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Patch Name: PHKL_18543
Patch Description: s700_800 11.00 PM/VM/UFS/async/scsi/io/DMAPI/JFS/perf patch
Creation Date: 99/06/22
Post Date: 99/06/28
Repost: 99/07/29
- Two problems have been identified with PHKL_18543. The
problems have been corrected with additional patches
which should be installed with PHKL_18543. The additional
patches PHKL_17038 and PHKL_19169 are currently available
and have been added to the Patch Dependencies section for
PHKL_18543.
- The problems addressed by the additional patches are:
PHKL_17038 - Executing the vmtrace kernel debugging utility
on PA-RISC 2.0 systems with at least 64 MB of
memory can cause a system panic.
PHKL_19169 - Processes accessing files on a VxFS file system
may hang when two or more processes are
accessing the same inode.
- HP recommends that PHKL_17038 and PHKL_19169 be installed on
all systems on which PHKL_18543 is installed.
Repost: 99/08/13
- Two additional problems have been identified with PHKL_18543.
The problems have been corrected with additional patches
which should be installed with PHKL_18543. The additional
patches, PHCO_17058 and PHNE_16199, are released. They have
been added to the Patch Dependencies and Other Dependencies
sections, respectively, for PHKL_18543.
- The problems addressed by the additional patches are:
PHCO_17058 - A kernel built with SAM after PHKL_18543 is
installed with cause a system panic at boot
time. The panic string is:
all VFS_MOUNTROOTs failed: NEED DRIVERS ?????
PHNE_16199 - The kernel build will fail when installing
PHKL_18543 if HyperFabric B.11.00.00 or
HyperFabric B.11.00.01 is installed. The
error message generated during the kernel
build is:
ld: Unsatisfied symbol "pa_header" in file
/usr/conf/lib/libclic_dlpi_drv.a[lowfat.o]
- HP recommends that PHCO_17058, or any superseding patch for
SAM, be installed on every system on which PHKL_18543 is
installed. HP recommends that PHNE_16199, or any
superseding patch for HyperFabric, be installed on every
system on which PHKL_18543 is installed with HyperFabric
B.11.00.00 or HyperFabric B.11.00.01.
Repost: 99/09/28
- One additional problem has been identified with PHKL_18543.
The problem has been corrected with an additional patch
which should be installed with PHKL_18543. The additional
patch, PHKL_19800, is released and has been added to the
Patch Dependencies section for PHKL_18543.
- The problem addressed by the additional patch is:
PHKL_19800 - Unmounting a VxFS file system on a uniprocessor
system may result in a system hang if an inode
on the file system is locked by another process.
- HP recommends that PHKL_19800 be installed on all
uniprocessor systems on which PHKL_18543 is installed.
- Also, information was added to the Special Installation
Instructions section of the patch documentation discussing
the need to install PHKL_18543 a second time if Advanced VxFS
is installed after PHKL_18543.
Repost: 99/10/05
- One additional problem has been identified with PHKL_18543.
The problem has been corrected with an additional patch
which should be installed with PHKL_18543. The additional
patch, PHKL_20016, is released and has been added to the
Patch Dependencies section for PHKL_18543.
- The problem addressed by the additional patch is:
PHKL_20016 - Only one of the two processors of a G70, H70,
or I70 is recognized after PHKL_18543 is installed.
- HP recommends that PHKL_20016 be installed on all G70, H70,
and I70 systems on which PHKL_18543 is installed.
Repost: 99/12/20
- An additional problem has been identified with PHKL_18543.
The problem has been corrected with an additional patch
which should be installed with PHKL_18543. The additional
patch, PHKL_20674, is released and has been added to the
Patch Dependencies section for PHKL_18543.
- The problem addressed by the additional patch is:
PHKL_20674 - Heavy stress of the VxFS inode cache through
numerous simultaneous access to files on VxFS
file systems may result in a system panic.
- HP recommends that PHKL_20674 be installed on all systems
with VxFS file systems.
Repost: 00/09/06
- An additional problem has been identified with PHKL_18543.
The problem has been corrected with an additional patch
which should be installed with PHKL_18543. The additional
patch, PHKL_22208, is released and has been added to the
Other Dependencies section for PHKL_18543.
- The problem addressed by the additional patch is:
PHKL_22208 - A memory leak in the DMAPI code may cause
serious system performance degradation when
applications utilizing DMAPI, such as
OmniStorage, are used.
- HP recommends that PHKL_22208 be installed on all systems
with OnLine JFS running applications utilizing DMAPI, such
as OmniStorage.
Repost: 00/11/06
- An additional problem has been identified with PHKL_18543.
The problem has been corrected with an additional patch
which should be installed with PHKL_18543. The additional
patch, PHKL_22589, is released and has been added to the
Patch Dependencies section for PHKL_18543.
- The problem addressed by the additional patch is:
PHKL_22589 - With PHKL_18543 installed, select(2) will
incorrectly return 0 when it is interrupted
after being called with no file descriptors
and a timeout. According to the X/Open
standard, select(2) should return -1 for this
case.
- HP recommends that PHKL_22589 be installed on all systems
on which PHKL_18543 is installed to insure compliance with
the X/Open standard.
Hardware Platforms - OS Releases:
s700: 11.00
s800: 11.00
Products: N/A
Filesets:
JournalFS.VXFS-PRG,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP
OS-Core.CORE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP
ProgSupport.C-INC,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP
AdvJournalFS.VXFS-ADV-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP
JournalFS.VXFS-BASE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP
OS-Core.CORE2-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP
OS-Core.KERN2-RUN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP
AdvJournalFS.VXFS-ADV-KRN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP
JournalFS.VXFS-BASE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP
OS-Core.CORE2-KRN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP
OS-Core.KERN2-RUN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP
Automatic Reboot?: Yes
Status: General Release
Critical:
Yes
PHKL_18543: PANIC HANG CORRUPTION
PHKL_18534: PANIC
PHKL_18533: HANG
Note: the "hang" seen here is not a true kernel
hang; some threads/processes may appear "hung" while
waiting for memory, though.
PHKL_18531: PANIC HANG
PHKL_18295: PANIC
PHKL_17999: PANIC
PHKL_18141: PANIC
PHKL_17817: HANG PANIC
PHKL_17953: PANIC ABORT
Panic: "kalloc: out of kernel virtual space"
Abort: Multi-threaded SHMEM_MAGIC processes receive
SIGSEGV.
PHKL_17869: HANG OTHER
File system may become unmountable
PHKL_17795: OTHER
Processes become hung and unkillable
PHKL_17258: ABORT CORRUPTION HANG PANIC
PHKL_17458: OTHER
Single-bit memory errors on V-Class and mmap()
and write() system call limitation on HP-UX
PHKL_17390: PANIC HANG
PHKL_17091: HANG
PHKL_16876: PANIC OTHER
A problem with the pstat() may lead to applications
in an MC/ServiceGuard environment such as Oracle
and SAP not being properly halted and the switch
may fail.
PHKL_16840: HANG
PHKL_16749: PANIC
PHKL_16318: PANIC
PHKL_16135: MEMORY_LEAK
PHKL_15705: PANIC HANG ABORT CORRUPTION
PHKL_15508: PANIC HANG
PHKL_14769: PANIC
This patch will fix a problem caused by "any" user
application program calling adjust_flock() outside
the context of u-area.
PHKL_15325: PANIC HANG ABORT OTHER
ulimit(2) gives incorrect value in 64B system.
PHKL_15050: PANIC
system panic when page_text_to_local set to 1 or
sticky bit is set to 1.
PHKL_14292: OTHER
Incorrect behavior and possible standards violations
PHKL_14088: PANIC
PHKL_13328: PANIC
PHKL_13644: PANIC HANG
PHKL_13673: PANIC
PHKL_13676: ABORT
PHKL_13646: HANG
Since the performance is very poor, the system
often hangs with high system time.
PHKL_13193: PANIC
PHKL_14070: PANIC
PHKL_13858: PANIC
PHKL_13081: PANIC
PHKL_14536: PANIC OTHER
The resulting behavior is an HPMC.
This problem only occurs on T600 systems with
greater than 4 gig of memory and running a 64bit OS.
PHKL_15721: HANG
PHKL_14135: PANIC
PHKL_13343: PANIC
PHKL_16794: HANG
PHKL_16313: HANG
PHKL_15487: PANIC HANG
PHKL_16144: CORRUPTION
PHKL_15719: CORRUPTION
PHKL_15674: PANIC CORRUPTION
PHKL_14745: PANIC
PHKL_13574: HANG
PHKL_13200: PANIC HANG
PHKL_14046: PANIC
PHKL_14047: PANIC
PHKL_15480: HANG PANIC
PHKL_14551: HANG PANIC
PHKL_14069: PANIC
PHKL_13387: OTHER
It is a backward compatibility issue.
W/o this patch pair, and when you are using
OmniStore (DMAPI app), you will see corruption.
PHKL_14063: HANG
PHKL_13201: PANIC
PHKL_17524: HANG
PHKL_17046: PANIC
PHKL_16952: HANG
PHKL_15476: CORRUPTION
PHKL_13505: PANIC
PHKL_13023: CORRUPTION PANIC
PHKL_18123: PANIC
PHKL_16875: PANIC
PHKL_14554: OTHER
HSC100BT Cards may not operate properly on heavily
configured systems.
PHKL_13794: OTHER
GSCtoPCI cards may fail to function properly
on T600 systems.
PHKL_13870: OTHER
PCI port I/O will not work correctly and machine
may panic.
PHKL_14532: PANIC OTHER
Some IO cards can not function after boot.
PHKL_15622: PANIC HANG
PHKL_15084: PANIC
PHKL_15488: PANIC
PHKL_14606: HANG
PHKL_13219: PANIC HANG OTHER
Incorrect behavior from X Windows on 64 bit 11.00
PHKL_13551: CORRUPTION
PHKL_14464: PANIC
ONLY systems with very low memory and Advanced JFS
installed will panic while performing large
read/write system call.
PHKL_14426: CORRUPTION
Category Tags:
defect_repair hardware_enablement enhancement
general_release critical panic halts_system corruption
memory_leak
Path Name: /hp-ux_patches/s700_800/11.X/PHKL_18543
Symptoms:
PHKL_18543:
( SR: 4701422360 DTS: JAGaa45754 )
A system panic occurs with the message:
panic: ep_error_intr_handler: Global error on Epic X,
Device Y, Driver atm2pci
This problem is seen when running PCI ATM on a V2200/V2250
system (an unsupported configuration).
( SR: 4701398008 DTS: JAGaa13703 )
In order to support both legacy and future systems,
the platform code contained in the PA-CDIO has to be
more flexible and extensible than it is today.
This enhancement enables support for different
platform architectures (classes).
( SR: 4701423376 DTS: JAGaa94740 )
Any processor running at 440MHz will not allow user to
change the dump type during a system crash dump.
The message seen is:
Processor is booting from first available device.
To discontinue, press any key within 10 seconds.
The system does not give the user enough time to
respond to this prompt.
( SR: 4701415208 DTS: JAGaa67828 )
Adding new functionality to the diag2 driver in support of
N-Class.
( SR: 4701414037 DTS: JAGaa45889 )
Data Page Fault panic in dnlc_enter().
( SR: 4701424473 DTS: JAGab03746 )
HP9000 I-Class, H-Class, 887 and 897 systems panic with a
Data Page Fault:
panic+0x14
report_trap_or_int_and_panic+0x4c
trap+0xe88
$call_trap+0x38
prf+0x450
printf+0x3c
report_trap_or_int+0xb4
trap+0x81c
$call_trap+0x38
( SR: 4701423772 DTS: JAGab11098 )
System panics with "Bad entry into vfork_transfer".
( SR: 4701427583 DTS: JAGab11351 )
Panics resulting from system memory corruption, specifically
of the 32-byte malloc free pool. This defect has many
failure symptoms, resulting in different system [panic]
messages. The memory corruption was the result of
simultaneous access to files on a filesystem when it was
being unmounted.
( SR: 4701427591 DTS: JAGab15390 )
System may hang during a system panic.
( SR: 4701428359 DTS: JAGab15978 )
Abnormal dump behavior after the "*** Dumping: 0%
complete..." message. Symptoms include system hang, HPMC,
spontaneous rebooting and dumping past 100% (on selective
dumps). This is seen when dumping through Fiber Channel
IODC (I/O dependent code) when booted from a different
device/bus (usually SCSI).
( SR: 4701418582 DTS: JAGaa47047 )
The system may panic with the message "Non-access
data TLB miss" when using VxFS direct I/O.
( SR: 4701423624 DTS: JAGab07301 )
64-bit systems panic during installation of the operating
system. The largest memory configuration shown to exhibit
this defect was a 2GB system. This defect has not been seen
on V-Class.
( SR: 4701414839 DTS: JAGaa62624 )
System hangs in ccio_map_dma_buffer() with large virtual
memory usage in Hyperfabric I/O.
( SR: 4701415968 DTS: JAGaa40688 )
System panics when a busy EMC Array configured with many
LUNS suffers a power failure. This problem surfaced during
testing with 980 luns. However, it may be possible to
experience this defect with a few hundred luns and
sufficient I/O activity.
( SR: 4701422378 DTS: JAGaa94628 )
The system may panic with a data page fault in the VxFS file
system:
panic+0x14
report_trap_or_int_and_panic+0x80
trap+0xe10
nokgdb+0x8
vx_mkimtran+0x80
vx_ialloc+0x108
vx_dirmakeinode+0x15c
vx_dircreate+0x144
vx_dircreate_tran+0x148
vx_create+0x1a4
vx_hsmv_create+0x10
vns_create+0xa4
vn_create+0xcc
vn_open+0x14c
copen+0xd0
open+0x3c
syscall+0x5cc
$syscallrtn+0x0
The panic is due to a race condition, and may occur with
moderate file system activity.
( SR: 4701420513 DTS: JAGaa73203 )
If the system file (/stand/system) is reconfigured with
MAXUSERS set to 8192, the new kernel generated will hang
during boot. The boot process will display the initial
startup sizes and then hang.
( SR: 5003441675 DTS: JAGaa40673 )
Applications using select() as a fast sleep wakeup
mechanism, such as Oracle and Informix, will see system
performance degradation on multi-processor systems.
( SR: 4701422204 DTS: JAGaa40707 )
Deteriorating performance on machines/applications that use
Large Pages to improve Translation Lookaside Buffer (TLB)
performance.
( SR: 4701405738 DTS: JAGaa10188 )
When a Magneto-Optical device on an HP-PB bus does not have
media currently loaded, Support Tools Manager (STM) hangs
for about 20-30 seconds per device. On a system with
many devices, this significantly affects STM initialization.
( SR: 4701423350 DTS: JAGaa47090 )
Booting a 32-bit kernel panics in pa_alloc_shared_memory().
( SR: 4701423947 DTS: JAGab13349 )
Enhances ioscan description for PCI devices.
( SR: 4701423327 DTS: JAGab11455 )
Enhancement to provide PCI bus support for N-Class.
( SR: 4701423970 DTS: JAGaa45178 )
Any application/driver that uses MEMLOG, or any other
diagnostic using io_query() to get information about
interface cards, may cause an HPMC if PCI cards are present.
( SR: 4701423954 DTS: JAGaa07864 )
A driver developer using PCI_ID would not receive correct
data in the attach routine for 64 bit systems only.
( SR: 4701423962 DTS: JAGaa07908 )
When using DLKM to load or unload a PCI driver, the
system panics.
The following stack and message...
Trying to get spinlock pci_irq_rdr_lock when spinlock
pci_irq_rdr_lock is held.
panic: spin_deadlock_failure
PC-Offset Stack Trace (read down, top of stack is 1st):
stktrc: can't find descriptor
0x00175bb0 (panic+0x4c)
0x00121630 (spin_deadlock_failure+0x38)
0x001215dc (deadlock_check+0xb0)
0x0011ed3c (sl_pre_check+0x54)
0x0011ec18 (spinlock+0x14)
0x000a4760 (h2p_get_write_lock+0x2c)
0x000a4924 (h2p_isrlink+0x70)
0x000a3b4c (function name is not available)
0x002325c4 (isrlink+0x3a8)
isrlink/isrunlink are the key routines to look for.
( SR: 4701424507 DTS: JAGab15204 )
Performance enhancement for online transaction processing.
( SR: 4701423632 DTS: JAGab11462 )
This is an enhancement to enable the N-class platform.
( SR: 4701424390 DTS: JAGab13290 )
A fix for "panic: Interrupt Control Stack overflow" was
implemented in patch PHKL_15705. Part of this fix was
removed in patch PHKL_16318.
( SR: 4701414441 DTS: JAGaa45359 )
Enhancement to enable generic system bus adapter (SBA)
support.
( SR: 4701414110 DTS: JAGaa45045 )
Improves Specweb performance on V22x0 systems.
Improves performance of Fibre Channel drives.
( SR: 4701414052 DTS: JAGaa53662 )
Process to lock a buffer in memory is too slow.
This causes unnecessary performance problems with database
applications. Async I/O is also affected.
( SR: 4701423780 DTS: JAGaa40446 )
This enhancement adds support for the HP A5150A UltraII dual
port SCSI card.
( SR: 4701414128 DTS: JAGaa47197 )
Add support for the Tachyon PCI bridge board on V2500.
( SR: 4701416768 DTS: JAGaa62804 )
Enhancement to improve performance of PCI DMA transactions,
and add support for use of DMA attributes by drivers.
( SR: 4701414110 DTS: JAGaa45045 )
Large performance loss on V-class due to "dma_sync" macro.
( SR: 4701407098 DTS: JAGaa40672 )
Applications may experience poor performance when using
shared libraries.
( SR: 4701414045 DTS: JAGaa46611 )
An async IO request that is larger than MAXPHYS may fail
with EINVAL.
( SR: 4701428409 DTS: JAGab17652 )
Data Page fault panic in scsi_retry().
( SR: 4701423509 DTS: JAGaa73277 )
Following a spike in memory pressure, the kernel may
occasionally panic with a data page fault in the
reactivation path:
panic+0x14
report_trap_or_int_and_panic+0x48
trap+0xb34
$call_trap+0x38
uarea_pages+0x8
reactivate+0x20
choose_reactivate+0x258
sched+0x1d0
main+0x61c
$vstart+0x34
$locore+0x90
( SR: 4701422212 DTS: JAGaa45018 )
Customers may see system panics caused by double bit memory
errors on PA2.0 systems running either a 32-bit or 64-bit
operating system.
( SR: 4701422295 DTS: JAGab03933 )
Enhancement to support synchronized TLB purges for N-Class
processors.
( SR: 4701422931 DTS: JAGab11428 )
Enhancement to support new PDC and PAT calls for N-Class.
( SR: 4701423335 DTS: JAGaa73071 )
Performance enhancement: PDC_RELOCATE will now occur on all
systems in which PDC_RELOCATE is implemented (currently
T-Class and N-Class), and regardless of memory
configuration.
( SR: 4701419069 DTS: JAGaa93808 )
Panic: "Conditional trap" with a stack trace similar to the
following:
report_trap_or_int_and_panic+0x80
trap+0x8bc
nokgdb+0x8
scsi_frequency+0x7c
scsi_ioctl+0xac0
sdisk_ioctl+0x1c
spec_ioctl+0x160
vno_ioctl+0x90
ioctl+0x164
syscall+0x990
$syscallrtn+0x0
( SR: 5003441147 DTS: JAGaa43109 )
On multi-processor systems, Allbase fails due to proc_open()
returning with errno=EMFILE. Additionally, proc_sendrecv()
frequently returns ECHILD, and proc_close() returns EINTR.
The last error (EINTR) is also seen on single processor
systems.
( SR: 4701420794 DTS: JAGaa73120 )
System hang or panic: spinlock deadlock:
panic+0x14
too_much_time+0x328
wait_for_lock+0x1f4
sl_retry+0x1c
find_timeout+0x54
untimeout+0x14
gelan_handle_events_V+0x130
gelan_isr_V+0x290
epic_isr+0x54
mp_ext_interrupt+0x2d0
ivti_patch_to_nop3+0x0
idle+0xd6c
swidle_exit+0x0
( SR: 4701414847 DTS: JAGaa62625 )
System hangs or panics. Threads are being switched-out from
running while they have interrupts disabled and while
holding spinlocks. Spinlock problems may be reported by the
kernel.
( SR: 4701408401 DTS: JAGaa43012 )
I/O failover hang on Fiber Channel PV_link.
PHKL_18534:
( SR: 4701427617 DTS: JAGab16422 )
A data page fault panic occurs in vx_ireuse_clean():
panic+0x14
report_trap_or_int_and_panic+0x80
trap+0xd94
nokgdb+0x8
vx_ireuse_clean+0x34
vx_ireuse+0xe0
vx_real_iget+0x1ac
vx_iget+0x3c
vx_dirlook+0x23c
vx_lookup+0x158
locallookuppn+0xd4
lookuppn+0xf8
vn_remove+0x90
unlink+0x28
syscall+0x200
$syscallrtn+0x0
PHKL_18533:
Processes hang waiting for memory, but vhand doesn't run.
PHKL_18531:
( SR: 5003455626 DTS: JAGaa94781 )
When doing a umount of a VxFS filesystem, the following
panic can occur:
panic: dirty inval
A stack trace of the panic event will show the following:
panic+0x14 brelse+0x21c vx_brelse_bp+0x38
vx_brelse_noflush+0x3c vx_brelse+0x2c
vx_brelse_stale+0x2c vx_blkinval+0x114
vx_freeze_level+0x284 vx_freeze+0x14
vx_detach_fset+0x238 vx_unmount+0x9c
umount_vfs+0x64 umount_root+0x24
umount+0xa0 syscall+0x5cc $syscallrtn+0x0
Examining the dump closely should show a thread in the
process of doing a vx_sync(), similar to the following:
_sleep+0x7d4 biowait+0x1e4 vx_biowait+0x14
vx_biowait_chain+0x30 vx_flush_chain+0x254
vx_vnode_flush+0x3a8 vx_do_putpage+0xa4
vx_idelxwri_flush+0x6c vx_fsflushi+0x3e4
vx_sync+0x100 update+0x48 sync+0x24
syscall+0x5cc $syscallrtn
( SR: 1653301887 DTS: JAGab13393 )
A data page fault panic could occur when a multithreaded
process uses fcntl() F_WRLCK to lock a file then exits
without first unlocking the file, while another process
simultaneously uses fcntl() F_GETLK to check the lock status
of the same file.
( SR: 1653301614 DTS: JAGab13027 )
When a multithreaded process does file I/O concurrently with
mmap() or munmap() on the same file, it can result in a
single process deadlock. This process is not killable.
PHKL_18295:
( SR: 1653299776 CR: JAGab03559 )
System panic's with Spinlock timeout in dnlc_lookup().
The stack trace looks like:
crash event was a panic
panic+0x14
too_much_time+0x2e0
wait_for_lock+0x14c
sl_retry+0x1c
dnlc_lookup+0x88
vx_fast_lookup+0x48
vx_lookup+0x90
locallookuppn+0xd4
lookuppn+0xf8
lookupname+0x40
The problem is seen on high-end K-class and V-class
machines with >4 processors.
( SR: 4701400366 DTS: JAGaa22046 )
Ocasionally, a process may hang after calling truncate (or
ftruncate) for a special file.
( SR: 4701414003 CR: JAGaa55559 )
If an executable on UFS file system is modified with adb64,
the change is not visible when the executable is run.
( SR: 4701416180 DTS: JAGaa93219 )
User mapping of 40 bit IO address does not work properly
on 64 bit kernels.
Kernel mapped IO addresses are not unmapped properly
on 64 bit kernels.
( SR: 5003444331 CR: JAGab14275 )
When installing patch PHKL_18141 on systems that do
not have the base JFS package installed, the install
will fail with error messages that look like ('\'
characters show continued lines):
(Bundled) cc: "/usr/conf/space.h.d/fs-tune.h", line 41: \
error 1588: "VX_NINODE" undefined.
(Bundled) cc: "/usr/conf/space.h.d/fs-tune.h", line 41: \
error 1521: Incorrect initialization.
(Bundled) cc: "/usr/conf/space.h.d/fs-tune.h", line 42: \
error 1588: "VX_NOIFREE" undefined.
