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[Xen-devel] [xen-4.6-testing test] 105664: regressions - FAIL



flight 105664 xen-4.6-testing real [real]
http://logs.test-lab.xenproject.org/osstest/logs/105664/

Regressions :-(

Tests which did not succeed and are blocking,
including tests which could not be run:
 test-armhf-armhf-xl-credit2 15 guest-start/debian.repeat fail REGR. vs. 104585

Regressions which are regarded as allowable (not blocking):
 test-amd64-i386-rumprun-i386 16 rumprun-demo-xenstorels/xenstorels.repeat fail 
REGR. vs. 104585
 test-armhf-armhf-xl-rtds   15 guest-start/debian.repeat fail blocked in 104585
 test-armhf-armhf-libvirt-raw 12 saverestore-support-check    fail  like 104585
 test-armhf-armhf-libvirt     13 saverestore-support-check    fail  like 104585
 test-armhf-armhf-libvirt-xsm 13 saverestore-support-check    fail  like 104585
 test-amd64-i386-xl-qemuu-win7-amd64 16 guest-stop             fail like 104585
 test-amd64-amd64-xl-qemuu-win7-amd64 16 guest-stop            fail like 104585
 test-amd64-i386-xl-qemut-win7-amd64 16 guest-stop             fail like 104585
 test-amd64-amd64-xl-qemut-win7-amd64 16 guest-stop            fail like 104585

Tests which did not succeed, but are not blocking:
 test-xtf-amd64-amd64-5       62 xtf/test-pv32pae-xsa-194     fail   never pass
 test-xtf-amd64-amd64-4       62 xtf/test-pv32pae-xsa-194     fail   never pass
 test-xtf-amd64-amd64-2       62 xtf/test-pv32pae-xsa-194     fail   never pass
 test-xtf-amd64-amd64-3       62 xtf/test-pv32pae-xsa-194     fail   never pass
 test-amd64-amd64-xl-pvh-intel 11 guest-start                  fail  never pass
 test-amd64-amd64-libvirt     12 migrate-support-check        fail   never pass
 test-xtf-amd64-amd64-1       62 xtf/test-pv32pae-xsa-194     fail   never pass
 test-amd64-amd64-libvirt-xsm 12 migrate-support-check        fail   never pass
 test-amd64-i386-libvirt      12 migrate-support-check        fail   never pass
 test-amd64-i386-libvirt-xsm  12 migrate-support-check        fail   never pass
 test-amd64-i386-libvirt-qemuu-debianhvm-amd64-xsm 10 migrate-support-check 
fail never pass
 test-amd64-amd64-xl-pvh-amd  11 guest-start                  fail   never pass
 test-amd64-amd64-libvirt-qemuu-debianhvm-amd64-xsm 10 migrate-support-check 
fail never pass
 test-amd64-amd64-libvirt-vhd 11 migrate-support-check        fail   never pass
 test-amd64-amd64-qemuu-nested-amd 16 debian-hvm-install/l1/l2  fail never pass
 test-armhf-armhf-libvirt-raw 11 migrate-support-check        fail   never pass
 test-armhf-armhf-libvirt     12 migrate-support-check        fail   never pass
 test-armhf-armhf-xl-cubietruck 12 migrate-support-check        fail never pass
 test-armhf-armhf-xl-cubietruck 13 saverestore-support-check    fail never pass
 test-armhf-armhf-xl-xsm      12 migrate-support-check        fail   never pass
 test-armhf-armhf-xl-xsm      13 saverestore-support-check    fail   never pass
 test-armhf-armhf-xl-credit2  12 migrate-support-check        fail   never pass
 test-armhf-armhf-xl-credit2  13 saverestore-support-check    fail   never pass
 test-armhf-armhf-xl          12 migrate-support-check        fail   never pass
 test-armhf-armhf-xl          13 saverestore-support-check    fail   never pass
 test-armhf-armhf-libvirt-xsm 12 migrate-support-check        fail   never pass
 test-armhf-armhf-xl-vhd      11 migrate-support-check        fail   never pass
 test-armhf-armhf-xl-vhd      12 saverestore-support-check    fail   never pass
 test-armhf-armhf-xl-rtds     12 migrate-support-check        fail   never pass
 test-armhf-armhf-xl-rtds     13 saverestore-support-check    fail   never pass
 test-armhf-armhf-xl-arndale  12 migrate-support-check        fail   never pass
 test-armhf-armhf-xl-arndale  13 saverestore-support-check    fail   never pass
 test-armhf-armhf-xl-multivcpu 12 migrate-support-check        fail  never pass
 test-armhf-armhf-xl-multivcpu 13 saverestore-support-check    fail  never pass

