https://github.com/torvalds/linux
Revision ca122fe376fc43f7565e3e56e6777d06a433a4cc authored by Linus Torvalds on 25 November 2017, 18:21:54 UTC, committed by Linus Torvalds on 25 November 2017, 18:21:54 UTC
Pull ARC updates from Vineet Gupta: - more changes for HS48 cores: supporting MMUv5, detecting new micro-arch gizmos - axs10x platform wiring up reset driver merged in this cycle - ARC perf driver optimizations * tag 'arc-4.15-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/vgupta/arc: ARC: perf: avoid vmalloc backed mmap ARCv2: perf: optimize given that num counters <= 32 ARCv2: perf: tweak overflow interrupt ARC: [plat-axs10x] DTS: Add reset controller node to manage ethernet reset ARCv2: boot log: updates for HS48: dual-issue, ECC, Loop Buffer ARCv2: Accomodate HS48 MMUv5 by relaxing MMU ver checking ARC: [plat-axs10x] auto-select AXS101 or AXS103 given the ISA config
Tip revision: ca122fe376fc43f7565e3e56e6777d06a433a4cc authored by Linus Torvalds on 25 November 2017, 18:21:54 UTC
Merge tag 'arc-4.15-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/vgupta/arc
Merge tag 'arc-4.15-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/vgupta/arc
Tip revision: ca122fe
highuid.txt
===================================================
Notes on the change from 16-bit UIDs to 32-bit UIDs
===================================================
:Author: Chris Wing <wingc@umich.edu>
:Last updated: January 11, 2000
- kernel code MUST take into account __kernel_uid_t and __kernel_uid32_t
when communicating between user and kernel space in an ioctl or data
structure.
- kernel code should use uid_t and gid_t in kernel-private structures and
code.
What's left to be done for 32-bit UIDs on all Linux architectures:
- Disk quotas have an interesting limitation that is not related to the
maximum UID/GID. They are limited by the maximum file size on the
underlying filesystem, because quota records are written at offsets
corresponding to the UID in question.
Further investigation is needed to see if the quota system can cope
properly with huge UIDs. If it can deal with 64-bit file offsets on all
architectures, this should not be a problem.
- Decide whether or not to keep backwards compatibility with the system
accounting file, or if we should break it as the comments suggest
(currently, the old 16-bit UID and GID are still written to disk, and
part of the former pad space is used to store separate 32-bit UID and
GID)
- Need to validate that OS emulation calls the 16-bit UID
compatibility syscalls, if the OS being emulated used 16-bit UIDs, or
uses the 32-bit UID system calls properly otherwise.
This affects at least:
- iBCS on Intel
- sparc32 emulation on sparc64
(need to support whatever new 32-bit UID system calls are added to
sparc32)
- Validate that all filesystems behave properly.
At present, 32-bit UIDs _should_ work for:
- ext2
- ufs
- isofs
- nfs
- coda
- udf
Ioctl() fixups have been made for:
- ncpfs
- smbfs
Filesystems with simple fixups to prevent 16-bit UID wraparound:
- minix
- sysv
- qnx4
Other filesystems have not been checked yet.
- The ncpfs and smpfs filesystems cannot presently use 32-bit UIDs in
all ioctl()s. Some new ioctl()s have been added with 32-bit UIDs, but
more are needed. (as well as new user<->kernel data structures)
- The ELF core dump format only supports 16-bit UIDs on arm, i386, m68k,
sh, and sparc32. Fixing this is probably not that important, but would
require adding a new ELF section.
- The ioctl()s used to control the in-kernel NFS server only support
16-bit UIDs on arm, i386, m68k, sh, and sparc32.
- make sure that the UID mapping feature of AX25 networking works properly
(it should be safe because it's always used a 32-bit integer to
communicate between user and kernel)
Computing file changes ...