(Bundled) cc: "/usr/conf/space.h.d/fs-tune.h", line 42: \
error 1521:
Incorrect initialization.
*** Error exit code 1
( SR: 4701414839 DTS: JAGaa62624 )
System hangs in ccio_map_dma_buffer() with large virtual
memory usage in Hyperfabric I/O.
( SR: 4701414847 DTS: JAGaa62625 )
System panics with strange behavior: threads are being
switched-out from running while they have interrupts
disabled and while holding spinlocks. Visibly, spinlock
problems may be reported by the kernel and possibly cause a
system panic.
PHKL_17999:
( SR: 1653296335 CR: JAGaa93879 )
System can panic when accessing a defective DLT tape
drive.
stack trace for event 0
crash event was a panic
panic+0x14
report_trap_or_int_and_panic+0x80
interrupt+0x1d4
$ihndlr_rtn+0x0
st_head_pos+0x11c
st_dev_sense+0x1ec
scsi_cbfn+0xe50
scsi_fast_cbfn+0x8d8
c720_isr+0x59c
epic_isr+0x54
mp_ext_interrupt+0x3b8
ivti_patch_to_nop3+0x0
idle+0x224
swidle_exit+0x0
This problem was introduced with patch PHKL_14805.
( SR: 4701421560 CR: JAGaa45722 )
Mmap will fail returning -1 and errno set to ENOMEM
if two processes are mmaping a file and there is
overlap in the regions mapped.
This problem was introduced with patch PHKL_17258.
PHKL_18141:
SR: 5003444331 CR: JAGaa44308
Panic due to insufficient kernel virtual space. Panic
string: "kalloc: out of kernel virtual space".
PHKL_17817:
I/O failover hang on Fiber Channel PV_link.
PHKL_17953:
( SR: 4701414003 DTS: JAGaa44308 )
Panic due to insufficient kernel virual space. Panic
string: "kalloc: out of kernel virtual space". Note, it
is expected that the system could panic with other panic
strings due to this defect, but these other panics could not
be reproduced.
( SR: 5003444125 DTS: JAGaa44400 )
Multi-threaded SHMEM_MAGIC processes core dump while trying
to access shared memory. The application will receive a
SIGSEGV.
( SR: 4701413948 DTS: JAGaa52712 )
A 64 bit process vforked from a 32 bit process will be
assigned rlimits if it were a 32 bit process, and these
limits can not be increased.
( SR: 4701382440 DTS: JAGaa01444 )
Process threads that should have been selected to wake up
remain asleep (are not woken up). Note that these are
individaul threads, and not the entire system. However,
other threads could deadlock on these threads if they are
waiting for them.
( SR: 4701421230 DTS: JAGaa79765 )
Too many messages in syslog about overriding mandatory
binding on system daemons. Message looks like:
mpc_bindlwp: Overriding conflicting mandatory binding!
mpc_bindlwp: Migrating process 32 from processor to
processor 0!
Process ID (pid) will usually be low (a system process) and
the processor number will vary. The most common system
process to experience this is vxfsd (the VxFS daemon).
These messages do not indicate a functional problem.
However if many are generated, they could grow the
syslog file and potentially fill the filesystem. This
change turns off these messages only for system processes.
PHKL_17869:
( SR: 5003443622 DTS: JAGaa43921 )
System appears to hang intermittently due to processes
being deactivated by the scheduler.
The symptom is particularly visible on Netscape servers
or on systems running applications using large amount
of mmap files.
Patch PHKL_13156 which is intended to address the exact
problem is not enough to solve the deactivation.
( SR: 4701418467 DTS: JAGaa41647 )
On a VxFS file system that has low activity of
creation/deletion it appears that when files are removed
the space is not recovered. If the file system is
unmounted and re-mounted, however, the space re-appears.
Also, if activity is generated the space will be recovered.
This problem was introduced with PHKL_17205.
( SR: 4701406140 DTS: JAGaa42463 )
A DMAPI application may generate large numbers of defunct
processes, filling up the process table causing an
inability to fork new processes.
( SR: 4701413344 DTS: JAGaa47268 )
If a large sparse file is transferred to another system
via sendfile (used by ftp and rcp), the vxfs file system
where the file was copied from may later exhibit problems
using umount or fsadm, failing with error EBUSY.
( SR: 1653291369 DTS: JAGaa57261 )
When the number of files in a vxfs file system is larger
than 8 million, fsck of the file system may fail.
PHKL_17795:
( SR: 4701418194 DTS: JAGaa79944 )
Multiple processes or multiple threads in a process can
deadlock when some of them do conventional IO and others
mmap() one and same file. They will be unkillable.
PHKL_17258:
( SR: 4701404343 DTS: JAGaa22890 )
The kernel can panic when the protection id's are
exhausted Panic with error message "hdl_alloc_spaceid:
spacemap exhausted"
( SR: 4701391698 DTS: JAGaa05293 )
The customer will potentially see reduced performance
due to TLB thrashing due to an abundance of small pages
in child processes of forks.
( SR: 4701401406 DTS: JAGaa11142 )
System panics with:
kalloc: out of kernel virtual space
( SR: 4701407239 DTS: JAGaa40599 )
Panic with data memory protection fault, or user
process hang. The panic can occur when memory
diagnostics [dmem] is and large page allocations are
enabled on PA2.0 machines and the systems is under some
memory pressure.
( SR: 4701401646 DTS: JAGaa24065 )
On 2.0 Architecture systems, TLB purge instructions are
purging more pages than necessary. This does not cause
the system to operate improperly, but it may have a
slight negative impact on system performance.
( SR: 4701399519 DTS: GSY1604424 )
This enhancement will allow PRM users using
the A.01.05 version of PRM to report and regulate
the amount of disk bandwidth user groups get.
( SR: 4701401232 DTS: JAGaa13812 )
The user will notice poor TPCC and LADDIS performance
due to TLB thrashing.
System hangs under high load/high memory demand, but
vhand process is asleep waiting for memory in order to
swap out pages.
( SR: 4701402438 DTS: JAGaa35195 )
This patch improves performance on certain networking
workloads (specifically the SPECWEB96 benchmark).
These performance improvements were used in the
recently announced SPECWEB results for the K-series
(~6250 ops).
( SR: 4701400671 DTS: JAGaa10114 )
( SR: 4701400689 DTS: JAGaa22027 )
The deferred floating point exception problem shows up
in code containing a deferred floating point exception
followed by a syscall when it is compiled with the -O
option for optimization. It shows up as an error in
the program.
The tlb miss handling problem came to light as a result
of some faulty driver code and it is normally not
visible to the customer.
( SR: DTS: JAGaa23885 )
Support for new V2500SN systems
V2500 box will boot and run :-)
( SR: 4701407890 DTS: JAGaa23080 )
Unexpected Disconnect Messages when using pass through
driver
( SR: 4701407874 DTS: JAGaa22054 )
The customer will see a "rmfree: overlap" panic.
( SR: 4701409144 DTS: JAGaa13632 )
( SR: 4701409151 DTS: JAGaa13670 )
Added support for PCX-W CPU (cpu id 0x11)
( SR: 4701400226 DTS: JAGaa14591 )
ULTRA scsi devices hang.
( SR: 4701398198 DTS: JAGaa13825 )
slow performance and high tlb miss rate on Java related
applications
( SR: 4701409516 DTS: JAGaa12601 )
Under heavy I/O, after the buffer cache allocation has
reached its system defined maximum, the system
eventually hangs when all I/O processes sleep on
waiting for buffer cache in getnewbuf_desperate().
( SR: 4701409508 DTS: JAGaa44475 )
Problem debugging panics because q4 is not able to
understand some structures in kernel headers.
( SR: 4701400721 DTS: JAGaa12195 )
( SR: 4701400713 DTS: JAGaa14168 )
( SR: 4701400705 DTS: JAGaa11280 )
- wait(2) on a traced process acts differently on HP-UX
10.01 & 11.00.
- Doing a TT_LWP_SINGLE on a thread with a pending
signal does a continue instead.
- ttrace(2) and vfork(2) combo crashes the machine
( SR: 4701405803 DTS: JAGaa22038 )
Data corruption and an eventual system panic can occur
when a user makes a large number (over 60,000) of
mprotect() calls on an mmapped region. The data
corruption can also occur (very low chance) when
processes perform overlapping mmap() of different
portions of a file many times.
( SR: 1653258434 DTS: JAGaa05991 )
Get bus error STDBYS,B,M instruction on PA-RISC 2.0
systems
( SR: 4701409607 DTS: JAGaa43605 )
System panics with message Spinlock held too long.
Stack trace:
check_held_time+0x42c
spinlock_delete+0x50
su_pre_check+0x144
c720_if_start+0x11c
scsi_start_bus_locked+0x5bc
scsi_start+0xd0
scsi_strategy_real+0x474
pa_ioforw_int+0x124
mp_ext_interrupt+0x384
ivti_patch_to_nop3+0x0
spinunlock+0x48
b_cpsema+0x16c
alloc_from_chunk+0xd0
allocpfd_from_pond+0x184
allocate_page+0x184
kalloc_super_page+0xc4
kalloc_from_superpage+0x1b4
kmalloc+0x844
bt_init+0xd0
growvfd+0x8c
growreg+0x124
mmap_anon_object+0xd4
smmap_common+0x3cc
smmap+0x28c
syscall+0x568
$syscallrtn+0x
( SR: 4701414250 DTS: JAGaa46625 )
The system can panic with due to spinlock held too long.
Stack trace of event 0:
stack trace for event 0
crash event was a panic
panic+0x14
too_much_time+0x2dc
wait_for_lock+0x120
sl_retry+0x18
lan3_hw_req+0x4c
lanc_watch+0x60
lan_slow_timer+0x58
invoke_callouts_for_self+0xac
sw_service+0x8c
mp_ext_interrupt+0xf0
ivti_patch_to_nop3+0x0
idle+0x45c
swidle_exit+0x0
PHKL_17458:
( SR: 4701398909 DTS: JAGaa12892 )
After a write() system call, active mmap()'s with
MAP_PRIVATE and read-only (PROT_READ) do not see the changes
made by the write() system call. The same is true for
mmap() mappings. This is a known limitation with HP-UX as
the mmap() cache and write() cache are not unified.
( SR: 4701392936 DTS: JAGaa12688 )
When a single-bit memory error is detected by the hardware
(V22xx systems only), the current software implementation
causes an interrupt to be generated, which causes HP-UX to
write detailed failure information into the
/var/adm/syslog/syslog.log file on the system. Since
failing pages are not deallocated without this patch, a
single-bit memory error at a given address can occur
multiple times, resulting in multiple error entries in the
/var/adm/syslog/syslog.log file. It is recommended that all
V2200 and V2250 customers load this patch.
PHKL_17391:
Oracle processes accessing a shared memory segment hang.
It is found that the processes are blocked by memory
pages with incorrect protection ID. This happens after
singer bit errors are detected by the diagnostics
daemon "memlogd".
PHKL_17390:
( SR: 5003431411 DTS: JAGaa21195 )
If you use java you may experience incorrect program
behavior -- possible program aborts, hangs, etc. If you use
the pthreads asynchronous cancellation feature, you should
also install patch PHKL_17294.
( SR: 5003442384 DTS: JAGaa43497 )
Oracle database stops with error number 7404. The dbwriters
are blocked on HFS inodes. This problem has only been found
to occur on HFS filesystems.
( SR: 1653282350 DTS: JAGaa42932 )
Slow performance on 11.00 on HFS file systems due to DNLC
performance scalability issues. Decreasing the size of the
DNLC improves performance.
( SR: 5003446427 DTS: JAGaa45802 )
Panic trap 15 in bwrite() under heavy disk I/O stress.
( SR: 4701400671 DTS: JAGaa10114 )
In Java test suite(Just in time compiler), an
instruction causing the exception cannot be emulated as
the contents of the registers have been changed.
So,Java compiler will fail.
PHKL_17205:
This is a performance enhancement to improve MP scaling
in the JFS inode cache. The customer visible symption
is that on a NFS server workload, the throughput may
not scale with larger number of processors. Meets the
Mid-1998 LADDIS benchmark disclosure.
PHKL_17091:
( SR: 1653265975 DTS: JAGaa12583 )
If a tape device is reset either by power cycling or by the
system and the device is open for writing, the device driver
does not report an error. Instead, the device will rewind
the tape because of the reset, the driver will automatically
retry the I/O, writing (or overwriting) data from the
beginning of the tape, with no indication of the problem.
( SR: 1653280479 DTS: JAGaa42348 )
The gang scheduling of multi-threaded applications allows
users to significantly improve the performance of their jobs
that run on a subset of processors.
In an environment that uses different priorities for the
jobs, over-subscription becomes a problem: A
single-threaded job of high priority is able to reduce the
CPU usage of all running multi-threaded jobs. The
expectation is that the single-threaded job reduces in
average the CPU usage of one gang independently from the
priority of the single-threaded job.
( SR: 4701410092 DTS: JAGaa44973 )
Enhancement: Add STK 9840 drive to drives recognized by
driver.
( SR: 4701410100 DTS: JAGaa44975 )
Enhancement: Enable tape device sharing using the SCSI
Reserve and Release commands. Added new MTRES and MTREL
ioctl commands to reserve and release devices manually.
( SR: 4701410118 DTS: JAGaa44976 )
Enhancement: Return EIO instead of ENXIO after device
reset.
( SR: 4701410290 DTS: JAGaa44977 )
Enhancement: Add support for SD-3 and 9490 device
densities.
( SR: 4701410308 DTS: JAGaa44979 )
An earlier implementation of tape sharing had a problem when
an open of a tape device failed. The driver would reserve
the device, but if the open failed the driver would not
release the device.
( SR: 4701410316 DTS: JAGaa44980 )
In a rare case on a multi-processor system when two
processors where both accessing tapes and both were in the
same routine in the driver, a log table could be overrun
causing data corruption or system panic.
PHKL_16876:
Patch PHKL_16182 introduced the following problems:
1) A problem with the pstat() system call that may cause
the fuser(1M) command to not report open device files.
In an MC/ServiceGuard environment, this may result in
packages such as Oracle and SAP not being properly
halted and the package switch may fail.
3) A system panic on PA8x00-based systems. The reported
panic message is "findentry(): idx beyond region size".
4) The coherency fix between mmap() and write() accesses
addressed by PHKL_16182 failed in certain cases. As
a result, applications relying on the coherency mixing
mmap() and write() could see incoherent data.
Patch PHKL_12965 eliminated a mechanism which checks to see
if a spinlock was held too long. Prior to this, when a
spinlock was held too long, the system would panic. After
this change, the system hangs for a period of time. This
new behavior adversely impacts MC/ServiceGuard clusters by
preventing the affected node from rebooting and returning to
the cluster. This change may also result in data
corruption; if the hung node returns, we may see two
instances of the application running on two nodes in the
cluster.
PHKL_16876 fixes all of these problems.
PHKL_16840:
System hang after doing setrlimit(RLIMIT_NOFILE) call
PHKL_16749:
( SR: 4701404475 DTS: JAGaa26503 )
( SR: DTS: JAGaa23934 )
( SR: 4701404475 DTS: JAGaa40895 )
System panic: kernel data page fault
while running an application using the MPI (Messaging
Passing Interface) library.
PHKL_16819:
( SR: 5003387404 DTS: JAGaa00919 )
VxFS (JFS) can not update an extended inode for an existing
file when the filesystem is completely full.
Large file support doesn't allow DMAPI invisible writes.
( SR: 1653268177 DTS: JAGaa13271 )
A VxFS fsync() may not return an error even if a write
had failed.
( SR: 4701406140 DTS: JAGaa42463 )
Each time an event token is created on 11.00 DMAPI
after its event has been posted and the token is deleted,
a defunct process will be created.
A DMAPI application that creates many event tokens
can fill the process table.
( SR: 4701406157 DTS: JAGaa42467 )
DMAPI applications that use KDM_IOC_PUNCHHOLE
will find that the inode of the file that they are punching
a hole in, gets its size reduced by the amount punched.
This is incorrect. The size should not be changed.
PHKL_16236:
( SR: 5003360446 DTS: JAGaa11944 )
SCHED_TIMESHARE thread priorities degrade over time and
cpu usage. SCHED_NOAGE provides a scheduling policy where
the priority does not degrade.
( SR: 1653266270 DTS: JAGaa12536 )
32-bit processes not allowed greater than 1 Gb shared
memory segment.
( SR: 5003425447 DTS: JAGaa12727 )
The X Server may core dump when the X Server migrates off
the monarch processor.
PHKL_16260:
System performance degrades when kernel spinlock contention
occurs due to unnecessary bus traffic generated by the
spinlock code.
PHKL_16318:
( SR: 5003426437 DTS: JAGaa13193 )
After installing PHKL_15622 on a V-class machine, there
have been a number of failure modes when using all
debuggers e.g XDB,DDE,ADB,WDB
The process being debugged receives a SIGSEGV when run
under any debugger.
( SR: 4701394171 DTS: JAGaa13745 )
Data Page Fault from sample() when accessing a corrupt
mpinfo->prochpa value on 11.00 (64bit) V-class 4-way.
( SR: 1653269258 DTS: JAGaa13619 )
System panic with message "panic: virtual_fault :DBD_NONE
page" when a process tries to execute with no MLOCK
privileges.
( SR: 5003428359 DTS: JAGaa22800 )
System panic with message "data page fault :scsi_start()"
PHKL_16182:
- No MP scaling on send/recv when using threads.
- LP64 kernels much slower than ILP32 kernels in benchmark
results.
- A call to open(2) a file with O_SYNC and O_APPEND does
not update the offset properly prior o each write as
specified.
- The X Server may core dump when the X Server migrates off
the monarch processor.
- After a write() system call, an active mmap() with
MAP_PRIVATE PROT_READ does not see the updates made by
the write() system call. The same is true for MAP_SHARED
mappings.
- sched_yield() system call may not put a calling FIFO
the end of its run queue as required by the standard.
If the calling thread is preempted, then it may
incorrectly put the thread at the front of the run
queue causing incorrect scheduling of threads.
- pstat(2) child-rusage enhancement.
PHKL_16135:
Large memory loss when async driver is used.
PHKL_15705:
(64-bit WS support)
This patch adds 64-bit support for workstation systems that
are capable of running a 64-bit operating system. These
systems are the C160, C180, C200, C240, J280, J282 and
J2240. For full 64-bit workstation support, you must also
load patches PHKL_15480, PHKL_15485, PHKL_15487, and
PHKL_15488.
( SR: 4701392647 DTS: DSDe443317 )
The performance for wide stripes can not be tuned. This
patch gives the system administrator the ability to tune the
read ahead parameters, thus optimizing read performance.
( SR: 4701392639 DTS: DSDe443316 )
The epic drivers continue to process transactions after a
panic occurs. This patch forces epic drivers to stop
processing all transactions when a panic is detected within
the epic subsystem. This will allow for a complete analysis
of data that may be causing the panic.
( SR: DTS: DSDe443271 )
An extra unlock in dnlc_purge1() can cause a number of
system failures, including system panics. One symptom
noted is that critical section code (within a spinlock-
protected region) can start taking interrupts and possibly
trigger a recovery_count trap and resulting panic.
( SR: DTS: JAGaa06012 )
adb hangs while accessing /dev/mem or /dev/kmem and is not
killable.
( SR: DTS: JAGaa08247 )
64 bit applications that have a lot of shared memory
segments will show a performance degradation. The symptom
can be seen with a profile of the system, with a lot of time
being spent in the routine update_fast_protid_list. This
patch improves the performance of protection id faults for
64 bit applications.
( SR: DTS: JAGaa12461 )
The km_disable parameter needs to be tunable by the user to
meet the LADDIS/TPC-C disclosure. Disk statistics need to
be settable by the user in order for customers to be able to
duplicate performance numbers disclosed by HP for LADDIS and
TPC-C. This patch makes the km_disable variable settable by
the user via adb.
( SR: 4701386680 DTS: DSDe441878 )
The SCSI c720 bus reset with the following console message:
SCSI: Unhandled pending interrupt on open -- lbolt:....
( SR: DTS: DSDe427541 )
( SR: DTS: JAGaa10155 )
Possible memory corruption due to multiple processes
thinking they own the same page.
PHKL_15508:
The patch PHKL_14769 exposes another code path (defect)
which shows the following symptoms:
lockf() call returns error "EACCES" even if the file does
not exist.
PHKL_14769:
A user application that invokes a "syscall" in the exit
path causes the system to panic with a "data page fault".
The stack trace of this program will look like:
> trap+0xe90
> $call_trap+0x28
> adjust_flock+0x30
> local_lockctl+0x98
> vno_lockrelease+0x174
> closef+0x24
> exit+0x1018
> psig+0x224
> trap+0x16d4
> $call_trap+0x28
PHKL_15325:
'reboot -h' does not halt the system.
ulimit(2) gives a max of 2GB for 64bit processess - this is
incorrect.
PHKL_15050:
This patch fixes 2 defects:
1. VM system panic error "Returning space id which is
already freed"can occur under the following conditions:
-- Running executables via NFS mount
-- page_text_to_local tunable or executable sticky
bit is set.
2. VM system panic with error " Data page fault" can occur
under the following conditions:
-- Running executables via NFS mount
-- Large Pages are being used for the executable text
-- page_text_to_local tunable or executable sticky bit
is set.
PHKL_14805:
( SR: 4701387928 DTS: DSDe441942 )
32bit user applications calling pthread_create() on 64 bit
kernels fail with either EPERM or EFAULT.
( SR: 4701387910 DTS: DSDe441830 )
32bit user applications calling pthread_*() or lwp_*() on 64
bit kernels receives SIGSEGV or SIGILL.
PHKL_12965:
Enhancement to enable CXPerf access to tlb miss data and to
enable 7200 chip set support.
Enhancement to add core kgdb kernel debugging support to
HP-UX. This patch will allow kgdb to be used on V-Class
ONLY.
Enhancement to HP Process Resource Management (PRM) to allow
CPU Capping for resource groups.
PHKL_14292:
The current scheduler will let both the high and low
priority processes run interleaved. The problem exists for
all the types of scheduling policies (e.g. SCHED_RTPRIO,
SCHED_FIFO, SCHED_RR, etc).
PHKL_14088:
( SR: 4701383802 DTS: DSDe441753 )
Data page fault panic in syscall(), with a stack trace
similar to:
crash event was a panic
panic+0x14
report_trap_or_int_and_panic+0x7c
trap+0xe90
$RDB_trap_patch+0x28
ki_accum_pop_TOS_sys+0x58
syscall+0xa5c
$syscallrtn+0x0
( SR: 4701379693 DTS: DSDe441224 )
Data mover hardware on V-class not enabled.
( SR: 4701379677 DTS: DSDe441226 )
Cannot use CXpa on HP-UX.
( SR: 4701379669 DTS: DSDe441227 )
MPI and multi-threaded applications cannot be gang
scheduled for optimum performance.
( SR: 4701379651 DTS: DSDe441228 )
Unable to do process to process bcopies in MPI.
PHKL_14045:
ECC errors in dmsg log have incorrect node and row.
The error message is:
"EMAC Error Address = 0x00014D0330018D10
-> MemRef: VI 0x14d, Node 0x1, Row 2, VR 3, VB 0"
The Node should be 0 and the Row should be 6.
PHKL_13328:
Systems running Allbase database experienced data
page fault panics:
trap type 15, pcsq.pcoq = 0.2956c4, isr.ior = 0.14
panic: (display==0xbd00, flags==0x0) Data page fault
Kernel stack trace:
panic+0x10
report_trap_or_int_and_panic+0xe8
trap+0xf84
$RDB_trap_patch+0x20
proc_close+0x304
syscall+0x1a4
$syscallrtn+0x0
PHKL_13644:
Under extremely unlikely circumstances, a multiprocessor
system can panic with a data page fault during a wait(2)
or waitpid(2) system call.
PHKL_13673:
On older workstations using 53C700 chip running at 37.5 MHz
or less, the HP-UX panic during the boot up because of the
"I/O system hang".
PHKL_13676:
When badalignment() is called to examine an indexed
instruction, and that instruction is double word aligned, a
SIGBUS is received and the process core dumps.
PHKL_14034:
Slow performance with high system time on PA2.0 and
PA1.1 systems. The system slows down under user
applications with lots of shared memory segments
(like Informix database which uses lots of shared
memory segments).
