk one
sector at a time. To avoid trashing the saved copy of the MBR which is
used for disk I/O, read zfsboot2 at address 0x9000. This has the
advantage that BTX no longer needs to be relocated as it is read into
the correct location. However, the loop to relocate zfsboot2.bin can
now cross a 64k boundary, so change it to use relative segments instead.
(This will need further work if zfsboot2.bin ever exceeds 64k.)
While here, stop storing a relocated copy of zfsldr at 0x700. This was
only used by the xread hack which has recently been removed (and even
that use was dubious). Also, include the BIOS error code as hex when
reporting read errors to aid in debugging.
Much thanks to Henri Hennebert for patiently testing various iterations
of the patch as well as fixing the zfsboot2.bin relocation to use
relative segments.
MFC after: 1 week
Some of loader filesystems are very ill equipped to handle seeking
backwards within the file. Namely, tftp requires trasfer to be
restarted from the start of the file every time we go backwards.
Discussed on hackers and recommended for inclusion into 9.0 at the devsummit.
All support email to devin dteske at vicor dot ignoreme dot com .
Submitted by: dteske at vicor dot ignoreme dot com
Reviewed by: me and many others
Some files keep the SUN4V tags as a code reference, for the future,
if any rewamped sun4v support wants to be added again.
Reviewed by: marius
Tested by: sbruno
Approved by: re
boot2 calls back into boot1 to perform disk reads. The ZFS MBR boot blocks
do not have the same space constraints, so remove this hack for ZFS.
While here, remove commented out code to support C/H/S addressing from
zfsldr. The ZFS and GPT bootstraps always just use EDD LBA addressing.
MFC after: 2 weeks
- Mark getc() as inline, this has no effect on gcc but helps clang.
- Move getc() body before xgetc() so gcc does not emit a warning about
function having no body.
This modifies CFLAGS and tweaks sio.S to use the new calling convention.
The sio_init() and sio_putc() prototypes are modified so that other
users of this code know the correct calling convention.
This makes the code smaller when compiled with clang.
Reviewed by: jhb
Tested by: me and Freddie Cash <fjwcash gmail com>
to the l_load() method in the file_formats structure, while being passed
an address as an argument (dest). With file_load() calling arch_loadaddr()
now, this bug is a little bit more significant.
Spotted by: nyan@ (nice catch!)
boundaries. For good measure, align all other objects to cache
lines boundaries.
Use the new arch_loadseg I/F to keep track of kernel text and
data so that we can wire as much of it as is possible. It is
the responsibility of the kernel to link critical (read IVT
related) code and data at the front of the respective segment
so that it's covered by TRs before the kernel has a chance to
add more translations.
Use a better way of determining whether we're loading a legacy
kernel or not. We can't check for the presence of the PBVM page
table, because we may have unloaded that kernel and loaded an
older (legacy) kernel after that. Simply use the latest load
address for it.
1. arch_loadaddr - used by platform code to adjust the address at which
the object gets loaded. Implement PC98 using this new interface instead
of using conditional compilation. For ELF objects the ELF header is
passed as the data pointer. For raw files it's the filename. Note that
ELF objects are first considered as raw files.
2. arch_loadseg - used by platform code to keep track of actual segments,
so that (instruction) caches can be flushed or translations can be
created. Both the ELF header as well as the program header are passed
to allow platform code to treat the kernel proper differently from any
additional modules and to have all the relevant details of the loaded
segment (e.g. protection).