version targeted for testing:
 xen                  576f319a804bce8c9a7fb70a042f873f5eaf0151
baseline version:
 xen                  09f521a077024d5955d766eef7a040d2af928ec2

Last test of basis   104585  2017-01-22 08:19:51 Z   18 days
Testing same since   105664  2017-02-09 10:14:26 Z    0 days    1 attempts

------------------------------------------------------------
People who touched revisions under test:
  George Dunlap <george.dunlap@xxxxxxxxxx>
  Jan Beulich <jbeulich@xxxxxxxx>
  Joao Martins <joao.m.martins@xxxxxxxxxx>

jobs:
 build-amd64-xsm                                              pass    
 build-armhf-xsm                                              pass    
 build-i386-xsm                                               pass    
 build-amd64-xtf                                              pass    
 build-amd64                                                  pass    
 build-armhf                                                  pass    
 build-i386                                                   pass    
 build-amd64-libvirt                                          pass    
 build-armhf-libvirt                                          pass    
 build-i386-libvirt                                           pass    
 build-amd64-prev                                             pass    
 build-i386-prev                                              pass    
 build-amd64-pvops                                            pass    
 build-armhf-pvops                                            pass    
 build-i386-pvops                                             pass    
 build-amd64-rumprun                                          pass    
 build-i386-rumprun                                           pass    
 test-xtf-amd64-amd64-1                                       pass    
 test-xtf-amd64-amd64-2                                       pass    
 test-xtf-amd64-amd64-3                                       pass    
 test-xtf-amd64-amd64-4                                       pass    
 test-xtf-amd64-amd64-5                                       pass    
 test-amd64-amd64-xl                                          pass    
 test-armhf-armhf-xl                                          pass    
 test-amd64-i386-xl                                           pass    
 test-amd64-amd64-xl-qemut-debianhvm-amd64-xsm                pass    
 test-amd64-i386-xl-qemut-debianhvm-amd64-xsm                 pass    
 test-amd64-amd64-libvirt-qemuu-debianhvm-amd64-xsm           pass    
 test-amd64-i386-libvirt-qemuu-debianhvm-amd64-xsm            pass    
 test-amd64-amd64-xl-qemuu-debianhvm-amd64-xsm                pass    
 test-amd64-i386-xl-qemuu-debianhvm-amd64-xsm                 pass    
 test-amd64-amd64-xl-qemut-stubdom-debianhvm-amd64-xsm        pass    
 test-amd64-i386-xl-qemut-stubdom-debianhvm-amd64-xsm         pass    
 test-amd64-amd64-libvirt-xsm                                 pass    
 test-armhf-armhf-libvirt-xsm                                 pass    
 test-amd64-i386-libvirt-xsm                                  pass    
 test-amd64-amd64-xl-xsm                                      pass    
 test-armhf-armhf-xl-xsm                                      pass    
 test-amd64-i386-xl-xsm                                       pass    
 test-amd64-amd64-qemuu-nested-amd                            fail    
 test-amd64-amd64-xl-pvh-amd                                  fail    
 test-amd64-i386-qemut-rhel6hvm-amd                           pass    
 test-amd64-i386-qemuu-rhel6hvm-amd                           pass    
 test-amd64-amd64-xl-qemut-debianhvm-amd64                    pass    
 test-amd64-i386-xl-qemut-debianhvm-amd64                     pass    
 test-amd64-amd64-xl-qemuu-debianhvm-amd64                    pass    