PHKL_13646:
Slow performance with high system time on PA2.0 and
PA1.1 systems. The system slows down under user
applications with lots of shared memory segments
(like Informix database which uses lots of shared
memory segments).
PHKL_13810:
32 bit applications are unable to run simultaneously
because the total requirement for shared resources, such as
shared memory, exceeds the system maximum of 1.75
gigabytes. HP-UX has a system wide limitation of 1.75
gigabytes of shared resources for SHARED_MAGIC executables,
2.75 gigabytes if applications are compiled as SHMEM_MAGIC.
Applications cannot coexist at the same time if their
shared resource requirements combine to exceed the system
maximum.
This patch provides the system infrastructure to support
memory windows. The runtime commands to use memory windows
are found in patch PHCO_13811.
PHKL_13052:
The pst_dynamic structure returned by pstat_getdynamic()
contains arrays with per-processor information. Since the
size of these arrays is hard-coded, pstat_getdynamic() can
only provide information about a fixed number of processors.
PHKL_13193:
(SR: 4701374272 DTS: DSDe440457 )
The following panic occurs:
panic:hdl_alloc_spaceid: spacemap exhausted
This defect will only occur on very large, heavily loaded
systems.
PHKL_13278:
User programs are unable to exceed HP-UX stack maximums.
For a 32-bit process the maximum is approximately 80
megabytes and for a 64 bit process the maximum is 1
gigabyte.
PHKL_14070:
When a system is booted with Fibre Channel cards
connected to the system this problem can occur.
In order for this to occur, the fibre channel cards
cannot be connected to devices until after the system
boots up. Then, run ioscan -f, and the system will panic
with a data page fault.
PHKL_13858:
SIOC_GET_BUS_PARMS ioctl results in a panic
PHKL_13552:
The new features in PHKL_13552 are only supported for
V-Class 64-bit systems. Non-V-Class systems can install
PHKL_13552 with no impact to those systems.
( SR: 4701376202 DTS: SILre01451 )
Only compression device files are created by default for
'stape' tape devices. Some customers require uncompressed
modes, and desire additional device files created by
default for non-compression.
( SR: 4701376061 DTS: SILre01449 )
Need stape support for Fuji2481/2483/2488, Exabyte 8505XL
and IBM 3590 tape drives.
( SR: 4701376053 DTS: SILre01450 )
The ioctl MTIOCGET field 'dsreg1' never shows useful
status after a tape error like 'Medium Error'. It would
be useful to show the last SCSI ASC/ASCQ codes, not always
Illegal Request codes.
( SR: 4701376210 DTS: SILre01453 )
Certain drives like the HP1537 DDS3 or the Fujitsu 2488
leave the EOT status bit on in the MTIOCGET ioctl after
backward motion from EOT. This status bit should be
turned off.
( SR: 4701376079 DTS: SILre01197 )
SIOC_GET_BLOCK_LIMITS would report 256K as max block
size but allow larger records to be written where the
underlying I/O subsystem would break those records into
logical tape records of 256K chunks. This leads to
cross-platform incompatibility when moving tapes to/from
HP-UX machines.
( SR: 4701376087 DTS: SILre01196 )
Need large record support (>256K) for compatibility with
other vendor tape systems. The SCSI tape limit is at
16M-1, but HP-UX only supports 256K records. Large than
256K records are silently broken into smaller 256K chunks.
( SR: 4701376277 DTS: SILre01452 )
When reading a record from tape where the size specified
is smaller than the actual tape record, no error occurs to
signal this event. A user would have to call MTIOCGET
ioctl for every read() system call and check the resid
field. This is a performance inhibitor, and an option is
needed to allow detection of data overruns on read.
PHKL_13081:
On a highly stressed system (IO), a customer can see the
following panic message "Global error on Epic 5" and
" Error Info: 8015...." which equate to a PCI arbitration
timeout on the EPIC card (V-Class PCI bus converter).
PHKL_14536:
A reboot -h (or shutdown -h) on a T600 system with greater
than 4 Gb memory and running a 64 bit kernel will panic,
which results in an HPMC.
PHKL_14174:
C++ could not compile large file applications properly
because certain prototype definitions were not properly
set up for C++.
PHKL_14703:
Customers will see that the process load average is really
unbalanced, with a high load on the monarch, CPU 0, and
a much lighter load on the remaining CPUs.
PHKL_15721:
An 'nfsd' process may hang on the system. If a system dump
is taken, the 'nfsd' process will be hanging in the
vx_vn_bread() function.
PHKL_15554:
Optimization helps eliminate excess I-cache pre-fetch which
reduces performance.
PHKL_14748:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_14135:
Data page fault panic occurs when ftp'ing sparse
files from a VxFS file system.
PHKL_14111:
Reduced performance on FS-related benchmarks.
PHKL_13343:
In a mixed hfs/vxfs environment, the system panicked with a
dirty invalid buffer which was associated with an hfs fs
that has since been unmounted. The typical stack trace
of the panic looks like the following:
panic+0x14
brelse+0x1ec
getnewbuf+0x6b0
ogetblk+0x104
getblk1+0x258
vx_getblk+0x5c
PHKL_16794:
Process hangs when munmap() is run against a very large
file.
PHKL_16313:
Processes will hang in wait_for_io().
PHKL_16274:
Without this patch HP-UX 11.00 will not support pc floppy
on 64 bit systems. The previous patch only supported
the pc floppy on 32 bit systems. Attempts to configure
the floppy driver (pflop) into a 64 bit kernel would
result in a failure to build the kernel.
PHKL_15487:
Without this patch HP-UX 11.00 will not support pc floppy.
Attempts to configure the floppy driver (pflop) into the
kernel would result in either a failure to build the
kernel or a system panic or hang during system boot.
PHKL_16144:
Systems with PHKL_15719 may cause some applications to
SIGSEGV.
PHKL_15719:
mmap64() and ptrace64() do not work as advertised in the
HP-UX system call tree. The 8th argument is corrupt.
PHKL_15910:
Re-cut PHKL_15674 with new optimization
PHKL_15674:
Panic in vx_reassignbuf_locked. The stack trace may look
something like:
panic+0x14
report_trap_or_int_and_panic+0x7c
trap+0xd68
$RDB_trap_patch+0x28
vx_reassignbuf_locked+0x24
vx_vnode_flush+0x1a0
vx_do_putpage+0xa4
vx_inactive_tran+0x350
vx_inactive_list+0x25c
vx_inactive_thread+0x4c
kthread_daemon_startup+0x24
kthread_daemon_startup+0x0
PHKL_14745:
This patch improves performance for large sequential
writes to files in a VxFS file system. It also improves
scaling by eliminating lock acquisition when VxFS
files go inactive.
PHKL_13574:
System seems to "hang" for 2-10 seconds intermittently
during heavy filesystem I/O. from dts:
"The problem seems to be easily reproduced on the
customer's system using a simple "cp" command to write
large files into a vxfs filesystem on their EMC
Symmetrix disks. During the copy, real-time memory
locked monitoring processes do not run for several
seconds. The side effects first noticed are bad
interactive system behavior, but the more severe impact
is HA products triggering warnings or false-failover
situations. Most severe are the occasional 10-11
second hangs which result in FDDI going off-ring and
requiring a re-initialization."
PHKL_13200:
a.) Data page fault while processing extended operations.
The stack trace should contain vx_doextop_now().
b.) Data page fault in vx_iupdat(). The stack trace
should look like:
panic+0x24
vx_iupdat+0xfc
vx_tflush_inode+0x134
vx_fsq_flush+0x438
vx_tranflush+0xdc
vx_fsetupdate+0x120
vx_sync1+0x148
vx_sync0+0xac
vx_walk_aglist+0x194
vx_sync+0x198
c.) Hang in vx_do_putpage() if the caller is
invalidating a buffer while doing direct I/O.
PHKL_15770:
Systems run under stress, with diags that created single bit
memory errors, caused the LPMC code to create multiple
duplicate LPMC log entries of the errors.
PHKL_14046:
On non V-Class multi-processor systems performance will
decrease due to unnecessary locking during TLB pruges.
PHKL_14047:
A hpmc is generated when the system has an icache parity
error.
PHKL_15555:
Optimization helps eliminate excess I-cache pre-fetch which
reduces performance.
PHKL_15553:
Optimization helps eliminate excess I-cache pre-fetch which
reduces performance.
PHKL_15480:
This patch disables EISA and HIL hardware on 64-bit systems.
EISA and HIL functionality is not supported by the 64-bit
kernel.
PHKL_14551:
We do an io_query for "registers" on a Core I/O Adapter
with Hversion 0x2E and the OS hangs. When we do the same
calls on other Core I/O Adapters (hversion 0x30) it works.
D200, D210 and D310 systems sometimes hang or panic when
diagnostics are run.
Panic on boot whenever an external HP-PB card cage was
attached to a HSC to HP-PB converter in K Class systems.
PHKL_14069:
Allows attaching an external HP-PB card cage to a HSC to
HP-PB converter in a K Class system.
PHKL_14764:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_13387:
Currently, vx_attr_direct structure is only being used in
OmniStore. OmniStore makes extensive use of extended
attributes via DMAPI interface and most of those attributes
are direct. the struct vx_attr_direct should keep ad_len
as a 32bit unsigned type, in order to keep the backward
compatibility with the 10.20/10.10./10.01 releases'
disklayout.
Since we are doing the patch, we will define a new
structure rather than changing vx_indoe.h
This patch need to be applied with the command patch:
(PHCO_13411)
Failure to do this (ie. applying one without the other),
will lead to fsck failure or fsck corrupting the filesystem.
PHKL_14747:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_14063:
System hang caused by someone going through the buffer pool
to flush out dirty buffers. The buffer is marked dirty but
also marked busy,and the process or thread decide to wait
for it.
PHKL_13201:
A data page fault panic in vx_olt_ilistadd().
PHKL_17524:
This patch is a reissue of PHKL_16639. The only difference
is in the packaging of the patch: the "critical" category
tag was set, as PHKL_16639 fixed a HANG. This tag is used
to help select patches for installation on a system. If
you have already installed PHKL_16639, you do not need to
install this patch; there is no difference in content.
PHKL_16639:
Application hangs intermittently due to process deactivation
and reactivation.
PHKL_17046:
disc3/disc30/sdisk cumulative patch
PHKL_16952:
I/O failover hang on fiber channel PV_link.
PHKL_15641:
An attempt to overwrite an already written block on a WORM
driver should return an EIO error, but did not.
PHKL_15476:
Model 30/FC disk arrays have been returning an increased
number of consecutive Select Timeout errors, leading to, in
some cases, a perceived data corruption. This change
provides a workaround for the problem by increasing the
retry count for all Model 30/FC disk devices to 45.
PHKL_14729:
Excessive SCSI timeouts on MO drives.
PHKL_14456:
DIOC_EXCLUSIVE ioctl on HP-PB fails with 'device busy'
error.
PHKL_13505:
On a busy system, the disc3 driver may run into a Data Page
Fault panic in the routine d3llioerr().
PHKL_13023:
When transfering data from hard disk to floppy disk,
data will be found missing in the floppy. This is due to
incorrect alignment of 512 Block size raw i/o.
PHKL_18123:
SR: 5003457333 DTS: JAGab00096
System panics with data page fault. The stack trace
shows:
report_trap_or_int_and_panic+0x80
trap+0xe08
nokgdb+0x8
pa_pass_thru+0x3d0
cdio_command+0x80
cdio_command+0xc0
io_query+0x208
do_io_query+0x104
dev_config_ioctl+0x24
spec_ioctl+0xac
vno_ioctl+0x90
ioctl+0x164
syscall+0x5cc
$syscallrtn+0x0
The panic is seen on K-class machines when diagnostics
is run on SCSI disks connected to the c720 claimed GSC
built-in Fast/Wide SCSI Interface.
PHKL_16875:
Systems using HSC FDDI card will HPMC under simultaneous
heavy network traffic and IO scans.
PHKL_15551:
Optimization helps eliminate excess I-cache pre-fetch which
reduces performance.
PHKL_14768:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_14554:
HSC100BT cards fail to boot due to DMA timeouts.
PHKL_13794:
HSC FDDI GSCtoPCI card/driver fails to be recognized by
T600 systems.
PHKL_13045:
Performance with multiple GSCtoPCI cards on a system with
multiple CPUs is degraded with respect to past releases.
This was initially measured using 4 HSC 100BT cards on 4
CPU system.
PHKL_13870:
PCI port I/O does not work properly, and machine may
possibly panic.
PHKL_14532:
1: ioscan takes over 3 minutes & reports incorrect
configuration.
2: HSC 100BT comes up with "DAM" timeout; lookback fails.
3: I/O system hang, panic on boot w/HSC SCSI resets.
4: Can't use HP-PB FDDI on T600.
PHKL_17700:
( SR: 4701408062 DTS: JAGaa43547 )
The PCI information module under the Support Tools Manager
(STM) will exit with Incomplete status.
PHKL_17040:
( SR: 4701402396 DTS: JAGaa22375 )
Not able to run PCI Info tool of STM successfully on 11.00.
PHKL_17039:
Bug fix; support 64 bit registers on V2500
PHKL_15622:
Large portions of memory (varies depending on number of PCI
cards and their base address register sizes, but can be of
the order of a couple hundred Mb or more) are allocated to
kernel during boot. System may fail to boot with "panic:
IO hang". If system boots, amount of memory assigned to
"lockable memory" is much higher than expected and amount of
"available memory" is much lower than expected. All of
these symptoms occur on 64 bit systems only.
PHKL_15084:
If PCI cards requiring more than 32 MB of memory mapped I/O
are installed on a V-class system, upon subsequent system
initialization (or reboot) the kernel will panic.
PHKL_15510:
Some large modules fail to load with the following
error message:
"Overrun of module DLT or long branch stub table
for module."
PHKL_15488:
System will panic only if 64 bit Visualize EG/FX is
enabled.
PHKL_14751:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_14606:
The system will hang in the ATM driver during boot. This
patch provides an enhancement only used by the ATM driver.
It has no impact on a system when the ATM driver is not
present.
PHKL_15485:
VISUALIZE-FX graphics were unsupported in HP-UX 11.0.
PHKL_14806:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_13219:
The only reliable resolution available for the HPA3519A
graphics card is monitor type 1 (1280x1024 75Hz VESA).
Running a 64 Bit 11.00 kernel at any other monitor type
can result in incorrect X windows behavior, system panics,
or graphics console hangs.
The monitor type can be seen and modified at the Firmware
Boot Console prompt before the kernel is booted.
This problem does not exist on the 32 bit 11.00 kernel.
This patch will allow the use of all available monitor
types.
PHKL_14767:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_13551:
File system corruption, data loss, system panic.
PHKL_14749:
The previous patch has been recut to include compile-based
performance tuning. There is no functional change in this
patch.
PHKL_14464:
Systems with advanced JFS and low memory will panic with
message "Interrupt Type 17 (Non-accessed data TLB miss)"
while trying to access a page with space id of -1.
This happens on systems with very low memory ONLY while
an application tries to read/write large amounts of data
using direct I/O instead of regular I/O.
PHKL_14426:
PDC on 64-bit systems cannot handle buffers that are located
in memory above 3.75GB. On heavily loaded systems, diag2
can get space above 3.75GB from eqalloc, which is passed
to PDC. PDC then zeros-out the top 32-bits of the address
and posts the data.
Defect Description:
PHKL_18543:
( SR: 4701422360 DTS: JAGaa45754 )
This patch disables the 16 cycle PCI timeout on V2200/V2250.
This is needed to run PCI ATM cards on V2200/V2250. Product
numbers are: A5513A, A5515A, and A5483A.
Resolution:
Disable 16 cycle PCI timeout on V2200/V2250.
( SR: 4701398008 DTS: JAGaa13703 )
The Central Bus CDIO replaces the PA-CDIO and is
a generic framework that can work on any architecture.
Platform differences are now isolated in separate
software modules called Platform Support Modules or PSMs.
This patch implements the Central Bus CDIO - PSM framework.
( SR: 4701423376 DTS: JAGaa94740 )
The system is supposed to wait 10 seconds for user input.
The calculation used to convert 10 seconds to the number of
clock cycles to wait is performed using 32 bit arithmetic.
The result is converted to 64 bit. A 10 second wait for a
processor running at 440MHz overflows the 32 bit value
before it is converted to 64 bit, resulting in a 17
millisecond wait.
Resolution:
Convert to 64 bit before doing the clock cycle calculation.
( SR: 4701415208 DTS: JAGaa67828 )
This feature will provide N-Class hardware specific
information that will assist support and/or the customer in
troubleshooting the system.
Resolution:
Adding new structures to handle chassis log & Processor
Dependent Code (PDC) Processor Allocation Table (PAT)
events.
( SR: 4701414037 DTS: JAGaa45889 )
Vfs code should check for NULL address value before
de-referencing pointer.
Resolution:
Vfs code now checks for NULL address value before
de-referencing pointer.
( SR: 4701424473 DTS: JAGab03746 )
System was not handling a hardware error correctly,
resulting in a panic with data page fault.
Resolution:
Fix the kernel to handle this hardware error correctly.
( SR: 4701423772 DTS: JAGab11098 )
Race condition in multi-threaded processes between waking
and stopping a sleeping thread results in kernel panic when
a sleeping thread is made runnable.
Resolution:
Change pm_setrun() to detect if a thread is no longer in
state TSLEEP after a call to unsleep() [which drops locks]
and not force it to state TSRUN.
( SR: 4701427583 DTS: JAGab11351 )
Simultaneous access to files on a file system with the
unmounting of that file system will occasionally result in
the corruption of a 32-byte piece of memory already returned
to the free pool.
Resolution:
The structure which used to be dynamically allocated and
deallocated as file systems were mounted and unmounted will
be permanently allocated.
( SR: 4701427591 DTS: JAGab15390 )
The system hangs during a panic, in the update() routine.
The panic process goes to sleep waiting for a shared
resource to be released. Process Scheduling is turned off
in the panic path, so the resource is never relinquished and
panic "hangs".
Resolution:
Use a timer while calling update(). If we get into
situation described above, we time out and take a secondary
panic. This way we preserve the primary panic (that needs
to be fixed) and still get a system crash dump for analysis.
( SR: 4701428359 DTS: JAGab15978 )
Early during kernel initialization, the code buffers for
IODC are allocated. There is one buffer for console IODC
and one buffer for disk IODC. The size for these buffers
is determined from the current console and boot devices.
When any one of the dump devices uses a different version
of IODC, the size allocated for the disk buffer no longer
matches. If the code for the dump device is larger, kernel
memory is overwritten. One of the tables that is usually
very close to the end of the disk IODC buffer is crucial to
the dump process. When it is overwritten, dump no longer
functions.
Resolution:
The fix is to always allocate the architected maximum size
for the disk IODC buffer. This insures there is always
enough room for any IODC required for dumping to disks.
( SR: 4701418582 DTS: JAGaa47047 )
While splitting a large I/O request into a chained list of
buffers of smaller size, the user space destination/source
of the read/write becomes un-mapped from the thread's
address space. This causes a -1 to be returned for the
address space. A subsequent routine uses the -1 as an
address without first checking its validity, and the system
panics.
Resolution:
The routine that panics on the '-1' address has been
modified to check the thread's user address space, and
handle the -1 value properly.
( SR: 4701423624 DTS: JAGab07301 )
The kernel memory allocation routines used a 32 bit value
instead of a 64 bit value. Also, during early memory
initialization, memory accounting was incorrect.
Resolution:
Use 64 bit value and correctly account for memory in all
memory maps.
( SR: 4701414839 DTS: JAGaa62624 )
Values for bit shifting greater than 32 can be received in
the IOVR_ALLOC_CONTIGOUS macro that will cause the ccio_map
function to hang in an infinite loop.
Resolution:
A check for values greater than 32 to suspend the
appropriate while loop in IOVR_ALLOC_CONTIGOUS corrects the
defect.
( SR: 4701415968 DTS: JAGaa40688 )
The interrupt stack overflow is being caused by recursive
calls to scsi_start(). When an IO returns with a select
timeout (due to a powerfail event), it is passed up. The
code then calls scsi_start() to find IO's that are ready to
start. When the EMC array has a large number of luns, the
stack overflows.
Resolution:
Code has been added to detect and prevent recursive calls
to scsi_start().
( SR: 4701422378 DTS: JAGaa94628 )
The problem is an inode locking issue introduced in patch
PHKL_17205. An inode was being reused when there were still
existing holds on the vnode.
Resolution:
The vnode is now checked before the inode is reused.
( SR: 4701420513 DTS: JAGaa73203 )
Setting MAXUSERS to 8192 increases the proc and kthread
tables beyond their 30K limits. This results in entry
indices being beyond their limits, and hangs the system.
Resolution:
When initializing the proc and kthread tables, cap the
size limit at 0x7fff entries.
( SR: 5003441675 DTS: JAGaa40673 )
The select path uses the single global spinlock sched_lock
for its protection. This causes serious scaling problems
with lots of threads issuing select calls, especially the
calls that are issued with no file descriptors and a small
timeout value.
Resolution:
The fix is to introduce a new routine, and call this routine
instead of select when the user has specified no file
descriptors to select on. This routine does not use the
sched_lock and reduces contention on sched_lock thereby
improving performance for applications using select as a
fast sleep/wakeup mechanism.
( SR: 4701422204 DTS: JAGaa40707 )
11.00 was the first release to support large pages for
applications without having to lock their text or data.
Applications experiencing performance problems as a result
of TLB thrashing could use large pages to reduce and in some
cases eliminate TLB miss handling.
Systems running for long periods of time have a tendency
to fragment memory from larger page sizes to smaller ones.
Applications benefiting from the larger sizes suddenly find
themselves using smaller pages. Depending on the page size
and how much the application benefited from larger pages,
the application's performance could be reduced to that when
a 4K page size is used.
If memory fragmentation occurs, the performance of the
application continues to degrade the longer the system
remains up and only smaller pages are present.
Resolution:
1. When removing a page from the page cache, if the page is
free, coalesce it with other uncached pages into larger
page sizes.
2. When choosing a page size, instead of basing the size on
some "freemem" formula, scan the physical page pools for
available page sizes, thereby avoiding a page size for
which there is no available physical pages, and causing
the system to revert to 4K.
( SR: 4701405738 DTS: JAGaa10188 )
The HP-PB disk driver is ineffectually repeating the Test
Unit Ready operation expecting media to be loaded into the
device.
Resolution:
Operations initiated via the diagnostics driver that
cause a "No Medium" error will no longer be retried.
( SR: 4701423350 DTS: JAGaa47090 )
If the OS is allocating more than 1 page of memory, then the
pa_alloc_shared_memory() routine sets the ret_size local
variable. If 1 page or less is allocated, then ret_size is
not initialized. This causes the panic.
Resolution:
Initialize ret_size to the allocation size when 1 page of
memory or less is allocated in pa_alloc_shared_memory().
( SR: 4701423947 DTS: JAGab13349 )
Enhances ioscan description for PCI devices.
( SR: 4701423327 DTS: JAGab11455 )
Enancement: PCI bus support for N-Class:
- Separates PCI-PCI Bridge support into a separate CDIO.
- Reorganizes code to support N-class interrupt
architecture.
- Implements PCI bus walk and device configuration to
support N-Class.
( SR: 4701423970 DTS: JAGaa45178 )
The problem is caused by MEMLOG or another diagnostic
application using io_query() to get information about
interface cards. On PCI, this included getting the Base
Address Register (BAR) sizes. Sizing the BAR temporarily
disables the BAR and on an active interface will cause an
HPMC.
Resolution:
PCI shouldn't be sizing the BAR. The BAR size is now
cached in PCI data structures and the pci_get_cfg() just
needs to find it.
( SR: 4701423954 DTS: JAGaa07864 )
The PCI_ID data structure is now correctly padded for
64-bit use.
Resolution:
Define the parameter to the attach routine as PCI_ID.
( SR: 4701423962 DTS: JAGaa07908 )
Protection of ISR lists had a problem with minor lock order.
Resolution:
Replaced usage of spinlocks with another method to prevent
interrupts and modifications to the ISR list from colliding.
( SR: 4701424507 DTS: JAGab15204 )
Networking timers require a callout every tick for each
processor in the system. This creates high contention on
the callout lock.
