tree ecf65f1ae67000b94f5a4890af9b140d566df216
parent c1d84a1b42ef70d8ae601df9cadedc7ed4f1beb1
parent ac1788cc7da4ce54edcfd2e499afdb0a23d5c41d
author Greg Kroah-Hartman <gregkh@linuxfoundation.org> 1538888743 +0200
committer Greg Kroah-Hartman <gregkh@linuxfoundation.org> 1538888743 +0200
mergetag object ac1788cc7da4ce54edcfd2e499afdb0a23d5c41d
 type commit
 tag powerpc-4.19-4
 tagger Michael Ellerman <mpe@ellerman.id.au> 1538826180 +1000
 
 powerpc fixes for 4.19 #4
 
 Four regression fixes.
 
 A fix for a change to lib/xz which broke our zImage loader when building with XZ
 compression. OK'ed by Herbert who merged the original patch.
 
 The recent fix we did to avoid patching __init text broke some 32-bit machines,
 fix that.
 
 Our show_user_instructions() could be tricked into printing kernel memory, add a
 check to avoid that.
 
 And a fix for a change to our NUMA initialisation logic, which causes crashes in
 some kdump configurations.
 
 Thanks to:
   Christophe Leroy, Hari Bathini, Jann Horn, Joel Stanley, Meelis Roos, Murilo
   Opsfelder Araujo, Srikar Dronamraju.
 -----BEGIN PGP SIGNATURE-----
 
 iQJHBAABCgAxFiEEJFGtCPCthwEv2Y/bUevqPMjhpYAFAlu4n8QTHG1wZUBlbGxl
 cm1hbi5pZC5hdQAKCRBR6+o8yOGlgGJ+D/4nJ4ij6tb6LaIfMLxX7qCk43XFcXei
 R0wMzliZp0sC3KqVgoeGZxpXL6vAI3G46Ix+4lTUEw2LxpDpkQBRXKVnaium2Cs7
 qDSdycoWaqy5e40DRxUSno8oPtjMmDS43YnjY+/8ByA4hhF9XqzDGtF5EuCvc5Fr
 Lsts+jT3fvxVEAQM/10KnCFXDAO3gh8HBbDX3AwMRwCyxuQXjLSqDfW0+gX5ZuOC
 6LVZ2jGw1yen0mwFKPVWiJCMYeuaBn0u1LvzGb7XWHbITUBNGdx8YuOiLzAuOPYN
 OfP7+TPDsp5lbyB5KWNOVUB2ajxXUCMeT4CWZ++0HpUi1rcbJIz8ksJ9ZjA+Y4Ij
 FWOdauPdozDs6GUsvp1w9FHaD4B4KFDE7d5sKoIg73pKUPS+M/2JOIpNn/DMtg0a
 RgArGaxcswIGaJLV+SW9K8laZb085HIAFJCKuHgRPixtz2t35y+f+lTyYVg/BIpF
 lI/h60BSf7PMX0Jp1I1D8fUhmgFWcgz/rPN3J1BIG3jNjMmIU6bB+muGBlYZFDeC
 tICbYa4FAKkc8KHCALb7iF2k3BFa28HxzHU6JbDm66JNaMRD0tSpTEgX7spMr7XS
 RFySP+ofTBuzxwunsGWLjQy2rnY/DnFtbQgesDVByzTfCYhjQYqEdS38/LmWDZ6w
 pLqBpNfSgvHd0g==
 =FxNJ
 -----END PGP SIGNATURE-----

Merge tag 'powerpc-4.19-4' of https://git.kernel.org/pub/scm/linux/kernel/git/powerpc/linux

Michael writes:
  "powerpc fixes for 4.19 #4

   Four regression fixes.

   A fix for a change to lib/xz which broke our zImage loader when
   building with XZ compression. OK'ed by Herbert who merged the
   original patch.

   The recent fix we did to avoid patching __init text broke some 32-bit
   machines, fix that.

   Our show_user_instructions() could be tricked into printing kernel
   memory, add a check to avoid that.

   And a fix for a change to our NUMA initialisation logic, which causes
   crashes in some kdump configurations.

   Thanks to:
     Christophe Leroy, Hari Bathini, Jann Horn, Joel Stanley, Meelis
     Roos, Murilo Opsfelder Araujo, Srikar Dronamraju."

* tag 'powerpc-4.19-4' of https://git.kernel.org/pub/scm/linux/kernel/git/powerpc/linux:
  powerpc/numa: Skip onlining a offline node in kdump path
  powerpc: Don't print kernel instructions in show_user_instructions()
  powerpc/lib: fix book3s/32 boot failure due to code patching
  lib/xz: Put CRC32_POLY_LE in xz_private.h