 test-amd64-i386-xl-qemuu-debianhvm-amd64                     pass    
 test-amd64-i386-freebsd10-amd64                              pass    
 test-amd64-amd64-xl-qemuu-ovmf-amd64                         pass    
 test-amd64-i386-xl-qemuu-ovmf-amd64                          pass    
 test-amd64-amd64-rumprun-amd64                               pass    
 test-amd64-amd64-xl-qemut-win7-amd64                         fail    
 test-amd64-i386-xl-qemut-win7-amd64                          fail    
 test-amd64-amd64-xl-qemuu-win7-amd64                         fail    
 test-amd64-i386-xl-qemuu-win7-amd64                          fail    
 test-armhf-armhf-xl-arndale                                  pass    
 test-amd64-amd64-xl-credit2                                  pass    
 test-armhf-armhf-xl-credit2                                  fail    
 test-armhf-armhf-xl-cubietruck                               pass    
 test-amd64-i386-freebsd10-i386                               pass    
 test-amd64-i386-rumprun-i386                                 fail    
 test-amd64-amd64-qemuu-nested-intel                          pass    
 test-amd64-amd64-xl-pvh-intel                                fail    
 test-amd64-i386-qemut-rhel6hvm-intel                         pass    
 test-amd64-i386-qemuu-rhel6hvm-intel                         pass    
 test-amd64-amd64-libvirt                                     pass    
 test-armhf-armhf-libvirt                                     pass    
 test-amd64-i386-libvirt                                      pass    
 test-amd64-amd64-migrupgrade                                 pass    
 test-amd64-i386-migrupgrade                                  pass    
 test-amd64-amd64-xl-multivcpu                                pass    
 test-armhf-armhf-xl-multivcpu                                pass    
 test-amd64-amd64-pair                                        pass    
 test-amd64-i386-pair                                         pass    
 test-amd64-amd64-libvirt-pair                                pass    
 test-amd64-i386-libvirt-pair                                 pass    
 test-amd64-amd64-amd64-pvgrub                                pass    
 test-amd64-amd64-i386-pvgrub                                 pass    
 test-amd64-amd64-pygrub                                      pass    
 test-amd64-amd64-xl-qcow2                                    pass    
 test-armhf-armhf-libvirt-raw                                 pass    
 test-amd64-i386-xl-raw                                       pass    
 test-amd64-amd64-xl-rtds                                     pass    
 test-armhf-armhf-xl-rtds                                     fail    
 test-amd64-i386-xl-qemut-winxpsp3-vcpus1                     pass    
 test-amd64-i386-xl-qemuu-winxpsp3-vcpus1                     pass    
 test-amd64-amd64-libvirt-vhd                                 pass    
 test-armhf-armhf-xl-vhd                                      pass    
 test-amd64-amd64-xl-qemut-winxpsp3                           pass    
 test-amd64-i386-xl-qemut-winxpsp3                            pass    
 test-amd64-amd64-xl-qemuu-winxpsp3                           pass    
 test-amd64-i386-xl-qemuu-winxpsp3                            pass    


------------------------------------------------------------
sg-report-flight on osstest.test-lab.xenproject.org
logs: /home/logs/logs
images: /home/logs/images

Logs, config files, etc. are available at
    http://logs.test-lab.xenproject.org/osstest/logs

Explanation of these reports, and of osstest in general, is at
    http://xenbits.xen.org/gitweb/?p=osstest.git;a=blob;f=README.email;hb=master
    http://xenbits.xen.org/gitweb/?p=osstest.git;a=blob;f=README;hb=master

Test harness code can be found at
    http://xenbits.xen.org/gitweb?p=osstest.git;a=summary


Not pushing.