Resolution:
A soft interrupt will be scheduled to handle the networking
timers.
( SR: 4701423632 DTS: JAGab11462 )
This is an enhancement to enable the N-class platform.
( SR: 4701424390 DTS: JAGab13290 )
Two lines of code were moved from one file to another in the
process of resolving the original defect, fixed by patch
PHKL_15705. These two lines were unintentionally put back
into the first file by patch PHKL_16318.
Resolution:
Remove the two lines of code reintroduced by PHKL_15705.
( SR: 4701414441 DTS: JAGaa45359 )
Enhance i/o infrastructure platform specific modules
(sba_psm and pat_psm) to support a generic SBA.
( SR: 4701414110 DTS: JAGaa45045 )
Improves Specweb performance on V22x0 systems.
Improves performance of Fibre Channel drives.
Resolution:
Reduced the number of syncdma instructions executed.
( SR: 4701414052 DTS: JAGaa53662 )
Process used to lock ("pin") and unlock ("unpin") buffers
was not optimal.
Resolution:
Use a more efficient method to pin/unpin buffers.
( SR: 4701423780 DTS: JAGaa40446 )
Support for the Single port UltraII Card was already in the
driver. All that was needed was to recognize the new card.
Resolution:
The change was to have the driver claim the PCI card ID for
this new card. There were no new features added for this
card.
( SR: 4701414128 DTS: JAGaa47197 )
Add support for the Tachyon PCI bridge board on V2500.
( SR: 4701416768 DTS: JAGaa62804 )
DMA attributes were not initially supported in drivers.
Resolution:
Add interfaces needed to support DMA prefetch depth and
address width attibutes. Enhance PCI drivers to use them.
( SR: 4701414110 DTS: JAGaa45045 )
The dma_sync macro issues SYNCDMA many times when it should
not.
Resolution:
Create a new macro, dma_sync_IO, for performance-critical
drivers to use.
( SR: 4701407098 DTS: JAGaa40672 )
Applications can spend a lot of time in shared libraries due
to a high Translation Lookaside Buffer (TLB) miss rate.
There is currently no support for large pages in shared
libraries.
Resolution:
This change enables shared libraries to use large pages. It
does not replace existing shared libraries with new versions
that take advantage of this feature. As these new shared
library versions become available, they would depend on this
change being present on the system.
( SR: 4701414045 DTS: JAGaa46611 )
When requests larger than MAXPHYS are received by the async
driver, it should break them up into multiple requests to
be submitted to the lower level IO drivers -- but it doesn't
and the requests fail.
Resolution:
In addition to correcting the handling of requests larger
than MAXPHYS, changes are being made to the driver to enable
the use of private (vs shared) memory for async requests and
to provide a "feature inquiry" capability to allow async
users to detect the presence of these two "features" (buffer
breakup and private memory).
( SR: 4701428409 DTS: JAGab17652 )
Data Page fault due to an uninitialized pointer in
scsi_retry().
Resolution:
-Initialize the pointer to NULL.
-Check for NULL before using pointer.
( SR: 4701423509 DTS: JAGaa73277 )
HP-UX deactivates some processes when under extreme memory
pressure. When more memory becomes available, HP-UX tries
to reactivate these processes. If it is trying to
reactivate a process that has died, the system may panic due
to a race condition in the activation code.
Resolution:
Fix the reactivation path to examine the process status
prior to reactivation. If it's dead, ignore that process.
( SR: 4701422212 DTS: JAGaa45018 )
Processor Dependent Code (PDC) keeps information about
double bit and hard single bit memory errors in a Page
Deallocation Table (PDT). 32-bit kernels on most PA2.0
platforms assume that PDT entries are in 32-bit format.
They are not; they are in 64-bit format.
The 32-bit kernel does not interpret the 64-bit PDT entries
correctly, and thus, does not mark the problem memory pages
as bad (which would prevent them from being reused by the
running kernel). When these memory pages are used later,
they can cause a system panic if they have a double bit
memory error.
C and J class systems have 32-bit PDC. When these systems
are running a 64-bit OS, they use 64-bit PDC emulation code
to provides a 64-bit PDC environment for the OS. This
eumlation code assumes that PDT entries from the PDC are
32-bit entries, and converts them to 64-bit entries before
passing them to the OS. Since PDC is already using 64-bit
entries, the emulation code gives incorrect entries to the
operating system.
Resolution:
1. 32-bit kernels treat PDT entries from PA 2.0 system PDC
as 64-bit entries.
2. Remove 64-bit PDC emulation code for PDTs as they are
already 64-bit. This fixes problem on 64-bit OS.
( SR: 4701422295 DTS: JAGab03933 )
N-Class processors require synchronized TLB purges to
function correctly.
( SR: 4701422931 DTS: JAGab11428 )
Modifying Kernel files to include new PDC and PAT calls for
N-Class.
Resolution:
Added support for N-Class PDC (PDC_PAT,IA64).
( SR: 4701423335 DTS: JAGaa73071 )
Logic limited use of PDC_RELOCATE to T-Class with memory
configurations of at least 4GB.
Resolution:
Removed restriction to T-Class and memory size requirement.
Now supported by any system that implements PDC_RELOCATE
functionality, regardless of memory configuration.
( SR: 4701419069 DTS: JAGaa93808 )
Issuing an SIOC_GET_TGT_PARMS when the interface has not
set the parms results in a divide-by-zero error, causing a
conditional trap.
Resolution:
Added a test to determine whether the interface driver has
already performed negotiation, and return the default
information if not.
( SR: 5003441147 DTS: JAGaa43109 )
The locking mechanisms in the dbsend facility do not provide
sufficient protection during concurrent dbsend accesses.
Resolution:
Implement consistent locking practices for the dbsend
facility.
( SR: 4701420794 DTS: JAGaa73120 )
setitimer() does not correctly manage error conditions.
Resolution:
Error conditions are now handled correctly.
( SR: 4701414847 DTS: JAGaa62625 )
A recovery counter overflow causes operations to stay on
a CPU for too long, creating locking and critical region
usage problems.
Resolution:
Return directly from I_RECOV_CTR after the reset in trap
code.
( SR: 4701408401 DTS: JAGaa43012 )
LVM mirrored disks can be accessed through primary or
alternate Fiber Channel links. If the primary and alternate
links to one of the disks in a mirrored pair are down, the
other disk should continue to send and receive data. It
does not, and causes an I/O hang.
Resolution:
The SCSI layer will retry the Fiber Channel requests as long
as the PFTIMEOUT period has not expired and the request is
recoverable.
PHKL_18534:
( SR: 4701427617 DTS: JAGab16422 )
Data page fault has occurred in vx_ireuse_clean() due to
de-referencing in the vx_inode (ip) or the vnode (vp). This
was due to a race condition for code accessing
vx_ireuse_clean().
Resolution:
Added inode locking in the vx_itryhold() and improved
maintenance of inode cache freelist and ilist changes in
VxFS routines.
PHKL_18533:
If kernel virtual address space was scarce/fragmented, the
count of available free memory could be corrupted (by
counting some pages twice).
Resolution:
Avoid counting the memory twice, thus keeping freemem
accurate.
PHKL_18531:
( SR: 5003455626 DTS: JAGaa94781)
During a umount of a VxFS filesystem, vx_freeze_level()
calls vx_freeze_flush()/vx_freeze_iflush() prior to calling
vx_blkinval(). The code does not take into account that a
vx_sync() may be in progress flushing buffers via
vx_idelxwri_flush(). This condition can lead to "dirty
inval" panics.
Resolution:
vx_freeze_iflush() was modified to rescan the inode list if
the freeze level is 6 and any inodes were skipped during the
previous scan.
( SR: 1653301887 DTS: JAGab13393 )
A race condition was present where a thread structure was
being accessed after the thread was destroyed.
Resolution:
Code was changed to access the process structure in places
where the thread structure may not be present.
( SR: 1653301614 DTS: JAGab13027 )
Violation of lock ordering by filesystem code. The lock
ordering that is safe from deadlock is: vaslock, vnodelock,
inodelock but filesystems are attempting the order:
(vnodelock), inodelock, vaslock
Resolution:
The VM system will drop the vaslock around filesystem
operations, and reacquire it afterwards.
PHKL_18295:
( SR: 1653299776 CR: JAGab03559 )
The problem is caused by corruption of the directory name
lookup cache (dnlc) hash chain. The dnlc entries linked to
the hash chain have its hash_prev and hash_next pointers
incorrectly set, resulting in an infinite loop in
dnlc_lookup(). The corruption of the hash chain happens
when a removed entry is returned to the dnlc least
recently used (lru) cache chain without having the
entry's pointers reset correctly.
Resolution:
Properly reset the pointers and clear any vnode holds
before returning an entry back to the dnlc lru chain.
( SR: 4701400366 CR: JAGaa22046 )
The problem was due to allowing the call to (f)truncate to
proceed for a special file (i.e /dev/null).
Resolution:
Detect this code path before it executes and return
without errors.
( SR: 4701414003 CR: JAGaa55559 )
HP-UX has separate page and buffer caches. When a UFS
file is modified with adb64, the changes go into the
buffer cache. If the file contents exist in pagecache,
those pages should be flushed at that time. This was not
done in UFS file system code.
Resolution:
If the cached pages are on the freelist, they will also
be purged from the page cache.
( SR: 4701416180 CR: JAGaa93219 )
For 40 bit IO addresses, user_iomap() does not work
properly. If the same address was earlier mapped by
kernel, alias for user is not getting set up correctly.
When kernel unmaps its IO mapping, TLB's are not getting
purged on 64 bit kernels.
Resolution:
The user_iomap() is fixed to behave properly.
pdir code is fixed to purge the kernel translations
after kernel unmaps it.
( SR: 5003444331 CR: JAGab14275 )
The default values for two new tunables, VX_NINODE and
VX_NOIFREE, added in PHKL_18141 are defined in
/etc/conf/master.d/vxfs. On systems that do not have
the base JFS package (JournalFS) installed the
/etc/conf/master.d/vxfs file does not exist. This
causes build errors when the macro for the default
value is referenced in /etc/conf/space.h.d/fs-tune.h.
Resolution:
Add a definition for the VX_NINODE and VX_NOIFREE
macro to fs-tune.h. This definition will only
be used if the macros are not already defined.
( SR: 4701414839 CR: JAGaa62624 )
Values for bit shifting greater than 32 can be recieved in
the IOVR_ALLOC_CONTIGOUS macro that will cause the ccio_map
function to hang in an infinite loop.
Resolution:
A check for values greater then 32 to suspend the
appropriate while loop in IOVR_ALLOC_CONTIGOUS corrects
the defect.
( SR: 4701414847 CR: JAGaa62625 )
The recovery counter overflow causes operations to stay on
a CPU for too long, creating locking and critical region
usage problems.
Resolution:
Return directly from I_RECOV_CTR after the reset in trap
code.
PHKL_17999:
( SR: 1653296335 CR: JAGaa93879 )
st_dev_sense was checking for a NULL sense
pointer, but then calling st_head_pos outside
the if block and passing the NULL pointer on.
Resolution:
The call to st_haed_pos was moved inside the if block
so that the call is not made if the pointer is NULL.
( SR: 4701421560 CR: JAGaa45722 )
One of the functions used by mmap has an
incorrect return statement.
Resolution:
The return statement uses correct value.
PHKL_18141:
SR: 5003444331 CR: JAGaa44308
VxFS inode caching causes memory fragmentation by
occasionally, e.g. during backup, caching large
amounts of inodes in memory for one process and then
after inode utilization dies down freeing the inodes.
VxFS inodes fit in the 1KB memory bucket. The
memory side of the fragmentation problem was dealt
with in PHKL_17953. This patch adds VxFS tunables
that help avoid the fragmentation.
Resolution:
Two tunables were added to the system:
VX_NINODE
VX_NOIFREE
VX_NINODE allows setting the maximum number of inodes
that can be present in the VxFS in-memory inode cache.
If set to zero (the default) the size is tuned
according to how much physical memory the system
has. Decreasing the maximum size of the inode cache
reduces the fragmentation it causes.
To see what size the inode cache is on a running system:
# echo 'vxfs_ninode/D' | adb /stand/vmunix /dev/mem
vxfs_ninode:
vxfs_ninode: 8000
So that this system will have a maximum of 8000 inodes
allocated in the VxFS cache.
VX_NOIFREE controls whether to free memory from the
VxFS inode cache. If set to zero (the default),
inodes are eventually freed back to the general
memory pool if they are unused. If VX_NOIFREE
is non-zero, then memory is never freed from the
VxFS inode cache. It may seem counter-intuitive
to hoard memory to prevent memory problems, but
not freeing the 1KB buckets holding VxFS inodes to
the general memory pool prevents fragmentation of
the pool. Once the maximum size is reached for
the inode cache, VxFS will always re-use older
inodes.
PHKL_17817:
In a hardware configuration, mirrored disks can be accessed
through primary/alternate Fiber Channel (FC) links. If the
primary link and the alternate link of a disk of the
mirrored pairs are down, the other disk should continue to
sending or receiving data. The problem is it fails to do
so and causes an I/O hang.
Resolution:
This patch provides fix for this hang problem. The SCSI
layer will retry the FC requests as long as the PFTIMEOUT
period has not expired and the request is recoverable.
PHKL_17953:
( SR: 4701414003 DTS: JAGaa44308 )
This defect impacts systems where the kernel virtual space
has been fragemented into small buckets (less than 4KB) and
not coalesced back into pages. This causes systems to run
out of kernel virtual space, though the a system memory core
dump may show large amounts of kernel virtual memory in
small buckets. This most often happens on systems with
large amounts of physical memory.
Resolution:
When kernel virtual space drops below a threshold, the
system now attempts to coalesce memory back into pages.
( SR: 5003444125 DTS: JAGaa44400 )
When a SHMEM_MAGIC process creates new threads, the value
telling it which quadrant to check (sr5) is not correctly
set.
Resolution:
Sr5 is now set at SHMEM_MAGIC process creation and
propogated into all new threads.
( SR: 4701413948 DTS: JAGaa52712 )
When a 32 bit process vforks a 64 bit process, the child
address space is set up like the parents, including rlimits.
The system assumed that a restriction had been placed on the
parents rlimits and propogated this to the child.
Resolution:
If the 32 bit parent's rlimits are set at the default or
maximum, the 64 bit child is also set at the default or
maximum (for a 64 bit process).
( SR: 4701382440 DTS: JAGaa01444 )
The defect was a race between real_sleep and sel_wakeup. A
thread that is going to sleep will update it's wchan, put
itself on the sleepqueue, and drop the thread lock to check
for signals. It then re-acquires the thread lock and goes
to sleep. While the thread lock is unlocked, another thread
comes through sel_wakeup to wake up the "sleepy thread". It
assumes that the kt_stat and wchan match (without confirming
it), and then fails to wake up the "sleepy thread", thinking
it has already been woken up (because it thought the kt_stat
and wchan matched). The original thread then goes to sleep,
never to awaken again.
Resolution:
sel_wakeup now checks both kt_stat and wchan; it no longer
assumes that they match. If the thread is running and has a
wchan, it is not allowed to go to sleep.
( SR: 4701421230 DTS: JAGaa79765 )
Use of mandatory bindings by kernel daemons creates advisory
messages in the message buffer syslog. The danger is that
the messages can cause the filesystem to fill up. This not
a specific defect or funtional problem.
Resolution:
Stop printing these messages for system daemons.
PHKL_17869:
( SR: 5003443622 DTS: JAGaa43921 )
One of the factors the scheduler uses to determine
whether a system is thrashing is the pageout rate. For
systems with large amount of mmap files, syncing these
files to disk is a normal operation that generates very
high pageout rate. The old thrashing algorithm falsely
interprets this high pageout rate as an indication of
system thrashing due to lack of free memory. The
scheduler thus deactivates processes from the system.
Resolution:
A kernel variable is added to decouple user (system
call) and kernel (vhand) initiated pageouts. Only
kernel pageout rate is used in thrashing determination.
( SR: 4701418467 DTS: JAGaa41647 )
VxFS has "extended operations" that are processed by
special kernel threads. A removal of a file can be an
"extended operation". That is, the 'unlink' system call
returns, and the inode removal operation is put on a list
of "extended operations" to be processed.
With PHKL_17205, these extended operations were processed
only when the number of extended operations exceeded a
threshold. On a low activity file system, it may take
hours to reach this numerical threshhold.
Resolution:
The fix is to run the kernel threads that clean up
extended operations every 20 seconds no matter the
number to be processed.
( SR: 4701406140 DTS: JAGaa42463 )
The DMAPI code did not clean-up exiting event threads,
causing the defunct processes. The change is to use a
kernel thread for processing events rather than creating
a new process each time a user tracks a DMAPI event.
Note that the threads are under the "vxfsd" process that
already spawns multiple kernel threads. It is possible
to hit the maximum number of kernel threads per process.
If this happens the 'MAXTHREADPROC' tunable needs to be
increased. The default value is 64.
Resolution:
The change is to use a kernel thread for processing
events rather than creating a new process each time
a user tracks a DMAPI event.
( SR: 4701413344 DTS: JAGaa47268 )
If a large sparse file was transferred to another
system via sendfile (rcp and ftp use this), the
file system where the file was copied from may later
exhibit problems when using fsadm or umount, where an
EBUSY error is returned. The active count for the
file was being decremented too many times, making the
number go negative, which appears to the commands as
having many processes still using the file systems.
Resolution: A correction is made to the vxfs file system
code supporting sendfile operation so that the number is
not decremented incorrectly.
( SR: 1653291369 DTS: JAGaa57261 )
The problem here requires a changes in the vxfs-specific
fsck , and a small change in the kernel. The kernel
change is not dependent on the command change, but the
problem is not resolved without both parts of the fix.
The kernel specific issue is a problem in the inode
list checking code, where because of the type of a
variable, a value was being truncated.
Resolution: The vxfs inode list checking routine has
been modified to change the type of a variable to
support larger numbers, such as the 8 million.
PHKL_17795:
( SR: 4701418194 DTS: JAGaa79944 )
Patch PHKL_17458 introduced partial coherent mmap(). In so
doing, vnode and inode locks are not acquired in the proper
order as in the rest of the kernel. Under proper
timing conditions the rest of the kernel paths can deadlock
on the new lock path that was introduced. It can be
reproduced if one process does IO and another mmap's
the same file and run concurrently for sometime.
Resolution:
This problem is corrected by acquring vnode and inode
locks in proper order that obviates any deadlocks.
PHKL_17258:
( SR: 4701404343 DTS: JAGaa22890 )
Too many successful calls (~32000) to mmap by one
process on a typical system, is able to exhaust the
pool of protection id's causing a panic. The fix
enables the function that scans for space and
protection id's to return an error instead of panic.
This fix also enables the calling functions to handle
the error. The kernel panics when it runs out of
protection id's... the following program can reproduce
the problem.
main() {
caddr_t pa;
for(;;) { /* go until we panic */
pa = mmap((caddr_t) 0,
sysconf(_SC_PAGE_SIZE), PROT_NONE,
MAP_ANONYMOUS|MAP_SHARED, -1, 0);
}
}
( SR: 4701391698 DTS: JAGaa05293 )
After a fork, the parent will have large pages but the
child will have 4K pages. This is because we were too
aggressive in clearing the COW bit on zero-fill pages.
The pagein routines make sure all adjacent pages have
the same COW bit or else scale back the size of the
large page. We need to wait until after determining
the faultin size before clearing the bit.
This can be reproduced by selecting large pages for an
application (e.g. with "chatr +pd 16K"), forking that
application, and checking the child for large pages in
e.g. the data object. If the hint is 16K but there
are only 4K pages, it's possible that this defect is
the source of the problem.
( SR: 4701407239 DTS: JAGaa40599 )
The memory diagnostics driver (dmem), under certain
conditions, can create undesired side effects when it
is in the process of checking for memory errors. The
side effects include changing the access rights on a
set of pages to no read or write (when they should have
been read/write for both user and kernel). As a
result, depending on the mode (kernel/user) of access
of these pages, either a hang or a panic will result.
( SR: 4701401406 DTS: JAGaa11142 )
This symptom can have many causes. In this case, two
things were addressed:
1)The filesystem was allocating a large number of
buffer cache headers, ignoring available headers in
its free list. If this went on too long, the kernel
could run out of virtual address space and panic.
This was fixed.
2) The kernel memory allocator keeps returned memory
in a number of separate free lists, depending in part
on the allocation size. It is possible for plenty of
memory to be sitting in free lists for one size while
another size's list is completely empty and allocations
for that size must go to the main physical memory and
kernel virtual space allocators; they can't take memory
from some other size's free list.
This patch changes the kernel memory allocator to do
some free list cleanup when kernel virtual address
space is low. It is very conservative about how
often it tries this, so as to avoid creating a
performance problem on systems which are not running
out of kernel virtual address space.
( SR: 4701398123 DTS: JAGaa10979 )
The cost of the existing arbitration code, in terms of
data cache misses, increases with the number of
contending cpus. This is due to cache line stealing
between cpus contending for the sl_lock and sl_flag
fields.
1) Pre-arbitration reduces cache-thrashing in two ways:
(a) the lock is only directly interrogated by one cpu
at a time, in most circumstances. Other waiters
interrogate the per-cpu structure of the waiter in
front of them, eliminating the need to spin on the lock
itself.
(b) the rate of reading of the actual spinlock by the
waiter is reduced initially. This gives the owner a
chance to release the lock without having to lose and
re-acquire the cache line. If the waiter is
unsuccessful in acquiring the lock in
ARBITRATION_HIGHALERT cycles, he reverts to constant
interrogation.
2) In addition to pre-arbitration, this patch updates
the lock order values for the dnlc_alloc_lock. This
eliminates false panics on debug kernels.
3) An additional change is included in vfs_dnlc.c to
check for NULL pointers in dnlc_purge_vp(), for
JAGaa32026.
4) An extraneous extern is removed from dnlc.h:
JAGaa42961.
( SR: 4701401646 DTS: JAGaa24065 )
The problem is in the PITLB and PDTLB instructions used
in the 2.0 trap handlers. The 2.0 architecture was
enhanced to define that the low-order 4 bits of the
address that is being purged specifies a "page size"
(which is defined in Table 3-1 of the PA-RISC 2.0
Architecture book by Gerry Kane). However, the 2.0
trap handlers only need to purge one page, and they do
not zero the low-order 4 bits of the address that they
wish to purge (the address that is used is the actual
address that caused the trap). This results in many
more pages being purged than was intended.
( SR: 4701399519 DTS: GSY1604424 )
Enhancement to allow to control available disk I/O
bandwidth by PRM group by reordering the disk queue at
the LVM layer. All changes are visible only through
PRM. The following command defines are being added:
PRM_DISK_ADD - adds a logical volume group to the
configuration
PRM_DISK_DELETE - deletes a logical volume group from
the configuration
PRM_DISK_INFO - obtain volume information if collection
is enabled
PRM_DISK_START - enable data collection for all and
sharing for configured volumes
PRM_DISK_STOP - disable data collection and bandwidth
sharing
PRM_DISK_BYFSID - obtain information for a single fsid
across all volume groups
( SR: 4701401232 DTS: JAGaa13812 )
Several memory objects were not enabled or aligned for
large pages. This led to increased TLB misses. Made
system critical memory pool larger (proportional to
physical memory: for every 64MB of physical memory
(i.e. for every 16,384 pages), allocate 32 pages to
the system critical memory pool.) Before this fix,
there were only 5 pages in critical pool, no matter how
much memory the system had. Also changed bswalloc1()
to have vhand sleep on bswlist[] while waiting for a
buffer header, rather than sleeping in malloc. In high
memory pressure, many processes will be sleeping in
malloc, and vhand can get starved out if it's sleeping
there also.
( SR: 4701402438 DTS: JAGaa35195 )
This patch improves performance on certain networking
workloads (specifically the SPECWEB96 benchmark).
These performance improvements were used in the
recently announced SPECWEB results for the K-series
(~6250 ops).
( SR: 4701400671 DTS: JAGaa10114 )
( SR: 4701400689 DTS: JAGaa22027 )
If there is a syscall immediately after a deferred
floating point exception, there could be a case where
the syscall modifies the FP registers, thus making it
impossible to software emulate the FP operation. The
defect was reproduced using code that triggered a
deferred exception and then immediately made a syscall
(refer JAGaa10114 for the actual code used).
The tlb miss handler had some data register corruption
which was exposed by some faulty driver code.
( SR: DTS: JAGaa23885 )
Pre-enable of V2500.
( SR: 5003429654 DTS: JAGaa40369 )
In c720_invalid_req_done, we directly dereference
scb->busp without assuring that this scb is a bus scb.
The busp pointer is NULL if the scb is a lun scb.
Thus, the fix is to add a check to see whether
lsp->scb->busp is NULL, if so, obtain the busp from
lsp->scb->lp->bus instead.
( SR: 4701407890 DTS: JAGaa23080 )
When using the pass through driver with the "inhibit
Inquiry on open" option (see scsi_ctl(7)) and a device
on a SCSI bus with no other devices and repeatedly
opening and closing the device to send but a single
SCSI command, the bus is sometimes in the wrong state
when the target device begins to transfer data.
( SR: 4701407874 DTS: JAGaa22054 )
The problem results in a system panic with the panic
message: rmfree: overlap . This panic is caused due
to race condition in the mmap code, where one process
is try to detach from a mmaped space and another
process is trying to attach to same shared mapped
space. The window occurs during the lookup of the
pregion list, attached to shared mapped region, when
the region lock is dropped to accquire vnode specific
lock.
( SR: 4701409144 DTS: JAGaa13632 )
( SR: 4701409151 DTS: JAGaa13670 )
The original architecture was for PCX-U=0xE,
PCX-U+=0xE, and PCX-W=x010. However, certain C-class
systems are using PCX-U+=0x10 (due to a h/w problem).
The architecture design was changed so that PCX-U=0xE,
PCX-U+=(0x10 on C-class w/ the bug, =0xE on all
others), and PCX-W=0x11. This patch implements this
change. The kernel will panic if the call returns an
unknown value (such as 0x11 will now). Also, there is
a development kludge in vm_machdep.c that needs to be
removed.
( SR: 4701400226 DTS: JAGaa14591 )
The scsi_c720 driver incorrectly uses Ultra speed
(period = 12) as the default SDTR negotiated rate to
devices. This causes some SCSI devices to hang as they
can only really run at FAST-20 (period=25) speed even
though they accept Ultra.
( SR: 4701409136 DTS: JAGaa13428 )
c720 driver prevented kernel from booting on debug
mode.
( SR: 4701398198 DTS: JAGaa13825 )
Anonymous shared memory does not honor the large page
hints that is given to text and data of user
applications. Java uses anonymous shared memory as its
heap. Without the use of large pages there is a huge
performance penalty due to using over 122,000 pages and
tlb entries to access the java heap.
To reproduce the problem a user can mmap an anonymous
peice of memory and then use the vps_stats tool to see
how the large pages are being assigned used. Here is
some code to reproduce the problem:
main(argc, argv)
int argc;
char **argv;
{
int fd = 1;
size_t len;
int flags = MAP_ANONYMOUS|MAP_PRIVATE|
MAP_VARIABLE;
int prot = PROT_READ|PROT_WRITE;
off_t off = 0;
int *addr = 0;
int *end_addr;
int *start_addr;
int i;
len = (256 * 1024 * 1024);
if ((addr = (int *)mmap((void *)0, len,
prot, flags, fd, off))
== (void *)-1) {
fprintf(stderr, "Error %d mmaping",
" anon region.\n", errno);
sleep(30);
exit(1);
}printf(
"mmap of %x bytes returned addr of 0x%X\n",
len, addr);
end_addr = addr + len / 4;
start_addr = addr;
printf("end_addr is 0x%X\n", end_addr);
for (addr; addr < end_addr; addr +=
PAGE_HINT_SIZE) {
*addr = 0;
}
sleep(30);
exit(0);
}
while this program sleeps you can run vps_stats.32 -p
process_id and it will display the number of pages (and
corresponding tlb entries) of the anonymous memory.
( SR: 4701409516 DTS: JAGaa12601 )
When buffer cache allocation reaches the defined
maximum, the allocation of new buffers from system
memory stops. When buffers are freed, their physical
memory spaces, instead of being returned to the system,
are saved in a pool to be reused for new buffers. A
bug in getnewbuf() disallows the reclaiming of these
available memories when bufpages reaches dbc_ceiling.
Further more, another bug in bc_fixspace() causes
buffers being released excessively. The failure of
reusing memory from the reserved pool and the lost of
free buffers result running out of buffers in the
freelist, causing all I/O processes hung in sleep wait.
( SR: 4701409508 DTS: JAGaa44475 )
This change allows q4 to understand structures in
header files such as scsi_ctl.h. It is used
exclusively by q4 when debugging a panic, and is used
by CPE to debug customer panics.
( SR: 4701400721 DTS: JAGaa12195 )
( SR: 4701400713 DTS: JAGaa14168 )
( SR: 4701400705 DTS: JAGaa11280 )
- wait(2), wait3(2), and waitpid(3) act differently in
one situation on HP-UX 10.01 and 11.00. The scenario
is: Let's suppose a process is stopped by doing
kill(pid, SIGSTOP) and then traced using
ptrace(P_ATTACH, pid) and then waited upon. Now the
macro WSTOPSIG(stat_val) evaluso occur (very low
chance) when processes perform overlapping mmap() of
different portions of a file many times.
( SR: 1653258434 DTS: JAGaa05991 )
The kernel attempts to determine if a reference to a
page not currently in real memory will result in a
addressing error before loading (or allocating) the
page. This is incorrectly done for a particular class
of instructions, errors are diagnosed that will not
occur. This fix corrects this.
( SR: 4701409607 DTS: JAGaa43605 )
The system panics as the spinlock lisc->id_lock is held
for too long in the routine c720_if_start().
The fix:
In the routine c720_if_start() the spinlock
lisc->id_lock is obtained, then the routine
c720_start() is called. c720_start() processes the
requests queued in busp->select_q one by one, it
returns when there are no more requests pending in the
queue. c720_if_start() then drops the spinlock. If
due to heavy i/o load busp->select_q has many request
queued up then c720_start() routine may take long time
to return and may cause panic in spinunlock routine.
Fix is to release the spinlock and reacquire it again
after processing each i/o request.
( SR: 4701414250 DTS: JAGaa46625 )
Value of iovp is not checked to be valid before calling
macro INSERT_HASH_ENTRY in procedure ccio_seq_alloc().
Resolution:
Check was added to avoid calling macro with illegal
value.
PHKL_17458:
( SR: 4701398909 DTS: JAGaa12892 )
HP-UX is non-coherent with respect to mmap() and write().
Data between mmap() and write()'s (buffer cache) are
different and therefore non-coherent. This is a known
limitation in HP-UX. Netscape's 4.0 messaging server
product relies on a coherent environment because read()'s
and write()'s are done at the same time the file is possible
mmap()'d. Changes were made to provide coherency for
Netscape's messaging server product by changing the kernel
to provide synchronization for Netscape's usage of mmap()
and read/write.
This patch provides a level of synchronization between
mmap() and write (buffer cache) when mixing mmap() and
write() accesses. The patch causes the write() system call
to synchronize with the current mmap() in the following way:
For MAP_SHARED mappings, the current view is either pushed
to disk (if modified) or invalidated. Subsequent accesses
will see the updated copy. This only occurs if the
underlying mmap()'s have not mlock(2)'d any portion of the
mmap() file.
For MAP_PRIVATE, only those mapped with PROT_READ are
invalidated. If the page is invalidated, the next access
causes a disk I/O to pick up the new copy from disk.
Modified pages cannot be changed and hence the read-only
restriction. Because mprotect() can be used to change the
permission from PROT_READ to PROT_WRITE, any mprotect()'d
segment is skipped as well.
This synchronization was specifically tailored to Netscape's
usage and is not guaranteed to be complete for other usages.
For example, pages in the VM page cache are not part of the
synchronization. Specific changes were made to the Netscape
and HP-UX to handle this case.
( SR: 4701392936 DTS: JAGaa12688 )
Single-bit memory error logging on V-Class servers were
handled differently than other HP servers.
Specifically, the errors were logged to the
/var/adm/syslog/syslog.log file, rather than through
memlogd. Also, pages containing single-bit memory
errors were not dynamically deallocated or logged in
the Page Deallocation Table (PDT). This defect only
affects the logging mechanism of single-bit memory
errors and it should be noted that this type of error
is corrected by V-Class hardware with or without this
patch.
PHKL_17205:
This is a performance improvement to improve MP scaling
of the JFS inode cache. This meets the mid-1998 LADDIS
disclosure.
PHKL_17391:
The diagnostics process uses the dmem functions by
opening the dmem driver and requesting the driver to
lock a specific page when a single bit error is
detected on that page or when it is testing memory.
The syndrome register, which latches the address of a
memory location that experienced the single bit error,
is cleared. The driver is then called to scrub the
memory page. The syndrome register is tested again to
see if the scrubbing operation resulted in a single-bit
error. If so, a request is made to the driver to mark
the page as bad. Finally, the driver is asked to
unlock the page.
Before PHKL_17391, the dmem driver holds the pfdat lock
of the superpage in which the page frame of the
specified page belongs and disables user access to the
superpage for the entire duration of operation. Since
control has been returned to user space between each
operation, this causes user processes accessing pages
within the superpage to hang if the diagnostics process
is not available to issue the page unlock, for reasons
like it is swapped out or goes to sleep. The same
problem may also cause mutual deadlock between a
process which debugs a diagnostics process and the
diagnostics process. A new page locking mechanism
named Relaxed Locking is implemented. Under Relaxed
Locking, the operation of page is still encapsulated
between lock and unlock requests. However, access to
the page will only be denied when selected operations
are being performed (e.g. scrubbing). For the rest of
the interval that the page is locked (by dmem),
processes, with appropriate permissions, will be
allowed to access (read/write/execute) the page. The
Relaxed Locking scheme still guarantees that a locked
page cannot disappear. If a page is locked when it is
free, it cannot be re-assigned until it is unlocked.
Similarly, a locked user page cannot be returned to the
free-page list until it is unlocked.
PHKL_17390:
( SR: 5003431411 DTS: JAGaa21195 )
The garbage collector used by java received incorrect values
for the callee saves registers (GR3-GR18). In addition for
the case where the application entered the kernel via the
trap path, the kernel may not return the correct value for
GR31.
( SR: 5003442384 DTS: JAGaa43497 )
Reading processes were allowed to continuously hold an inode
lock such that a writing process would not be able to run.
This would continue as long as new reading processes came in
before the old ones finished. This was fixed so that new
reading processes were not given the inode lock until at one
writer was allowed to proceed. Then all reading processes
would be again given the lock but new ones which arrived
would again have to wait for another writing process
arrived. This would continue as long as there were still
writing processes waiting. If there were no writing
processes waiting reading processes are allowed to share the
lock at any time.
( SR: 1653282350 DTS: JAGaa42932 )
The size of the DNLC is impacting the performance of ufs
file systems on 11.00. A work around tested successfully
is to tune the size of the DNLC smaller in order to
improve performance. While this has successfully been
done using adb of the kernel, an official patch to make
this a permanent change, without needing to use adb on
each new kernel built, is being delivered.
( SR: 5003446427 DTS: JAGaa45802 )
A buffer arrives in bwrite() with B_ASYNC/B_DELWRI and
B_INVAL on and bp-vp == 0 (buffer disowned). On attempting
to complete the write, VOP_STRATEGY resolution results in a
trap 15 due to null vp.
( SR: 4701400671 DTS: JAGaa10114 )
If there is a deferred floating point exception immediately
followed by a syscall, and if the syscall code uses the
contents of the floating point registers, then there could
be a situation where the instruction causing the exception
cannot be emulated in software because the contents of the
registers have been changed. This was causing the Java
compiler to fail on some optimizations.
PHKL_17091:
( SR: 1653265975 DTS: JAGaa12583 )
The routine in the driver which detects the device reset was
retrying the I/O instead of reporting the failure. That
routine has now been changed to return I/O Error (EIO), and
also to set a flag which will prevent further writes to the
tape until the device is closed and reopened.
( SR: 1653280479 DTS: JAGaa42348 )
MPI takes advantage of gang scheduling of multiple
processes. There was a bug when MPI takes advantage of gang
scheduling of multiple processes greater than the number of
CPUs in the system. This was fixed. Gang scheduling a set
of processes which exceed the CPU count in the system is
supported and known as over-subscription.
The gang scheduler load balancer was designed to provide
close to equal distribution of CPU cycles to all gangs in
the system in over-subscription cases (where the cumulative
total of all threads across all gangs being gang scheduled
exceed the number of CPUs in the system). This was enhanced
to be more consistent across all load situations. The load
balancer is now used in under-subscribed cases as well.
The goal of the gang scheduler was to not be a resource hog
and shutdown timeshare operations. As such, when gang load
balancing is being performed, the operation of moving ganged
threads to different CPUs is passive. However, when a high
priority timeshare thread almost completely consumes a CPU,
the effect seen is that all gangs in the system are severely
penalized and receive very little CPU resource (they slow to
a crawl). This was due to slow response in migration of
ganged threads. This situation is fixed by more
pro-actively migrating ganged threads when load balancing is
occurring.
This fixes a p2p bcopy problem that occurs when moving data
that is in the stack region of a process. The standard MPI
test suite caught this problem.
( SR: 4701410092 DTS: JAGaa44973 )
Enhancement: Add STK 9840 drive to drives recognized by
driver.
( SR: 4701410100 DTS: JAGaa44975 )
Enhancement: Enable tape device sharing using the SCSI
Reserve and Release commands. Added new MTRES and MTREL
ioctl commands to reserve and release devices manually.
( SR: 4701410118 DTS: JAGaa44976 )
Enhancement: Return EIO instead of ENXIO after device reset.
( SR: 4701410290 DTS: JAGaa44977 )
Enhancement: Add support for SD-3 and 9490 device densities.
( SR: 4701410308 DTS: JAGaa44979 )
The open routine was reserving the device as early as
possible, but was not releasing it if the open failed.
The device is now released before the open returns the
failure.
( SR: 4701410316 DTS: JAGaa44980 )
The logging routine accesses a global log which is used for
debugging and failure analysis. Access to this global data
area should have been (and is now) protected by a spinlock
to prevent two processors from accessing the same area at
the same time.
PHKL_16876:
Patch PHKL_16182 introduced the following problems:
1) A problem with the pstat() system call that may cause
the fuser(1M) command to not report open device files.
In an MC/ServiceGuard environment, this may result in
packages such as Oracle and SAP not being properly
halted and the package switch may fail.
3) A system panic on PA8x00-based systems. The reported
panic message is "findentry(): idx beyond region size".
4) The coherency fix between mmap() and write() accesses
addressed by PHKL_16182 failed in certain cases. As
a result, applications relying on the coherency mixing
mmap() and write() could see incoherent data.
Patch PHKL_12965 removed the check TOO_MUCH_TIME() in
the wait_for_lock() function.
PHKL_16876 fixes all of these problems.
PHKL_16840:
one part of a switch statement inside the RLIMIT_NOFILE
case breaks from the switch statement without holding
the process lock. The code at the end of the case
statements assumes the lock is held and unlocks the
process lock and returns. When the lock is unlocked
without the corresponding lock call bad things happen.
PHKL_16749:
Spinlock was being deallocated while still in use.
Problem was reproduced by running MPI tests under heavy
load, either alone or with other tests.
PHKL_16819:
( SR: 5003387404 DTS: JAGaa00919 )
A system that uses DMAPI with extended information stored
in inodes is unable to write extended information to
existing files after a file system becomes full. An
application like Omni-Storage that uses DMAPI is unable
to update existing inodes after the file system becomes
full. This patch allows a DMAPI ENOSPACE event to
be generated when the file system is nearly, but not
completely, out of space.
An application using large file support cannot use the
KDM_IOC_WRITEINVIS DMAPI ioctl to do an invisible write.
Set the FLARGEFILE flag so that invisible writes will
work on large files.
( SR: 1653268177 DTS: JAGaa13271 )
Change the vx_fsync() code to return an error if the
inode has been marked with an error.
( SR: 4701406140 DTS: JAGaa42463 )
Use proper signal handling on processing events to
prevent event processes from becoming defunct
processes.
( SR: 4701406157 DTS: JAGaa42467 )
Don't flush inode changes if we are truncating with the
'VX_IEHOLETRUNC' flag turned on. This to prevent changing
the size of the inode on KDM_IOC_PUNCHHOLE requests.
PHKL_16236:
( SR: 5003360446 DTS: JAGaa11944 )
The SCHED_NOAGE scheduling policy has approximately the same
priority range as SCHED_TIMESHARE. However, the priority
does not degrade with time or cpu usage. It provides an
alternative to real time processes which always run first
and have the possibility of taking over the system.
( SR: 1653266270 DTS: JAGaa12536 )
32-bit processes under HP-UX are restricted to a maximum
size shared memory segment of 1 GB. Applications needing
greater than 1 Gb must create multiple disjoint segments
and account for this.
With the help of memory windows and the SHMEM_MAGIC
executable layout, an application can construct greater than
1 Gb of shared memory with multiple segments. SHMEM_MAGIC
executables place the code/data/stack within the first
quadrant. The second, third and fourth quadrants are
usable for shared resources. Memory windows allows unique
spaces for the second and third quadrant. With the help of
a new option to setmemwindow(1), the kernel assigns the same
space id to both the second and third quadrants. The
default virtual space allocation policy for memory window
processes compiled and linked as SHMEM_MAGIC is the second
quadrant followed by the third. An application can then
create a 1 Gb shared memory segment, followed by another
1 Gb segment. The segments are created contiguous (virtual
address) and can be treated as a single contiguous range
of 2 Gb's.
This ability is only available on 64-bit HP-UX and cannot be
used on 32-bit HP-UX kernels.
( SR: 5003425447 DTS: JAGaa12727 )
The graphics Block TLB entry is not set up on non-monarch
processors. When the X Server migrates off the monarch
processor, there is no valid TLB entry on the processor
it moves to. When the X Server tries to access an
address that should be covered by the Block TLB entry
it gets a data page fault and dumps core.
This defect was fixed in PHKL_16182. However, PHKL_16318
omitted the code change. This patch merges back the fix.
PHKL_16260:
spinlock contention generates large amounts of bus traffic
because all spinners are looking at the same lock word.
This causes large amounts of cache to cache copies on
multi-processor systems. This extra bus traffic
causes system performance to degrade whenever lock
contention occurs.
PHKL_16318:
( SR: 5003426437 DTS: JAGaa13193 )
The break page was allocated from main() with no care
to where in memory it got allocated. It was possible for it
to be allocated above the 4gig boundary on large memory
If this would occur, then the upper bits of the break page
single steps traps.
The fix was to change the break page from being eqalloc'ed
from main() to part of the kernel text space, right below
the gateway page.
( SR: 4701394171 DTS: JAGaa13745 )
A bug in asyncdsk_dorequest(); A check for address range
results in a situation where if it doesnt find the address
range, the "sp" variable will point to an a_seg
entry that has a NULL value.
( SR: 1653269258 DTS: JAGaa13619 )
The defect is that the memory lock fails. It returns an
error to exec_superpage_text() who then "detachreg's" the
current text image and then does an add_text(). However,
because the data portion of the executable had done a
mapvnode(), the underlying vnode is not "unmapped" and
the add_text() will simply locate the partially filled
object. This can happen in the following way: If one user
has mlock privilege and the other doesn't. The first
brings in an locks down the segment. The second comes
along and fails the mlock, and attaches to the text
region normally. Now its the same text region as the
other that successfully pulled it in as RF_LOCKED_LARGE.
Now suppose the RF_LOCKED_LARGE goes away. The remaining
mapping is not plock'd and so the region is unlocked and
gives access to vhand. The pages are clean but the
vm_vfdcheck code will just throw away the page, it doesn't
expect to find the dbd as DBD_NONE. The next fault is
virtual and the dbd is DBD_NONE.
( SR: 5003428359 DTS: JAGaa22800 )
Race condition between lun closing and retried IO at Open
accesing lun structure. This was fixed by incrementing
counter before we relase the lock therefore insuring
the lun stay open.
PHKL_16182:
- A simple benchmark that used threads to do send/recv
on sockets did not scale well. Each socket is associated
a pair of threads with one thread doing sends and the
other doing recv. The throughput did not scale as the
number of threads was increased.
- Customer observes that pthread_create() takes >67%
more time on LP64 kernels. This is considered to be a
significant problem for the application. There were two
problems: 1) kernel thread caching had been disabled,
resulting in ~5x more time required, 2) An unnecessary
allocation/copy of 3 additional UAREA pages on LP64 kernel
accounted for most of the disparity between ILP32
and LP64 kernels.
- The problem was due to an incorrect definition of another
flag which overlapped the same bit used for O_SYNC.
The solution was to redefine this flag, FPOSIX_AIO,
to avoid the overlap.
- The graphics Block TLB entry is not set up on non-monarch
processors. When the X Server migrates off the monarch
processor, there is no valid TLB entry on the processor
it moves to. When the X Server tries to access an
address that should be covered by the Block TLB entry
it gets a data page fault and dumps core.
- HP-UX is non-coherent with respect to mmap() and
write(). The page cache used with mmap() and the buffer
cache with write() are different and are not guaranteed
coherent. To help with this coherence issue, this patch
provides a level of synchronization between the mmap()
page cache and the buffer cache when mixing mmap() and
write() accesses. The patch causes the write()
system call to synchronize with the current mmap()
in the following way.
For MAP_SHARED mappings, the current view is either
pushed to disk (if modified) or invalidated. Subsequent
accesses will generate a disk I/O which will see
the updated write() version. This only occurs if
the underlying mmap()'s have not mlock(2)'d any
portion of the mmap() file.
For MAP_PRIVATE, those which are done with PROT_READ
only are invalidated so that the next access causes
a disk I/O to pick up the new copy from write().
Modified pages cannot be changed and hence the
read-only restriction. Because mprotect() can be
used to change the permission from PROT_READ to
PROT_WRITE, any mprotect()'d segment is skipped
and not synchronized.
- sched_yield() system call may not put a calling
FIFO thread at the end of its run queue as required
by the standard. If the calling thread is preempted,
then it may incorrectly put the thread at the front
of the run queue causing incorrect scheduling
of threads.
- pstat(2) child-rusage-enhancement.
PHKL_16135:
A typical configuration of the async driver by data base
packages results in the async driver allocating superpages
for its internal data structures for improved performance.
However, there remains space on the page for "memory
leakers" to allocate, so that the pages cannot be released
when freed by the async driver.
This change causes the async driver to round up its
allocation to the next higher power of 2, which leaves no
space to be allocated to "memory leakers" and allowing
the pages to be released when the async driver frees them.
PHKL_15705:
(64-bit WS support)
This patch adds 64-bit support for workstation systems.
( SR: 4701392647 DTS: DSDe443317 )
Performance enhancement for wide stripe read ahead.
( SR: 4701392639 DTS: DSDe443316 )
Epic drivers were modified to stop processing transactions
during a panic; this enhances support's ability to access
related data from system core dumps.
( SR: DTS: DSDe443271 )
dnlc_purge1() had an extra spinlock unlock. This was
removed.
( SR: DTS: JAGaa06012 )
Applications that access /dev/mem and /dev/kmem will
serialize on a read/write lock. This fix allows both
read/write accesses to /dev/mem and /dev/kmem in parallel.
( SR: DTS: JAGaa12461 )
Variable km_disable was not settable by the user via adb.
( SR: 4701386680 DTS: DSDe441878 )
SCSI bus reset with "Unhandled pending interrupt on open".
( SR: DTS: DSDe427541 )
( SR: DTS: JAGaa10155 )
Inconsistent use counts on low level VM structures.
PHKL_15508:
adjust_flock() initially creates a lock for the entire file
using the range 0 -> MAX_LARGE_FILE. However when we delete
the lock (via exit->closef->vno_lockrelease->VOP_LOCKCTL->
local_lockctl->adjust_flock) we only remove:
0 -> MAX_SMALL_FILE
Therefore we still leave the range locked of:
MAX_SMALL_FILE -> MAX_LARGE_FILE which in turn returns the
error code "EACCES" when lockf() is called.