------------------------------------------------------------
commit 576f319a804bce8c9a7fb70a042f873f5eaf0151
Author: George Dunlap <george.dunlap@xxxxxxxxxx>
Date:   Thu Feb 9 10:37:08 2017 +0100

    x86/emulate: don't assume that addr_size == 32 implies protected mode
    
    Callers of x86_emulate() generally define addr_size based on the code
    segment.  In vm86 mode, the code segment is set by the hardware to be
    16-bits; but it is entirely possible to enable protected mode, set the
    CS to 32-bits, and then disable protected mode.  (This is commonly
    called "unreal mode".)
    
    But the instruction decoder only checks for protected mode when
    addr_size == 16.  So in unreal mode, hardware will throw a #UD for VEX
    prefixes, but our instruction decoder will decode them, triggering an
    ASSERT() further on in _get_fpu().  (With debug=n the emulator will
    incorrectly emulate the instruction rather than throwing a #UD, but
    this is only a bug, not a crash, so it's not a security issue.)
    
    Teach the instruction decoder to check that we're in protected mode,
    even if addr_size is 32.
    
    Signed-off-by: George Dunlap <george.dunlap@xxxxxxxxxx>
    
    Split real mode and VM86 mode handling, as VM86 mode is strictly 16-bit
    at all times. Re-base.
    
    Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx>
    Reviewed-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
    master commit: 05118b1596ffe4559549edbb28bd0124a7316123
    master date: 2017-01-25 15:09:55 +0100

commit 163543ac31e90bdc7da589c63c5a997004ee11c9
Author: Joao Martins <joao.m.martins@xxxxxxxxxx>
Date:   Thu Feb 9 10:35:58 2017 +0100

    x86/hvm: do not set msr_tsc_adjust on hvm_set_guest_tsc_fixed
    
    Commit 6e03363 ("x86: Implement TSC adjust feature for HVM guest")
    implemented TSC_ADJUST MSR for hvm guests. Though while booting
    an HVM guest the boot CPU would have a value set with delta_tsc -
    guest tsc while secondary CPUS would have 0. For example one can
    observe:
     $ xen-hvmctx 17 | grep tsc_adjust
     TSC_ADJUST: tsc_adjust ff9377dfef47fe66
     TSC_ADJUST: tsc_adjust 0
     TSC_ADJUST: tsc_adjust 0
     TSC_ADJUST: tsc_adjust 0
    
    Upcoming Linux 4.10 now validates whether this MSR is correct and
    adjusts them accordingly under the following conditions: values of < 0
    (our case for CPU 0) or != 0 or values > 7FFFFFFF. In this conditions it
    will force set to 0 and for the CPUs that the value doesn't match all
    together. If this msr is not correct we would see messages such as:
    
    [Firmware Bug]: TSC ADJUST: CPU0: -30517044286984129 force to 0
    
    And on HVM guests supporting TSC_ADJUST (requiring at least Haswell
    Intel) it won't boot.
    
    Our current vCPU 0 values are incorrect and according to Intel SDM which on
    section "Time-Stamp Counter Adjustment" states that "On RESET, the value
    of the IA32_TSC_ADJUST MSR is 0." hence we should set it 0 and be
    consistent across multiple vCPUs. Perhaps this MSR should be only
    changed by the guest which already happens through
    hvm_set_guest_tsc_adjust(..) routines (see below). After this patch
    guests running Linux 4.10 will see a valid IA32_TSC_ADJUST msr of value
     0 for all CPUs and are able to boot.
    
    On the same section of the spec ("Time-Stamp Counter Adjustment") it is
    also stated:
    "If an execution of WRMSR to the IA32_TIME_STAMP_COUNTER MSR
     adds (or subtracts) value X from the TSC, the logical processor also
     adds (or subtracts) value X from the IA32_TSC_ADJUST MSR.
    