PHKL_14769:
The application program which calls "syscall" in the exit
path is hit by a signal and we invoke psig which determines
that we should exit the process. Exit() closes all file
descriptors by invoking closef() on each valid fd, we get
into local_lockctl() and then into adjust_flock().
adjust_flock() somehow seemed to be picking the arguments
for fcntl() syscall from the U-area. This is "not correct".
It should not expect that the U-area fields will be "valid".
Becuase of this, it picks up a pointer which is NULL and
thus causes a data page fault (trap type 15).
The arguments are only valid when entering the syscall
path. We can exit in the middle of any syscall or via a
synchronous signal containing any information that anyone,
including adjust_flock, should rely upon.
PHKL_15325:
'reboot -h' must halt the system, but due to the recovery
counter bit set in PSW (R-bit), a fault would occur and
the system reboots (sometimes with HPMC or core dump).
The fix is to turn the R-bit off when shutting the system.
Also, With 64bit process, we got the maximum file size
with ulimit(2). In spite of the limit is
maximum, 2G(actually 0x7fffffff / 512) is reterned.
ulimit(2) fails to correspond to 64bit.
Use getrlimit(2), setrlimit(2) as workaround.
PHKL_15050:
The patch fixes 2 defects:
1. If the user specifies the text(or MMF's) be written
locally for NFS files, we were allocating space id for
paging similar to the space id for region instead of a
different one. Only the pseudo pregion has its space id
changed. The pseudo pregion is the one placed on the
vhand chain.
2.Under certain conditions with NFS and local paging, an
unaligned large page access during process teardown can
trigger a trap 15 in the PDIR subsystem.
Here's what happens:
During process teardown, all process objects are examined
to determine if their pages should be flushed. Normally,
only dirty pages are flushed, but the page_text_to_local
tunable and sticky bit force pageout so we have a copy of
program text in local swap. At pageout time, the process's
memory objects (pregions) are all destroyed, so the only
handle to the object is the pseudo pregion, accessed from
the executable's vnode. While all process pregions sharing
the text object use the same virtual address range
(ensuring that large pages will be properly aligned in
virtual memory), the psuedo pregion maps the text object
at a virtual address corresponding to the location of the
text in the executable file. This mapping will likely make
the text large pages unaligned. During pageout, the PDIR
routines assume large pages will be aligned and
miscalculate the virtual address, causing a dereferenced
NULL pointer, triggering the panic.
PHKL_14805:
( SR: 4701387928 DTS: DSDe441942 )
This problem is caused by improperly using uninitialized
variable in a kernel routine thread_ss_comminit(). This
defect appears only on 32bit user applications running on
64bit kernels.
( SR: 4701387910 DTS: DSDe441830 )
This problem is caused by a defective copyout in the kernel
routine thread_ss_comminit(). We are copying out 64bit
values out to 32bit user space without a proper conversion.
This causes stack corruption, and user applications receive
SIGSEGV or SIGILL.
PHKL_12965:
None.
PHKL_14292:
The scheduler will not pick any thread which is currently
running on a processor (i.e. is marked as TSRUNPROC) to run
again regardless of whether it is the highest priority
thread.
PHKL_14088:
( SR: DTS: DSDe441753 )
setjmp(), longjmp() incorrectly handled in optimizing
compiler.
( SR: 4701379693 DTS: DSDe441224 )
Data mover hardware on V-class not enabled.
( SR: 4701379677 DTS: DSDe441226 )
Profiling data is not provided to CXpa.
( SR: 4701379669 DTS: DSDe441227 )
Gang scheduling is not implemented.
( SR: 4701379651 DTS: DSDe441228 )
Process to process bcopy is not implemented.
PHKL_14045:
The code that prints ECC advisory error information
prints incorrect values for "node" and "row" because
bitfields are declared incorrectly in the CSR data
structure.
PHKL_13328:
During the close down of a DB connection, proc_close()
switches out the source process while waiting for
a signal or the destination to close down. After
waking up, proc_close() continues to dereference the
destination's thread without checking if the destination
process is still alive or not. It hits a data page fault
when the destination process has already exited.
PHKL_13644:
There is a race between an exiting process that might remove
itself from its parent's list of children and the parent who
could be walking that list at the same time. This can only
happen on a multiprocessor system.
PHKL_13673:
On older workstations using 53C700 chip running at 37.5 MHz
or less, the HP-UX panic during the boot up because of the
I/O system hang. This is caused by a bug in the round up
calculation when converting msecs to ticks. THe bug happens
when initializing the request timeout and caused the
timeout value 9 time its correct value.
PHKL_13676:
The routine badalignment() is not handling checks on double
word aligned instructions correctly. This routine is called
when there is an instruction access fault to determine if
the fault was due to a bad alignment of the instruction.
The badalignment() routine always returns failure, resulting
in the SIGBUS being sent to the process.
PHKL_14034:
Very poor performance with SHMEM_MAGIC applications results
due to the following 2 reasons:
a)Incorrect usage of stack pointer to get data space id
for shared memory segments. (existed on PA1.1 and PA2.0
systems)
b)fast_resolve_pid access list was broken and hence all the
protection id faults not resolved in hardware were being
handled via checkprotid() which resulted in high system
time. (existed on PA2.0 systems)
PHKL_13646:
Very poor performance with SHMEM_MAGIC applications results
due to the following 2 reasons:
a)Incorrect usage of stack pointer to get data space id
for shared memory segments. (existed on PA1.1 and PA2.0
systems)
b)fast_resolve_pid access list was broken and hence all the
protection id faults not resolved in hardware were being
handled via checkprotid() which resulted in high system
time. (existed on PA2.0 systems)
PHKL_13810:
This patch provides the system infrastructure for memory
windows.
Memory windows is a functional change allowing 32 bit
applications the ability to define unique memory windows
where shared resources such as shared memory are created.
Memory windows is only available for 32 bit processes.
Default executables(SHARED_MAGIC) are defined such that
shared resources occupy 1.75 gigabytes of the address
space. With memory windows the application can define 1
gigabyte as a unique memory window where shared resources
are created. Because the application defines its memory
window, all other processes needing access to shared
resources in that window, must join that window.
Cooperating processes forming an application are able to
create, access and modify shared resources in a unique
memory window. Placing different applications in different
windows allows the system to exceed the 1.75 gigabyte
limitation. However, the individual 32 bit processes
themselves are still limited to 1.75 gigabytes of shared
resources. SHMEM_MAGIC executables can address 2.75
gigabytes of shared resources. The memory window for
SHMEM_MAGIC is 2 gigabytes as opposed to 1 gigabyte for
SHARED_MAGIC.
This patch does not enable the new memory windows feature.
It must be enabled by the user after the patch is installed.
This is to insure that the default configuration of the
system is not impacted by the installation of this patch.
Applications that use the current global memory window will
continue to work as they did prior to the installation of
this patch.
To enable the use of memory windows, the kernel tunable,
max_mem_window, must be set to the desired amount of memory
windows. The disabled value is 0. A good default is 256.
To enable 256 memory windows in the kernel add the following
line to the kernel configuration file(/stand/system):
max_mem_window 256
Build a new kernel and reboot.
Setting max_mem_window to 256 results in creating 256
memory windows, plus the global memory window. Setting
max_mem_window to 1 would create 1 memory window, plus the
global window, for a total of 2.
Enabling multiple memory windows does change the kernels
default allocation policy. With only the global memory
window configured, the kernel allocates shared addresses
from the 4th quadrant first and then the 3rd quadrant.
This has been HP-UX's allocation policy for the last
several releases. When max_mem_window is set to a non-zero
value, the kernel changes the default allocation policy
such that the 3rd quadrant is tried first followed by the
4th.
Applications must be started in a memory window. An
application cannot dynamically switch between one window
and another. Applications are only allowed to change their
window at exec time. Applications are not required to
change their source code, but instead use the memory window
command setmemwindow(1) to start an application in a
specified memory window. For example:
setmemwindow -i 10 myprog arg1 arg2 arg3
This would start the executable "myprog" with 3 arguments
in the memory window corresponding to user key 10. There
are other options to setmemwindow(1) to control how memory
windows are created.
One application cannot know the user key another other
application has selected. To avoid embedding those values,
a centrally located file "/etc/services.window" is used to
document and define the key for an application. Each
window needed must define a unique string and unique key in
the file. An example entry would look like:
myapp_name 10
another_app 20
The application myapp_name is associated with user key 10.
The application extracts the user key with the command
getmemwindow(1). getmemwindow is passed a string which it
locates in /etc/services.window and then returns the user
key. So myapp would start itself as:
WinId=$(getmemwindow myapp_name)
setmemwindow -i $WinId myapp arg1 arg2 arg3 .....
In the event of a collision between two applications, the
system administrator only need change the
/etc/services.window file and not the specific application
startup scripts.
There are no syscall interfaces for the program itself.
The changing of memory windows was meant to occur without
changing the underlying program itself.
There exists an unsupported tool called memwin_stats(1),
created to report memory window information about shared
memory segments, what window a process is in, and memory
windows themselves. The command can be found on HP's
unsupported tools hub.
PHKL_13052:
The pstat(2) interfaces have been extended. The following
fields in pst_dynamic are obsolete and provided only for
backward compatibility:
psd_mp_avg_1_min[]
psd_mp_avg_5_min[]
psd_mp_avg_15_min[]
psd_mp_cpu_time[][]
Since the size of these arrays is hard-coded, there is no
way to get information about more than a fixed number of
processors with the pstat_getdynamic() call. Instead,
pstat_getprocessor() should be used. It returns the same
information and supports any number of processors.
Note that a developer building his application on HP-UX
11.00 can choose between forward and backward compatibility.
The new mechanism provides forward compatibility as the
maximum number of processors increases in future releases.
If the developer is unwilling to make source code changes,
his code will still compile and run correctly on HP-UX
11.00, but he gives up the guarantee of forward
compatibility.
PHKL_13193:
( SR: 4701374272 DTS: DSDe440457 )
The spaceid resources which are statically allocated have
been exhausted.
PHKL_13278:
There is no defect. This patch aids user programs which
need more stack space than HP-UX allows. HP-UX has
hard limits of 80 megabytes for 32-bit processes and 1
gigabyte for 64 bit processes. This patch removes these
hard restrictions to allow larger sizes for maxssiz
and maxssiz_64bit.
PHKL_14070:
This problem is caused by 2 functions being called out
of order. Normally, the SCSI subsystem initializes before
UP emulation code is run, in this casem the SCSI
subsystem initializes after UP emulation code is run
and this causes a panic in scsi_cmdx().
To reproduce: boot up the system with Fibre Channel
cards in the system but no other GSC cards. Do not
connect the Fibre Channel cards to disks until
after the system is booted up. Then run ioscan -f
and the system will panic with a data page fault.
PHKL_13858:
SIOC_GET_BUS_PARMS ioctl causes a divide-by-zero panic due
to the field isc->bus_min_sdtr_period never being set by the
FCMS driver. Introduced check-for-zero code to avoid the
above problem. An SIOC_BUS_PARMS ioctl to a FC-disk will
reproduce the panic.
PHKL_13552:
( SR: 4701376202 DTS: SILre01451 )
All stape device files are set for BEST density.
New default device file creation -
The previous system would generate generic device
nodes in insf based on BEST density only. For
example, a Fuji3480 drive would have the following
files created:
/dev/rmt/0m ==> /dev/rmt/c0t0d0BEST
/dev/rmt/0mn ==> /dev/rmt/c0t0d0BESTn
/dev/rmt/0mb ==> /dev/rmt/c0t0d0BESTb
/dev/rmt/0mnb ==> /dev/rmt/c0t0d0BESTnb
The short file names are actually hard links to the
long file versions. The MT_INSF ioctl has been
altered to now check device type and create
additional files for the types:
3480, 3590, DDS, and 8MM.
The 3590 would have the additional files denoting
uncompressed mode (for example):
/dev/rmt/c0t0d0D3590
/dev/rmt/c0t0d0D3590n
/dev/rmt/c0t0d0D3590b
/dev/rmt/c0t0d0D3590nb
The 3480 would have something like:
/dev/rmt/c0t0d0D3480
/dev/rmt/c0t0d0D3480n
/dev/rmt/c0t0d0D3480b
/dev/rmt/c0t0d0D3480nb
DDS drives would have something like:
/dev/rmt/c0t0d0DDS
/dev/rmt/c0t0d0DDSn
/dev/rmt/c0t0d0DDSb
/dev/rmt/c0t0d0DDSnb
8MM drives would generate something like:
/dev/rmt/c0t0d0D8MM_8200
/dev/rmt/c0t0d0D8MM_8200n
/dev/rmt/c0t0d0D8MM_8200b
/dev/rmt/c0t0d0D8MM_8200nb
/dev/rmt/c0t0d0D8MM_8200c
/dev/rmt/c0t0d0D8MM_8200cn
/dev/rmt/c0t0d0D8MM_8200cb
/dev/rmt/c0t0d0D8MM_8200cnb
/dev/rmt/c0t0d0D8MM_8500
/dev/rmt/c0t0d0D8MM_8500n
/dev/rmt/c0t0d0D8MM_8500b
/dev/rmt/c0t0d0D8MM_8500nb
BEST would of course be the 8500c modes.
As devices have a 32 node limit, we do not generate the
multitudinous DLT density combinations. They are also
less likely to be used in uncompressed mode.
For existing tape devices, you may have to execute
'insf -e' to reinstall the device files, causing the
additional nodes to be created.
( SR: 4701376061 DTS: SILre01449 )
Fuji2481/2483/2488, Exabyte 8505XL, and IBM 3590 tape
drives are currently unsupported.
Add support for the device specific features of the
additional tape drives. The 3590 has a new device type
that is part of <sys/mtio.h>.
Add support for IBM LOG page 38 to retrieve remaining
capacity for the SIOC_CAPACITY ioctl. This is only a
rough estimate +-capacity/256.
Some devices, such as the Fujitsu drives, require driver
buffer clearing after a MEDIUM ERROR or VOL OVERFLOW.
When these conditions occur on a drive with this
characteristic enabled, recovery will occur prior to the
next command to that drive. Without recovery performed, a
drive may be unusable until power-cycled to clear the
buffer. SCSI BUS RESET is usually not enough.
Fujitsu drives have an added feature to reposition the
tape head on the EOM side of an unrecoverable error block.
This allows customers to read the remaining data on the
tape, ignoring bad records.
For base Fujitsu 3480 drives (2481 models), this feature
was added in Rev 14D firmware. All future models of their
3480 drives contain this PAEB bit which is located in mode
page 0, a vendor specific page. It was not documented
until the 2488 manual.
( SR: 4701376053 DTS: SILre01450 )
MTIOCGET ioctl dsreg1 always shows 0x05240000 or the
SCSI ASC/ASCQ depiction of Illegal Request.
This alters the behavior of MTIOCGET to save the dsreg
status to be returned prior to executing all the mode
sense, etc. commands it executes. The status returned is
really the SCSI sense information from the last command
that caused a check condition. This allows MEDIUM errors
to show up, instead of ILLEGAL REQUEST, as the status of a
failed write. Only dsreg1 and dsreg2 are affected, not
the mt_gstat field which portrays BOT, EOT, ONL, RDY, etc.
( SR: 4701376210 DTS: SILre01453 )
From EOT on a HP1537 DDS3 drive, perform a back space
record. MTIOCGET status field will show EOT bit on, where
it should be off.
( SR: 4701376079 DTS: SILre01197 )
SIOC_GET_BLOCK_LIMITS reports 256K as max record size.
( SR: 4701376087 DTS: SILre01196 )
Read a tape written on SPP-UX with >256K record size and
corrupted data will be retrieved.
scsi_maxphys new tunable -
Desc: Set maximum record size for SCSI I/O subsystem.
Used to throttle I/O in sctl, so that non-EPIC based
machines do not have resource problems.
This value was previously fixed at 1MB (1048576). On
V-Class systems, this value can be set as high as 32MB
(33554432) for large raw SCSI disk transfers. Most
systems won't need the value set this high, so the
recommended value should be set to the SCSI tape max
of 16M-1 (16777215) for V-Class. Non V-Class systems
should remain with the system default of 1048576. To
enable large record support for SCSI tape drives with
the stape driver, the new st_large_recs tunables must
also be set to 1.
st_large_recs new tunable -
Desc: Enable large record support for stape devices.
When non-zero, this causes stape opens to always enable
ST_LARGE_RECS for lun state. Programmers can still use
the ioctl MT_SET_LARGERECS to change the lun state after
device open. This tunable just creates a system-wide
default for whether large records are enabled. The
default setting will be off. Seismic customers will need
to alter the tunable and rebuild the kernel to get their
desired setting. Enabling large records will also disable
silent logical record breakup. Requests larger that what
the subsystem can handle will now fail with EINVAL.
A device with ST_LARGE_RECS enabled in lun state will also
affect the results of SIOC_GET_BLOCK_LIMITS. The new max
value will actually be the device limit, not 256k.
MT_GET_LARGERECS - New ioctl to get current large
record support setting for a lun.
MT_SET_LARGERECS - New ioctl to enable/disable large
record support setting for a lun.
( SR: 4701376277 DTS: SILre01452 )
Write 256K records to tape, then read back at 64K size.
Unless you use MTIOCGET after every read(), you will
not realize that you only read partial records.
A new feature allows a user to detect cases where
reading a tape record is smaller that what was actually
stored on tape. The failed command will return EFBIG
in errno, as well as storing residual count of how many
extra bytes were detected in the tape record that were
not requested. The previous tape system saved the
residual information but had no capability to notify
the user when the overrun condition occurred.
st_fail_overruns new tunable -
When non-zero, this causes stape opens to always enable
ST_FAIL_OVR for lun state. Programmers can still use the
ioctl MT_SET_FAILOVR to change the lun state after device
open. This tunable changes the system-wide default for
whether data overruns are failed. The default setting
will be off. Seismic customers will need to alter the
tunable and rebuild the kernel to get their desired
setting. Enabling failed overruns will cause an EFBIG
error as described above.
MT_GET_FAILOVR - New ioctl to get fail on read
overrun setting for a lun.
MT_SET_FAILOVR - New ioctl to enable/disable fail
on read overrun setting.
PHKL_13081:
We are seeing a timeout in the EPIC hardware (PCI bus
converter) on highly loaded systems with large memory
latencies. We changed the allocation of channels within
EPIC from LIFO method to FIFO.
PHKL_14536:
Some devices were not already shutdown prior to the system
walking the shutdown path. The fix was to make sure all
devices were shutdown before this point.
PHKL_14174:
Compiling a program with the C++ compiler and the
large files options "-D_FILE_OFFSET_BITS=64" or
"-DLARGEFILE64_SOURCE", when including the headers
in this patch, would fail. Various errors and
warnings would be generated, such as using
Old-Style function definitions. These new headers
have been amended to work properly on C++ programs
using the large files options, without causing
any changes for C or non-large file C++ applications.
PHKL_14703:
The memory drivers, /dev/null /dev/mem /dev/kmem, are not
MP safe and cause a context switch to perform all their
operations on the monarch CPU.
PHKL_15721:
The vx_vn_bread() function holds a buffer busy while it
tries to get the lock on the buffer's inode. There is a
window through which another thread can obtain the inode
lock and then wait for the buffer that vx_vn_bread() is
holding, thus causing a deadlock.
PHKL_15554:
I-cache pre-fetching beyond end of procedures creates
unnecessary load on the bus.
PHKL_14748:
None.
PHKL_14135:
The kernel sendfile routine assumed all buffers were from
the buffer cache. For VxFS, this was incorrect. This
caused buffer address dereferences for buffers that no
longer existed.
PHKL_14111:
Two changes are included in this patch:
1) Reduce overhead by removing calls to bc_fixspace() in
the 64-bit path because it is not needed.
2) Improve performance degradation when in low-memory
configurations, particularly during iozone workload.
PHKL_13343:
Essentially, in getnewbuf, we might set a B_DELWRI buffer
to B_BUSY, but later decide to NOT write it out (in fixing
some deadlock problem). Rather, we will simply brelse it.
If an umount process of the device or filesystem come in
between the time of setting B_BUSY and brelse(), it will
skip the buffer thinking that someone else is flushing
it out. Later when it calls binval() assuming all buffers
should have been written out, it may invalidate a dirty
buffer.
To re-produce the problem, you need some frequent mount/
umount as well as some heavy vxfs activities.
configuring a mixed hfs/vxfs hazard tests on the same system
seems to do the trick.
PHKL_16794:
The vm subsystem was trying to page out a page size larger
then the maximum allowed I/O size. To reproduce the
problem: mmap() a very large file ( we used 8 MB), touch
pages, munmap() the file, process hangs.
PHKL_16313:
The problem was that because VxFS chains together buffers
for paging, multiple I/O's for a page-out can finish at
the same times on different processors. When the
vx_pageio_done() routine is called, it doesn't hold
the lock while it determines how many buffers are left on
the chain. This can cause the final two threads to both
think that they are not the last buffer in the chain
and thus neither calls pageiodone() to tell the VM
subsystem that the page-out is complete. This causes a
process that needs to wait until the page-out is complete
to hang, since the page-out will never appear to be done.
To reproduce try setting up a striped LVM volume with
disks from as many different I/O controllers as possible.
Then create large files and do mmap() read them and
close them.
PHKL_16274:
The floppy driver has not been supported on 64 bit
11.00 systems. However, the system would allow you
to configure the pflop and fdc drivers into the system.
The kernel build would then fail with unsatisfied
external references for pflop_install and fdc_install.
PHKL_15487:
The floppy driver has not been supported on 11.00.
The libhp-ux.a library contained redundant symbols for
functions and data related to the floppy driver.
PHKL_16144:
The root cause is that that system call handling code is
thrashing sr3 which needs to be saved by the callee.
PHKL_15719:
In saving the stack information on entry to syscallinit(),
we trash the 8th argument. Only mmap64() and ptrace64() are
affected by this defect, since they're the only ones with
8 arguments.
PHKL_15910:
Re-cut PHKL_15674 with new optimization
PHKL_15674:
Code added to prevent a system pause when traversing a long
clean or dirty list of buffers on a vnode in PHKL_13574
added a dummy buffer as a placeholder. This buffer was
allocated from the stack of the thread doing the flush.
If another thread manipulated the vnode's clean or dirty
list the dummy buffer's contents would not be updated
properly since the new thread's stack may not be in the
same space ID.
PHKL_14745:
These changes improve VxFS sequential write performance.
PHKL_13574:
In vx_vnode_flush or vx_inval_list, there is a for-loop
responsible for traversing the buf chains associated with
a vnode. For a large file (>2GB), the buf chain gets
pretty long and the traversing takes quite a while.
Since we need to hold the vnode lock while going thought
the chain, sometime we end up hold the lock for too
long. This leads to the symptom described above.
PHKL_13200:
a.) During stress testing, the kernel panicked while
processing an inode for extended op. The inode had
previously been dropped and added to the vx_ifreelist. Its
i_fs was null and used to set the file system active level
which resulted panic.
b.) A data page fault can occur in vx_iupdat(). The reason
is that the i_fset and the i_fs field was set to 0 when
entering this function. The inode seems to have been
dropped earlier. However, there are mlinks in the fset
chain that correspond to this inode. For some reason,
they were not cleaned up when the inode drop occurred.
This problem is due to a race condition.
c.) Invalidating a buffer from vx_do_putpage could cause a
hang if the caller is doing direct I/O. This is because
the caller already has some buffers locked and thus the
invalidation will spin forever.
PHKL_15770:
Run the memory diags to emulate single bit memory errors,
and the LPMC log contained multiple, duplicate log entries
for the single bit memory errors.
PHKL_14046:
Coding error causes TLB purges to be single-threaded
when they do not need to be. The error was in testing
"is_SPP2200" rather than "is_SP2200()", i.e., testing
the value of a function pointer rather than calling
the function and testing the return value.
PHKL_14047:
The LPMC path contains some code specific to the V-class,
and this code references a CSR incorrectly, resulting in
an HPMC. This V-class-specific code was necessary only to
work around a deficiency in the V-class PDC, and is no
longer needed. It should be removed altogether.
PHKL_15555:
I-cache pre-fetching beyond end of procedures creates
unnecessary load on the bus.
PHKL_15553:
I-cache pre-fetching beyond end of procedures creates
unnecessary load on the bus.
PHKL_15480:
EISA and HIL functionality is not supported by the 64-bit
kernel.
PHKL_14551:
It looks like it is hanging in pa_next_address_range()
in io/pa_cdio.c when the io_query for registers is being
executed for(ioscan output):
Class I H/W Path Driver S/W State H/W Type Desc.
=========================================================
ba 0 16 bus_adapter CLAIMED BUS_NEXUS Core
I/O
Adptr
Allows attaching an external HP-PB card cage to a HSC to
HP-PB converter in a K Class system.
This patch prevents D200, D210 and D310 systems from
hanging/panicking when diagnostics are run.
DMA was not enabled before walking lower buses. This caused
the panic on boot.
PHKL_14069:
DMA was not enabled before walking lower buses which caused
a panic on boot whenever an external HP-PB card cage was
attached to a HSC to HP-PB converter in K Class systems.
PHKL_14764:
None
PHKL_13387:
vx_inode.h contains (among other things) definitions for
attribute layout. During one of the numerous integration
cycles with DFS we have put in a DFS-compatible data type
vxhyper_t (64 bit value). Unfortunately we overlooked the
disk layout impact (at that time there weren't any vxfs
filesystems with attributes). Now HP-Germany has deployed
a number of OmniStore products on 10.10 and are busy moving
over to 10.20. OmniStore makes extensive use of extended
attributes via DMAPI interface and most of those attributes
are direct.
PHKL_14747:
None
PHKL_14063:
Under some corner cases which involves kill -9 of background
processes, some vxfs meta buffers (map buffers) will be left
in a busy and dirty state. This leads to hang any process
which is directly or indirectly doing a buffer cache flush.
The fix is to add a flush procedure to deal with the meta
buffers via vx_logflush_thread.
PHKL_13201:
In the vx_olt_ilistadd() function, it is possible that the
primary ilist ip is not valid and only the replicate inode
is valid. We could panic with a data page fault if this
condition is not checked.
PHKL_17524:
The previous patch, PHKL_16639 did not set the "critical"
category tag, as appropriate for the defect fixed.
Resolution:
Added "critical" category tag to patch.
PHKL_16639:
The scheduler decides the system is thrashing in some
occations when pageout rate is low and free memory is
plenty and hence deactivates certain processes.
The fix is to adjust the thrashing conditions to
reflect the system workload more accurately.
PHKL_17046:
Since scsi1 did not set sense count to zero for
ABORT_IO replies, dis30 tried to get sense
data that caused the panic.
PHKL_16952:
In a hardware configuration, mirrored disks can be accessed
through primary/alternate fiber channel links. If the
primary link and the alternate link of a disk of the
mirrored pairs are down, the other disk should continue to
sending or receiving data. The problem is it fails to do
so and causes an I/O hang.
This patch will provide a temporary fix for this problem.
In this fix, the SCSI layer will retry the FC request as
long as teh FC sets a flag to ask for retrying the
request.
PHKL_15641:
An error in disc30 caused the error to go unreported, then
an error in disc3 resulted in the wrong error number being
returned.
The error can be reproduced by attempting to overwrite an
block on a WORM drive.
PHKL_15476:
Under sustained high data transfer volumes, Model 30/FC disk
arrays will sometimes return a higher than previously
observed consecutive number of Select Timeout errors. The
problem can be recreated with the hazard test tool disaster
test.
PHKL_14729:
All SCSI timeouts were set the same for all drives. We now
identify the MO drives and provide for longer timeouts for
these drives.
PHKL_14456:
DIOC_EXCLUSIVE ioctl on HP-PB fails with 'device busy' error
due to garbage contained in the un-initialized field
dsc->target->open_luns. Initialization of this field was
left out in d3get_target().
PHKL_13505:
An active request in disc3 driver could have a pointer to
either a struct buf or struct ioctlist. However, in
d3llioerr(), the pointer was always treated as pointing to
struct buf. Since struct ioctlist is much smaller than
struct buf, this pointer de-reference may cross the page
boundary if the pointer is actually pointing to struct
ioctlist and the structure happens to be located at the
end of a valid page. This will lead to a data page fault
panic if the following page is invalid.
PHKL_13023:
The caculation of physical block number for 512 bytes block
is incorrectly. To reproduce it, do the following:
dd if=file1 of=disk_raw_device bs=512
dd if=disk_raw_device of=file2 bs=512
diff file1 file2
PHKL_18123:
During I/O initialization, the GSC built-in FW SCSI
interface is located as a PA module and is put on
the PA native module device chain. When the device
is later claimed by WSIO c720 driver, it is linked
to the I/O tree and has its private data area
pointed to a WSIO node structure. A defect in the
pa_pass_thru() code erroneously assumes a device
found on the PA native module chain is a PA device
and deferences a native module structure field in
the wsio node structure. If the field happens to
be zero, the system panics with data page fault.
Resolution:
Remove code to avoid getting the wrong data structure.
PHKL_16875:
An HPMC error occurs when using an HSC FDDI card under
conditions of simultaneous heavy traffic and IO scans.
This defect is caused by the UPCIFIC chip of the card
placing an invalid address on the HSC bus. This results
in a bus timeout, leading to the HPMC. The solution to
this is to allow the device driver to register functions
to be called before and after an io scan. Additionally,
functionality is added to set the ESGSC+ bit in the
DINO 3 feature register, which sufficiently fixes the
problem in revision 2 HSC FDDI cards.
PHKL_15551:
I-cache pre-fetching beyond end of procedures creates
unnecessary load on the bus.
PHKL_14768:
None
PHKL_14554:
When the HSC100BT performance patch (PHKL_13045/PHKL_13794)
is installed on a heavily configured system (lots of I/O
cards), interrupts from the HSC100BT cards may be lost.
PHKL_13794:
The PCI cache line register is incorrectly initialized on
T600 systems, reflecting a cache-line size of 32 bytes
rather then the correct size of 64 bytes. This causes
the HSC FDDI driver to fail during "attach" on a T600.
PHKL_13045:
A single CPU was handling the interrupts from all the
GSCtoPCI cards.
PHKL_13870:
Incorrect values were being written to port I/O registers.
PHKL_14532:
When MP systems with large configurations have multiple
devices sharing the same interrupt bits, the following two
problems are found on HP-UX 11.00:
<1> interrupt handler is not called due to CPU checking
in the shared interrupt handler routine.
<2> shared interrupts are not distributed. As long as
the system has devices sharing interrupt bits with
other devices, the problem can appear on 100BT, FDDI,
ioscan. For example, configuring a system with more
than 15 IO devices (include FDDI, 100BT, FCMS) can
reproduce this problem.
PHKL_17700:
( SR: 4701408062 DTS: JAGaa43547 )
The Diag1 driver has been enhanced to return sub-vendor and
sub-system information.
Resolution:
Code was added to retrieve the sub-vendor and sub-system
information for PCI cards via PCI services. This is in
addition to the configuration information already provided.
PHKL_17040:
( SR: 4701402396 DTS: JAGaa22375 )
The Diag1 driver has been enhanced to provide diagnostic
support for PCI cards.
Resolution:
Code was added to retrieve the configuration information
for PCI cards via PCI services.
PHKL_17039:
This change support 64 bit registers on the V2500. The
fixes a problem seen by DST for Online Diags.
PHKL_15622:
The previous patch reserved resources needed for mapping PCI
memory mapped I/O (MMIO) by sizing base address registers on
PCI cards during boot. The MMIO measurement had a bug that
caused the measurement to be too large. In addition, 64 bit
base address registers were not sized (but needed to be).
These defects impact 64 bit systems only.
PHKL_15084:
The kernel panics when the system does MMIO for PCI-based
drivers exceeding 32 MB.
On a V class with either Lowfat, ATM or X.25 cards
installed on the PCI bus, the system will panic if any
of these drivers tries to map more than 32 MB of memory.
PHKL_15510:
Some large modules fail to load with the following
error message:
"Overrun of module DLT or long branch stub table
for module."
PHKL_15488:
Function was using a 32-bit return value for both 32- and
64-bit kernels. Value was set to scale with the kernel
type. Defect is only seen when Visualize EG or Visualize FX
graphics cards are installed on a 64-bit systems.
PHKL_14751:
None
PHKL_14606:
The ATM driver has a problem handling shared interrupts on a
heavily loaded system (with many ATM cards). To resolve
this, a new interface was added to enable ATM to access and
set the low level interrupt attributes.
PHKL_15485:
Initially only VISUALIZE-EG graphics were supported in
HP-UX 11.0. This patch adds support for VISUALIZE-FX
graphics.
PHKL_14806:
None
PHKL_13219:
A problem with the 64 bit graphics driver in the 11.00 64
bit kernel could result in incorrect X windows behavior,
system panics, or graphics console hangs if a monitor
type other than monitor type 1 is configured.
The monitor type can be seen and modified at the Firmware
Boot Console prompt before the kernel is booted. Monitor
type 1 (1280x1024 75Hz VESA) is the only monitor type
which will work reliably.
This problem does not exist on the 32 bit 11.00 kernel.
This patch will allow the use of all available monitor
types.
PHKL_14767:
None
PHKL_13551:
When a disk write fails, this will leave incorrect block
information in the inode. A subsequent truncation could
then attempt to free an unallocated block leading to
file system corruption, data loss and system panic.
PHKL_14749:
None
PHKL_14464:
Systems with low memory while an application tries to
read/write large chunks of data will panic. This is
because VxFS for performance reasons tries to perform
a direct I/O. In order to achieve this, the user stack
has to be grown to the amount of data requested for
read/write. In case vx_dio_iovec() is passed a negative
space id (meaning there is no free page left), there is
no check for a 0xffffffff (-1) space id. The fix was to
perform a useracc() to find out if the process has
permissions to write to the page or not. If it fails,
then do not perform the direct I/O and instead perform
a regular I/O.
NOTE:
---- After the fix, running the same application
on systems with low memory and davanced JFS to perform
huge read/write "should" fail with the following message:
"Pid xx received a SIGSEGV for stack growth failure.
Possible causes: insufficient memory or swap space,
or stack size exceeded maxssiz."
-- Where xx is the process id of the application
performing read/write system call.
PHKL_14426:
diag2 needs to stop using eqalloc to dynamically allocate
space for buffers used in PDC calls. It instead needs to
declare a global variable (data array), which will then be
allocated in golden memory, and use this for PDC calls.
This is data corruption because the data is written to the
wrong address. The data pattern will be the data returned
through r_addr from PDC. diag2 does handle the other buffes
(mem_addr) correctly. This problem only occurs on 64-bit
systems with >3.75GB.
SR:
1653208348 1653216093 1653221820 1653241182 1653245282
1653250050 1653250423 1653250472 1653253880 1653254326
1653254342 1653257337 1653257618 1653258434 1653258541
1653259937 1653263053 1653263541 1653264325 1653265975
1653266262 1653266270 1653268177 1653269258 1653273540
1653276105 1653280479 1653282350 1653291369 1653296335
1653299776 1653301614 1653301887 1653301929 4701371617
4701374264 4701374272 4701374538 4701374561 4701374579
4701374595 4701374645 4701374660 4701375501 4701375956
4701376053 4701376061 4701376079 4701376087 4701376202
4701376210 4701376277 4701376574 4701376764 4701376897
4701377572 4701377689 4701377770 4701378216 4701378307
4701378315 4701378323 4701378752 4701378943 4701378950
4701379354 4701379438 4701379537 4701379636 4701379651
4701379669 4701379677 4701379685 4701379693 4701380519
4701382135 4701382440 4701382465 4701382523 4701382531
4701383315 4701383802 4701384560 4701384586 4701385666
4701386680 4701387910 4701387928 4701388090 4701388355
4701388363 4701389833 4701390047 4701391698 4701392639
4701392647 4701392936 4701393710 4701394171 4701394882
4701394908 4701394916 4701394924 4701395095 4701395111
4701395327 4701398123 4701398198 4701398743 4701398909
4701399519 4701400226 4701400366 4701400671 4701400689
4701400705 4701400713 4701400721 4701401232 4701401406
4701401646 4701402396 4701402438 4701402552 4701404343
4701404475 4701405803 4701406140 4701406157 4701407239
4701407874 4701407890 4701408062 4701408401 4701409136
4701409144 4701409151 4701409508 4701409516 4701409607
4701410092 4701410100 4701410118 4701410290 4701410308
4701410316 4701413344 4701413948 4701414003 4701414250
4701414839 4701414847 4701416180 4701418194 4701418467
4701418871 4701421230 4701421560 4701422360 4701398008
4701423376 4701415208 4701427617 4701414037 4701424473
4701423772 4701427583 4701427591 4701428359 4701418582
4701423624 4701414839 4701415968 4701422378 4701420513
5003441675 4701422204 4701405738 4701423350 4701423947
4701423327 4701423970 4701423954 4701423962 4701424507
4701423632 4701424390 4701414441 4701414110 4701414052
4701423780 4701414128 4701416768 4701414110 4701407098
4701414045 4701428409 4701423509 4701422212 4701422295
4701422931 4701423335 4701419069 5003441147 4701420794
4701414847 4701408401 4701427617 5003360446 5003387404
5003425447 5003426437 5003428359 5003429654 5003431411
5003442384 5003443622 5003444125 5003444331 5003446427
5003455626 5003457333
Patch Files:
JournalFS.VXFS-PRG,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
/usr/include/sys/fs/vx_inode.h
/usr/include/sys/fs/vx_param.h
OS-Core.CORE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
/usr/conf/graf/gpu_data.h
/usr/conf/graf/graph3.h
/usr/conf/graf/ite.h
/usr/conf/graf/stirom.h
/usr/conf/h/buf.h
/usr/conf/h/debug.h
/usr/conf/h/dnlc.h
/usr/conf/h/fcntl.h
/usr/conf/h/file.h
/usr/conf/h/framebuf.h
/usr/conf/h/fss.h
/usr/conf/h/io.h
/usr/conf/h/malloc.h
/usr/conf/h/mman.h
/usr/conf/h/mp.h
/usr/conf/h/mtio.h
/usr/conf/h/pregion.h
/usr/conf/h/pstat.h
/usr/conf/h/region.h
/usr/conf/h/resource.h
/usr/conf/h/semglobal.h
/usr/conf/h/spinlock.h
/usr/conf/h/stat.h
/usr/conf/h/statvfs.h
/usr/conf/h/stdsyms.h
/usr/conf/h/ttrace.h
/usr/conf/h/unistd.h
/usr/conf/h/user.h
/usr/conf/h/vas.h
/usr/conf/h/vm_skiplist.h
/usr/conf/io/dma.h
/usr/conf/machine/cpu.h
/usr/conf/machine/hdl_pfdat.h
/usr/conf/machine/iodc_prf.h
/usr/conf/machine/locore.h
/usr/conf/machine/momd.h
/usr/conf/machine/param.h
/usr/conf/machine/pdc_rqsts.h
/usr/conf/machine/pde.h
/usr/conf/machine/spl.h
/usr/conf/sio/async.h
/usr/conf/wsio/pci.h
/usr/conf/wsio/wsio.h
ProgSupport.C-INC,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
/usr/include/machine/cpu.h
/usr/include/machine/iodc_prf.h
/usr/include/machine/locore.h
/usr/include/machine/momd.h
/usr/include/machine/param.h
/usr/include/machine/pdc_rqsts.h
/usr/include/machine/pde.h
/usr/include/machine/spl.h
/usr/include/sio/async.h
/usr/include/sys/buf.h
/usr/include/sys/debug.h
/usr/include/sys/dma.h
/usr/include/sys/dnlc.h
/usr/include/sys/fcntl.h
/usr/include/sys/file.h
/usr/include/sys/framebuf.h
/usr/include/sys/fss.h
/usr/include/sys/io.h
/usr/include/sys/malloc.h
/usr/include/sys/mman.h
/usr/include/sys/mp.h
/usr/include/sys/mtio.h
/usr/include/sys/pci.h
/usr/include/sys/pregion.h
/usr/include/sys/pstat.h
/usr/include/sys/region.h
/usr/include/sys/resource.h
/usr/include/sys/scsi_ctl.h
/usr/include/sys/semglobal.h
/usr/include/sys/spinlock.h
/usr/include/sys/stat.h
/usr/include/sys/statvfs.h
/usr/include/sys/stdsyms.h
/usr/include/sys/ttrace.h
/usr/include/sys/unistd.h
/usr/include/sys/user.h
/usr/include/sys/vas.h
/usr/include/sys/vm_skiplist.h
/usr/include/sys/wsio.h
AdvJournalFS.VXFS-ADV-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,
v=HP:
/usr/conf/lib/libdmapi.a(kdm_core.o)
/usr/conf/lib/libvxfs_adv.a(vx_dio.o)
/usr/conf/lib/libvxfs_adv.a(vx_kdmi.o)
JournalFS.VXFS-BASE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP:
/usr/conf/lib/libvxfs_base.a(vx_attr.o)
/usr/conf/lib/libvxfs_base.a(vx_bio1.o)
/usr/conf/lib/libvxfs_base.a(vx_bsdquota.o)
/usr/conf/lib/libvxfs_base.a(vx_config.o)
/usr/conf/lib/libvxfs_base.a(vx_dmstubs.o)
/usr/conf/lib/libvxfs_base.a(vx_doextop.o)
/usr/conf/lib/libvxfs_base.a(vx_fset.o)
/usr/conf/lib/libvxfs_base.a(vx_hpuxsubr.o)
/usr/conf/lib/libvxfs_base.a(vx_iclone.o)
/usr/conf/lib/libvxfs_base.a(vx_iflush.o)
/usr/conf/lib/libvxfs_base.a(vx_inode.o)
/usr/conf/lib/libvxfs_base.a(vx_itrunc.o)
/usr/conf/lib/libvxfs_base.a(vx_mount.o)
/usr/conf/lib/libvxfs_base.a(vx_oltmount.o)
/usr/conf/lib/libvxfs_base.a(vx_ted.o)
/usr/conf/lib/libvxfs_base.a(vx_tran.o)
/usr/conf/lib/libvxfs_base.a(vx_vfsops.o)
/usr/conf/lib/libvxfs_base.a(vx_vm.o)
/usr/conf/lib/libvxfs_base.a(vx_vnops.o)
/usr/conf/master.d/vxfs
OS-Core.CORE2-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP:
/usr/conf/lib/libdlkm.a(mod_obj.o)
/usr/conf/lib/libdlkm.a(mod_objmd.o)
/usr/conf/lib/libdlkm.a(modctl.o)
/usr/conf/lib/libdlkm.a(modinit.o)
/usr/conf/lib/libhp-ux.a(aio_subr.o)
/usr/conf/lib/libhp-ux.a(aio_syscall.o)
/usr/conf/lib/libhp-ux.a(asm_crash.o)
/usr/conf/lib/libhp-ux.a(asm_pdc_rqst.o)
/usr/conf/lib/libhp-ux.a(asm_pfail.o)
/usr/conf/lib/libhp-ux.a(asm_rv.o)
/usr/conf/lib/libhp-ux.a(asm_scall.o)
/usr/conf/lib/libhp-ux.a(asm_tlb.o)
/usr/conf/lib/libhp-ux.a(asm_tlb2_0.o)
/usr/conf/lib/libhp-ux.a(asm_utl.o)
/usr/conf/lib/libhp-ux.a(asm_vm.o)
/usr/conf/lib/libhp-ux.a(astropmon.o)
/usr/conf/lib/libhp-ux.a(async.o)
/usr/conf/lib/libhp-ux.a(cb_cdio.o)
/usr/conf/lib/libhp-ux.a(chassis_log.o)
/usr/conf/lib/libhp-ux.a(clock.o)
/usr/conf/lib/libhp-ux.a(cnx_p2p_bcopy.o)
/usr/conf/lib/libhp-ux.a(comm_utl.o)
/usr/conf/lib/libhp-ux.a(core_cdio.o)
/usr/conf/lib/libhp-ux.a(dev_config.o)
/usr/conf/lib/libhp-ux.a(diag1.o)
/usr/conf/lib/libhp-ux.a(diag2.o)
/usr/conf/lib/libhp-ux.a(disc3.o)
/usr/conf/lib/libhp-ux.a(disc30.o)
/usr/conf/lib/libhp-ux.a(dma_compat.o)
/usr/conf/lib/libhp-ux.a(dma_s700.o)
/usr/conf/lib/libhp-ux.a(dmem.o)
/usr/conf/lib/libhp-ux.a(dumpbuf.o)
/usr/conf/lib/libhp-ux.a(dumpdev.o)
/usr/conf/lib/libhp-ux.a(dumpsys.o)
/usr/conf/lib/libhp-ux.a(eisa_cdio.o)
/usr/conf/lib/libhp-ux.a(file_sys.o)
/usr/conf/lib/libhp-ux.a(floppy.o)
/usr/conf/lib/libhp-ux.a(framebuf.o)
/usr/conf/lib/libhp-ux.a(fssdefault.o)
/usr/conf/lib/libhp-ux.a(gateway.o)
/usr/conf/lib/libhp-ux.a(gio_lvl1.o)
/usr/conf/lib/libhp-ux.a(gio_lvl2.o)
/usr/conf/lib/libhp-ux.a(gio_node.o)
/usr/conf/lib/libhp-ux.a(gio_prop.o)
/usr/conf/lib/libhp-ux.a(gio_search.o)
/usr/conf/lib/libhp-ux.a(graph3.o)
/usr/conf/lib/libhp-ux.a(hdl_fault.o)
/usr/conf/lib/libhp-ux.a(hdl_init.o)
/usr/conf/lib/libhp-ux.a(hdl_mprotect.o)
/usr/conf/lib/libhp-ux.a(hdl_page_pool.o)
/usr/conf/lib/libhp-ux.a(hdl_policy.o)
/usr/conf/lib/libhp-ux.a(hdl_trans.o)
/usr/conf/lib/libhp-ux.a(hdl_uma_pa_page.o)
/usr/conf/lib/libhp-ux.a(ikepmon.o)
/usr/conf/lib/libhp-ux.a(init_main.o)
/usr/conf/lib/libhp-ux.a(intr_iface.o)
/usr/conf/lib/libhp-ux.a(io.o)
/usr/conf/lib/libhp-ux.a(io_forw.o)
/usr/conf/lib/libhp-ux.a(io_map.o)
/usr/conf/lib/libhp-ux.a(iodc_llio.o)
/usr/conf/lib/libhp-ux.a(iodc_prf.o)
/usr/conf/lib/libhp-ux.a(iomap.o)
/usr/conf/lib/libhp-ux.a(ite.o)
/usr/conf/lib/libhp-ux.a(ite1.o)
/usr/conf/lib/libhp-ux.a(ite1_sti.o)
/usr/conf/lib/libhp-ux.a(ivt_icept.o)
/usr/conf/lib/libhp-ux.a(ivt_intercept.o)
/usr/conf/lib/libhp-ux.a(kepd.o)
/usr/conf/lib/libhp-ux.a(kern_db.o)
/usr/conf/lib/libhp-ux.a(kern_dscrp.o)
/usr/conf/lib/libhp-ux.a(kern_exec.o)