     Unlike the TSC, the value of the IA32_TSC_ADJUST MSR changes only in
     response to WRMSR (either to the MSR itself, or to the
     IA32_TIME_STAMP_COUNTER MSR). Its value does not otherwise change as
     time elapses. Software seeking to adjust the TSC can do so by using
     WRMSR to write the same value to the IA32_TSC_ADJUST MSR on each logical
     processor."
    
    This suggests these MSRs values should only be changed through guest i.e.
    throught write intercept msrs. We keep IA32_TSC MSR logic such that writes
    accomodate adjustments to TSC_ADJUST, hence no functional change in the
    msr_tsc_adjust for IA32_TSC msr. Though, we do that in a separate routine
    namely hvm_set_guest_tsc_msr instead of through hvm_set_guest_tsc(...).
    
    Signed-off-by: Joao Martins <joao.m.martins@xxxxxxxxxx>
    Reviewed-by: Jan Beulich <jbeulich@xxxxxxxx>
    master commit: 98297f09bd07bb63407909aae1d309d8adeb572e
    master date: 2017-01-24 12:37:36 +0100

commit 5c38a2e73623ebc7f51b62a7bf5293e748d1b623
Author: Jan Beulich <jbeulich@xxxxxxxx>
Date:   Thu Feb 9 10:35:24 2017 +0100

    x86: segment attribute handling adjustments
    
    Null selector loads into SS (possible in 64-bit mode only, and only in
    rings other than ring 3) must not alter SS.DPL. (This was found to be
    an issue on KVM, and fixed in Linux commit 33ab91103b.)
    
    Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx>
    Reviewed-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
    master commit: 366ff5f1b3252f9069d5aedb2ffc2567bb0a37c9
    master date: 2017-01-20 14:39:12 +0100

commit d3630ca700a59d239fb1299b8e0599db647b5011
Author: Jan Beulich <jbeulich@xxxxxxxx>
Date:   Thu Feb 9 10:35:02 2017 +0100

    x86emul: LOCK check adjustments
    
    BT, being encoded as DstBitBase just like BT{C,R,S}, nevertheless does
    not write its (register or memory) operand and hence also doesn't allow
    a LOCK prefix to be used.
    
    Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx>
    Reviewed-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
    master commit: f2d4f4ba80de8a03a1b0f300d271715a88a8433d
    master date: 2017-01-20 14:37:33 +0100

commit ae0263091cb6c1f20b87a3dea40c4c6a4ba47aa9
Author: Jan Beulich <jbeulich@xxxxxxxx>
Date:   Thu Feb 9 10:34:28 2017 +0100

    x86emul: VEX.B is ignored in compatibility mode
    
    While VEX.R and VEX.X are guaranteed to be 1 in compatibility mode
    (and hence a respective mode_64bit() check can be dropped), VEX.B can
    be encoded as zero, but would be ignored by the processor. Since we
    emulate instructions in 64-bit mode (except possibly in the test
    harness), we need to force the bit to 1 in order to not act on the
    wrong {X,Y,Z}MM register (which has no bad effect on 32-bit test
    harness builds, as there the bit would again be ignored by the
    hardware, and would by default be expected to be 1 anyway).
    
    We must not, however, fiddle with the high bit of VEX.VVVV in the
    decode phase, as that would undermine the checking of instructions
    requiring the field to be all ones independent of mode. This is
    being enforced in copy_REX_VEX() instead.
    
    Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx>
    Reviewed-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
    
    x86emul: correct VEX/XOP/EVEX operand size handling for 16-bit code
    
    Operand size defaults to 32 bits in that case, but would not have been
    set that way in the absence of an operand size override.
    
    Reported-by: Wei Liu <wei.liu2@xxxxxxxxxx> (by AFL fuzzing)
    Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx>
    Reviewed-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
    master commit: 89c76ee7f60777b81c8fd0475a6af7c84e72a791
    master date: 2017-01-17 10:32:25 +0100
    master commit: beb82042447c5d6e7073d816d6afc25c5a423cde
    master date: 2017-01-25 15:08:59 +0100
(qemu changes not included)

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