/usr/conf/lib/libhp-ux.a(kern_exit.o)
/usr/conf/lib/libhp-ux.a(kern_fork.o)
/usr/conf/lib/libhp-ux.a(kern_mallo.o)
/usr/conf/lib/libhp-ux.a(kern_mman.o)
/usr/conf/lib/libhp-ux.a(kern_sig.o)
/usr/conf/lib/libhp-ux.a(kgdb_asm.o)
/usr/conf/lib/libhp-ux.a(kgdb_debug.o)
/usr/conf/lib/libhp-ux.a(kgdb_inet.o)
/usr/conf/lib/libhp-ux.a(kgdb_lock.o)
/usr/conf/lib/libhp-ux.a(kgdb_machine.o)
/usr/conf/lib/libhp-ux.a(kgdb_packet_input.o)
/usr/conf/lib/libhp-ux.a(kgdb_sonic.o)
/usr/conf/lib/libhp-ux.a(kgdb_stub.o)
/usr/conf/lib/libhp-ux.a(kgdb_system_lan.o)
/usr/conf/lib/libhp-ux.a(kgdb_system_spp2.o)
/usr/conf/lib/libhp-ux.a(kmetric.o)
/usr/conf/lib/libhp-ux.a(ktest.o)
/usr/conf/lib/libhp-ux.a(kthread_iface.o)
/usr/conf/lib/libhp-ux.a(ktracer.o)
/usr/conf/lib/libhp-ux.a(locore.o)
/usr/conf/lib/libhp-ux.a(lpmc.o)
/usr/conf/lib/libhp-ux.a(lw_scall.o)
/usr/conf/lib/libhp-ux.a(lwp_ldcws.o)
/usr/conf/lib/libhp-ux.a(lwp_sched.o)
/usr/conf/lib/libhp-ux.a(machdep.o)
/usr/conf/lib/libhp-ux.a(mem.o)
/usr/conf/lib/libhp-ux.a(mod_object.o)
/usr/conf/lib/libhp-ux.a(mp.o)
/usr/conf/lib/libhp-ux.a(mt_prop.o)
/usr/conf/lib/libhp-ux.a(onyxe.o)
/usr/conf/lib/libhp-ux.a(pa_ccio.o)
/usr/conf/lib/libhp-ux.a(pa_ccio_psm.o)
/usr/conf/lib/libhp-ux.a(pa_cdio.o)
/usr/conf/lib/libhp-ux.a(pa_fio.o)
/usr/conf/lib/libhp-ux.a(pa_generic_psm.o)
/usr/conf/lib/libhp-ux.a(pa_gio.o)
/usr/conf/lib/libhp-ux.a(pa_legacy_psm.o)
/usr/conf/lib/libhp-ux.a(pa_lvl1.o)
/usr/conf/lib/libhp-ux.a(pa_map.o)
/usr/conf/lib/libhp-ux.a(pa_pdk_stub.o)
/usr/conf/lib/libhp-ux.a(pa_snakes.o)
/usr/conf/lib/libhp-ux.a(pc_fdc.o)
/usr/conf/lib/libhp-ux.a(pc_floppy.o)
/usr/conf/lib/libhp-ux.a(pci_debug.o)
/usr/conf/lib/libhp-ux.a(pdc_rqst.o)
/usr/conf/lib/libhp-ux.a(pdk_callout.o)
/usr/conf/lib/libhp-ux.a(pdk_ptrace.o)
/usr/conf/lib/libhp-ux.a(pdk_swtch.o)
/usr/conf/lib/libhp-ux.a(pik_stub.o)
/usr/conf/lib/libhp-ux.a(pm_callout.o)
/usr/conf/lib/libhp-ux.a(pm_clockint.o)
/usr/conf/lib/libhp-ux.a(pm_config.o)
/usr/conf/lib/libhp-ux.a(pm_context.o)
/usr/conf/lib/libhp-ux.a(pm_core.o)
/usr/conf/lib/libhp-ux.a(pm_gang.o)
/usr/conf/lib/libhp-ux.a(pm_policy.o)
/usr/conf/lib/libhp-ux.a(pm_proc.o)
/usr/conf/lib/libhp-ux.a(pm_procdup.o)
/usr/conf/lib/libhp-ux.a(pm_ptrace.o)
/usr/conf/lib/libhp-ux.a(pm_resource.o)
/usr/conf/lib/libhp-ux.a(pm_rtsched.o)
/usr/conf/lib/libhp-ux.a(pm_sendsig.o)
/usr/conf/lib/libhp-ux.a(pm_signal.o)
/usr/conf/lib/libhp-ux.a(pm_sigq.o)
/usr/conf/lib/libhp-ux.a(pm_swtch.o)
/usr/conf/lib/libhp-ux.a(pm_threads.o)
/usr/conf/lib/libhp-ux.a(pm_time.o)
/usr/conf/lib/libhp-ux.a(pm_timers.o)
/usr/conf/lib/libhp-ux.a(proc_iface.o)
/usr/conf/lib/libhp-ux.a(proc_man.o)
/usr/conf/lib/libhp-ux.a(psi.o)
/usr/conf/lib/libhp-ux.a(pstat.o)
/usr/conf/lib/libhp-ux.a(rdb_com.o)
/usr/conf/lib/libhp-ux.a(rdb_com_lan.o)
/usr/conf/lib/libhp-ux.a(rdb_lan.o)
/usr/conf/lib/libhp-ux.a(rdb_mp.o)
/usr/conf/lib/libhp-ux.a(rdb_rs232.o)
/usr/conf/lib/libhp-ux.a(resume.o)
/usr/conf/lib/libhp-ux.a(rm_common.o)
/usr/conf/lib/libhp-ux.a(rw_lock.o)
/usr/conf/lib/libhp-ux.a(s_hil_code.o)
/usr/conf/lib/libhp-ux.a(sapic_psm.o)
/usr/conf/lib/libhp-ux.a(scsi1.o)
/usr/conf/lib/libhp-ux.a(scsi_c720.o)
/usr/conf/lib/libhp-ux.a(scsi_ctl.o)
/usr/conf/lib/libhp-ux.a(scsi_disk.o)
/usr/conf/lib/libhp-ux.a(scsi_tape.o)
/usr/conf/lib/libhp-ux.a(sem_beta.o)
/usr/conf/lib/libhp-ux.a(sem_utl.o)
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/usr/conf/lib/libprm.a(kern_fss.o)
/usr/conf/lib/libufs.a(ufs_bmap.o)
/usr/conf/lib/libufs.a(ufs_inode.o)
/usr/conf/lib/libufs.a(ufs_vnops.o)
OS-Core.KERN2-RUN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP:
/usr/conf/master.d/core-hpux
/usr/conf/master.d/fs-tune
/usr/conf/master.d/pmon
/usr/conf/master.d/scsi-tune
/usr/conf/master.d/vm-tune
/usr/conf/space.h.d/core-hpux.h
/usr/conf/space.h.d/fs-tune.h
/usr/conf/space.h.d/fss-space.h
/usr/conf/space.h.d/scsi-tune.h
/usr/conf/space.h.d/vm-tune.h
what(1) Output:
JournalFS.VXFS-PRG,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
/usr/include/sys/fs/vx_inode.h:
vx_inode.h $Date: 1998/12/15 09:26:35 $Revision: r11
ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205
)
vx_inode.h: $Revision: 1.10.106.4 $ $Date: 97/09/29
20:24:52 $
src/kernel/vxfs/vx_inode.h 2.44 15 Oct 1996 16:31:55
- */
fshp:src/kernel/vxfs/vx_inode.h 2.44
/usr/include/sys/fs/vx_param.h:
vx_param.h $Date: 1998/06/22 11:48:52 $Revision: r11
ros/3 PATCH_11.00 (PHKL_15705)
OS-Core.CORE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
/usr/conf/graf/gpu_data.h:
gpu_data.h $Date: 1998/06/22 16:31:32 $Revision: r11
ros/2 PATCH_11.00 (PHKL_15485) */
/usr/conf/graf/graph3.h:
graph3.h $Date: 1998/06/22 16:31:32 $Revision: r11ro
s/1 PATCH_11.00 (PHKL_15485) */
/usr/conf/graf/ite.h:
ite.h $Date: 1998/06/22 16:31:32 $Revision: r11ros/2
PATCH_11.00 (PHKL_15485) */
/usr/conf/graf/stirom.h:
stirom.h $Date: 1998/06/22 16:31:32 $Revision: r11ro
s/3 PATCH_11.00 (PHKL_15485) */
/usr/conf/h/buf.h:
buf.h $Date: 1999/03/04 08:42:03 $Revision: r11ros/4
PATCH_11.00 (PHKL_17869) */
/usr/conf/h/debug.h:
debug.h $Date: 1999/05/10 00:32:28 $Revision: r11ros
/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/h/dnlc.h:
dnlc.h $Date: 1998/12/15 09:17:49 $Revision: r11ros/
cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/h/fcntl.h:
fcntl.h $Date: 98/02/19 11:10:47 $ $Revision: 1.34.1
06.4 $ PATCH_11.00 (PHKL_14174)
/usr/conf/h/file.h:
file.h $Date: 1998/08/21 01:59:51 $Revision: r11ros/
5 PATCH_11.00 (PHKL_16182)
/usr/conf/h/framebuf.h:
framebuf.h $Date: 1998/06/17 17:01:53 $Revision: r11
ros/1 PATCH_11.00 (PHKL_15485) */
/usr/conf/h/fss.h:
fss.h $Date: 1998/12/15 09:17:52 $Revision: r11ros/c
up_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205) */
/usr/conf/h/io.h:
io.h $Date: 1998/12/15 09:17:56 $Revision: r11ros/cu
p_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/h/malloc.h:
malloc.h $Date: 1998/12/15 09:18:06 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/h/mman.h:
$Revision: 1.19.106.4 $ */
mman.h $Date: 98/02/19 11:13:37 $ $Revision: 1.19.10
6.4 $ PATCH_11.00 (PHKL_14174)
/usr/conf/h/mp.h:
mp.h $Date: 1999/05/28 12:03:15 $Revision: r11ros/cu
p_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/h/mtio.h:
mtio.h $Date: 1998/12/09 15:04:53 $Revision: r11ros/
cup_ros_ep1_pb/1 PATCH_11.00 (PHKL_17091)
/usr/conf/h/pregion.h:
pregion.h $Date: 1998/12/15 09:18:09 $Revision: r11r
os/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/conf/h/pstat.h:
pstat.h $Date: 1998/08/13 17:08:08 $Revision: r11ros
/5 PATCH_11.00 (PHKL_16182)
/usr/conf/h/region.h:
region.h $Date: 1998/04/06 16:41:18 $Revision: r11ro
s/2 PATCH_11.00 (PHKL_12965)
/usr/conf/h/resource.h:
resource.h $Date: 1998/06/22 11:47:27 $Revision: r11
ros/4 PATCH_11.00 (PHKL_15705)
/usr/conf/h/semglobal.h:
semglobal.h $Date: 1999/05/10 00:32:30 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/h/spinlock.h:
spinlock.h $Date: 1998/12/15 09:18:22 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/h/stat.h:
stat.h $Date: 98/02/19 11:13:43 $ $Revision: 1.36.10
6.3 $ PATCH_11.00 (PHKL_14174)
/usr/conf/h/statvfs.h:
statvfs.h: $Revision: 1.9.106.3 $ $Date: 98/02/19 11
:13:45 $
statvfs.h $Date: 98/02/19 11:13:45 $ $Revision: 1.9.
106.3 $ PATCH_11.00 (PHKL_14174)
/usr/conf/h/stdsyms.h:
stdsyms.h $Date: 98/02/19 11:13:47 $ $Revision: 1.13
.106.4 $ PATCH_11.00 (PHKL_14174)
/usr/conf/h/ttrace.h:
ttrace.h $Date: 1998/12/15 09:18:25 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/h/unistd.h:
unistd.h $Date: 98/02/19 11:13:49 $ $Revision: 1.27.
106.7 $ PATCH_11.00 (PHKL_14174)
/usr/conf/h/user.h:
user.h $Date: 1998/12/15 09:18:37 $Revision: r11ros/
cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/conf/h/vas.h:
vas.h $Date: 1998/12/15 09:18:42 $Revision: r11ros/c
up_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/h/vm_skiplist.h:
vm_skiplist.h $Date: 1998/04/06 16:41:25 $Revision:
r11ros/1 PATCH_11.00 (PHKL_12965)
/usr/conf/io/dma.h:
dma.h $Date: 1999/05/10 00:32:54 $Revision: r11ros/c
up_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/machine/cpu.h:
cpu.h $Date: 1999/05/10 00:35:12 $Revision: r11ros/c
up_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/machine/hdl_pfdat.h:
hdl_pfdat.h $Date: 1999/05/28 12:03:15 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/machine/iodc_prf.h:
iodc_prf.h $Date: 1999/05/29 16:20:51 $Revision: r11
ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543
)
/usr/conf/machine/locore.h:
locore.h $Date: 1999/05/10 00:35:42 $Revision: r11ro
s/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/machine/momd.h:
momd.h $Date: 1998/06/12 07:54:40 $Revision: r11ros/
2 PATCH_11.00 (PHKL_15510)
/usr/conf/machine/param.h:
param.h $Date: 1998/12/15 09:20:49 $Revision: r11ros
/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/machine/pdc_rqsts.h:
pdc_rqsts.h $Date: 1999/05/10 00:35:58 $Revision: r1
1ros/cup_ros_ep3_pb/10 PATCH_11.00 (PHKL_185
43)
/usr/conf/machine/pde.h:
pde.h $Date: 1999/04/28 11:41:11 $Revision: r11ros/4
PATCH_11.00 (PHKL_18295)
/usr/conf/machine/spl.h:
spl.h $Date: 1999/05/10 00:36:11 $Revision: r11ros/c
up_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/sio/async.h:
async.h $Date: 1999/05/10 00:36:59 $Revision: r11ros
/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/wsio/pci.h:
pci.h $Date: 1999/05/10 00:39:33 $Revision: r11ros/c
up_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/wsio/wsio.h:
wsio.h $Date: 1999/05/10 00:40:02 $Revision: r11ros/
cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
ProgSupport.C-INC,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
/usr/include/sys/buf.h:
buf.h $Date: 1999/03/04 08:42:03 $Revision: r11ros/4
PATCH_11.00 (PHKL_17869) */
/usr/include/sys/debug.h:
debug.h $Date: 1999/05/10 00:32:28 $Revision: r11ros
/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/include/sys/dnlc.h:
dnlc.h $Date: 1998/12/15 09:17:49 $Revision: r11ros/
cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/include/sys/fcntl.h:
fcntl.h $Date: 98/02/19 11:10:47 $ $Revision: 1.34.1
06.4 $ PATCH_11.00 (PHKL_14174)
/usr/include/sys/file.h:
file.h $Date: 1998/08/21 01:59:51 $Revision: r11ros/
5 PATCH_11.00 (PHKL_16182)
/usr/include/sys/framebuf.h:
framebuf.h $Date: 1998/06/17 17:01:53 $Revision: r11
ros/1 PATCH_11.00 (PHKL_15485) */
/usr/include/sys/fss.h:
fss.h $Date: 1998/12/15 09:17:52 $Revision: r11ros/c
up_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205) */
/usr/include/sys/io.h:
io.h $Date: 1998/12/15 09:17:56 $Revision: r11ros/cu
p_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/include/sys/malloc.h:
malloc.h $Date: 1998/12/15 09:18:06 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/include/sys/mman.h:
$Revision: 1.19.106.4 $ */
mman.h $Date: 98/02/19 11:13:37 $ $Revision: 1.19.10
6.4 $ PATCH_11.00 (PHKL_14174)
/usr/include/sys/mp.h:
mp.h $Date: 1999/05/28 12:03:15 $Revision: r11ros/cu
p_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/include/sys/mtio.h:
mtio.h $Date: 1998/12/09 15:04:53 $Revision: r11ros/
cup_ros_ep1_pb/1 PATCH_11.00 (PHKL_17091)
/usr/include/sys/pregion.h:
pregion.h $Date: 1998/12/15 09:18:09 $Revision: r11r
os/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/include/sys/pstat.h:
pstat.h $Date: 1998/08/13 17:08:08 $Revision: r11ros
/5 PATCH_11.00 (PHKL_16182)
/usr/include/sys/region.h:
region.h $Date: 1998/04/06 16:41:18 $Revision: r11ro
s/2 PATCH_11.00 (PHKL_12965)
/usr/include/sys/resource.h:
resource.h $Date: 1998/06/22 11:47:27 $Revision: r11
ros/4 PATCH_11.00 (PHKL_15705)
/usr/include/sys/semglobal.h:
semglobal.h $Date: 1999/05/10 00:32:30 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/include/sys/spinlock.h:
spinlock.h $Date: 1998/12/15 09:18:22 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/include/sys/stat.h:
stat.h $Date: 98/02/19 11:13:43 $ $Revision: 1.36.10
6.3 $ PATCH_11.00 (PHKL_14174)
/usr/include/sys/statvfs.h:
statvfs.h: $Revision: 1.9.106.3 $ $Date: 98/02/19 11
:13:45 $
statvfs.h $Date: 98/02/19 11:13:45 $ $Revision: 1.9.
106.3 $ PATCH_11.00 (PHKL_14174)
/usr/include/sys/stdsyms.h:
stdsyms.h $Date: 98/02/19 11:13:47 $ $Revision: 1.13
.106.4 $ PATCH_11.00 (PHKL_14174)
/usr/include/sys/ttrace.h:
ttrace.h $Date: 1998/12/15 09:18:25 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/include/sys/unistd.h:
unistd.h $Date: 98/02/19 11:13:49 $ $Revision: 1.27.
106.7 $ PATCH_11.00 (PHKL_14174)
/usr/include/sys/user.h:
user.h $Date: 1998/12/15 09:18:37 $Revision: r11ros/
cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/include/sys/vas.h:
vas.h $Date: 1998/12/15 09:18:42 $Revision: r11ros/c
up_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/include/sys/vm_skiplist.h:
vm_skiplist.h $Date: 1998/04/06 16:41:25 $Revision:
r11ros/1 PATCH_11.00 (PHKL_12965)
/usr/include/sys/dma.h:
dma.h $Date: 1999/05/10 00:32:54 $Revision: r11ros/c
up_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/include/machine/cpu.h:
cpu.h $Date: 1999/05/10 00:35:12 $Revision: r11ros/c
up_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/include/machine/iodc_prf.h:
iodc_prf.h $Date: 1999/05/29 16:20:51 $Revision: r11
ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543
)
/usr/include/machine/locore.h:
locore.h $Date: 1999/05/10 00:35:42 $Revision: r11ro
s/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/include/machine/momd.h:
momd.h $Date: 1998/06/12 07:54:40 $Revision: r11ros/
2 PATCH_11.00 (PHKL_15510)
/usr/include/machine/param.h:
param.h $Date: 1998/12/15 09:20:49 $Revision: r11ros
/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/include/machine/pdc_rqsts.h:
pdc_rqsts.h $Date: 1999/05/10 00:35:58 $Revision: r1
1ros/cup_ros_ep3_pb/10 PATCH_11.00 (PHKL_185
43)
/usr/include/machine/pde.h:
pde.h $Date: 1999/04/28 11:41:11 $Revision: r11ros/4
PATCH_11.00 (PHKL_18295)
/usr/include/machine/spl.h:
spl.h $Date: 1999/05/10 00:36:11 $Revision: r11ros/c
up_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/include/sio/async.h:
async.h $Date: 1999/05/10 00:36:59 $Revision: r11ros
/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/include/sys/pci.h:
pci.h $Date: 1999/05/10 00:39:33 $Revision: r11ros/c
up_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/include/sys/scsi_ctl.h:
scsi_ctl.h $Date: 1999/05/10 00:39:56 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/include/sys/wsio.h:
wsio.h $Date: 1999/05/10 00:40:02 $Revision: r11ros/
cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
AdvJournalFS.VXFS-ADV-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,
v=HP:
/usr/conf/lib/libdmapi.a(kdm_core.o):
kdm_core.c $Date: 1999/02/24 07:40:21 $Revision: r11
ros/5 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libvxfs_adv.a(vx_dio.o):
vx_dio.c $Date: 1999/05/10 00:38:37 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libvxfs_adv.a(vx_kdmi.o):
vx_kdmi.c $Date: 1998/11/03 08:00:12 $Revision: r11r
os/cup_ros_ep1_pb/1 PATCH_11.00 (PHKL_16819)
JournalFS.VXFS-BASE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP:
/usr/conf/master.d/vxfs:
vxfs $Date: 1999/04/01 06:42:14 $Revision: r11ros/1
PATCH_11.00 (PHKL_18141)
/usr/conf/lib/libvxfs_base.a(vx_attr.o):
vx_attr.c $Date: 1998/12/15 09:25:56 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_bio1.o):
vx_bio1.c $Date: 1998/07/10 07:06:15 $Revision: r11r
os/9 PATCH_11.00 (PHKL_15910)
/usr/conf/lib/libvxfs_base.a(vx_bsdquota.o):
vx_bsdquota.c $Date: 1998/12/15 09:26:00 $Revision:
r11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17
205)
/usr/conf/lib/libvxfs_base.a(vx_config.o):
vx_config.c $Date: 1999/04/01 06:44:48 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_18141)
/usr/conf/lib/libvxfs_base.a(vx_dmstubs.o):
vx_dmstubs.c $Date: 1998/11/03 08:00:22 $Revision: r
11ros/cup_ros_ep1_pb/1 PATCH_11.00 (PHKL_168
19)
/usr/conf/lib/libvxfs_base.a(vx_doextop.o):
vx_doextop.c $Date: 1998/12/15 09:26:12 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libvxfs_base.a(vx_fset.o):
vx_fset.c $Date: 1998/12/15 09:26:20 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_hpuxsubr.o):
vx_hpuxsubr.c $Date: 1999/05/10 00:38:40 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libvxfs_base.a(vx_iclone.o):
vx_iclone.c $Date: 1998/12/15 09:26:23 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libvxfs_base.a(vx_iflush.o):
vx_iflush.c $Date: 1999/05/10 11:20:55 $Revision: r1
1ros/9 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libvxfs_base.a(vx_inode.o):
vx_inode.c $Date: 1999/06/03 00:38:42 $Revision: r11
ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libvxfs_base.a(vx_itrunc.o):
vx_itrunc.c $Date: 1999/04/20 15:14:18 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libvxfs_base.a(vx_mount.o):
vx_mount.c $Date: 1998/06/22 11:48:50 $Revision: r11
ros/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libvxfs_base.a(vx_oltmount.o):
vx_oltmount.c $Date: 1999/02/24 10:18:13 $Revision:
r11ros/7 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libvxfs_base.a(vx_ted.o):
vx_ted.c $Date: 1998/12/15 09:26:46 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_tran.o):
vx_tran.c $Date: 1998/07/10 11:09:56 $Revision: r11r
os/3 PATCH_11.00 (PHKL_15910)
/usr/conf/lib/libvxfs_base.a(vx_vfsops.o):
vx_vfsops.c $Date: 1999/05/10 11:02:46 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libvxfs_base.a(vx_vm.o):
vx_vm.c $Date: 1998/12/15 09:26:50 $Revision: r11ros
/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_vnops.o):
vx_vnops.c $Date: 1999/03/08 10:13:26 $Revision: r11
ros/13 PATCH_11.00 (PHKL_17869)
OS-Core.CORE2-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP:
/usr/conf/lib/libhp-ux.a(file_sys.o):
file_sys.c $Date: 1998/04/06 16:40:55 $Revision: r11
ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(io.o):
io.c $Date: 1999/05/10 00:32:12 $Revision: r11ros/cu
p_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pci_debug.o):
pci_debug.c $Date: 1999/05/10 00:32:15 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(proc_man.o):
ttrace_private.h $Date: 1998/12/15 09:21:36 $Revisio
n: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL
_17205)
proc_man.c $Date: 1998/12/15 09:17:38 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(virt_mem.o):
virt_mem.c $Date: 1999/01/08 17:16:14 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17258
)
/usr/conf/lib/libhp-ux.a(vxfs.o):
vxfs.c $Date: 1998/04/06 16:40:58 $Revision: r11ros/
1 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(wsio_drivers.o):
wsio_drivers.c $Date: 1999/05/10 00:32:18 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(wsio_scsi.o):
scsi_c720.c $Date: 1999/05/10 00:39:48 $Revision: r1
1ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_1854
3)
wsio_scsi.c $Date: 1998/12/15 09:17:42 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libdlkm.a(mod_obj.o):
mod_obj.c $Date: 1998/06/12 12:47:47 $Revision: r11r
os/2 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libdlkm.a(modctl.o):
modctl.c $Date: 1998/06/12 12:49:14 $Revision: r11ro
s/1 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libdlkm.a(modinit.o):
modinit.c $Date: 1998/06/12 12:23:36 $Revision: r11r
os/1 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libhp-ux.a(framebuf.o):
framebuf.c $Date: 1998/06/17 17:01:53 $Revision: r11
ros/4 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(graph3.o):
graph3.c $Date: 1998/06/17 17:01:53 $Revision: r11ro
s/3 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(ite.o):
ite.c $Date: 1998/06/17 17:01:53 $Revision: r11ros/1
PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(ite1.o):
ite1.c $Date: 1998/06/17 17:01:53 $Revision: r11ros/
2 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(ite1_sti.o):
ite1_sti.c $Date: 1998/06/17 17:01:53 $Revision: r11
ros/2 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(s_hil_code.o):
s_hil_code.c $Date: 1999/05/10 00:32:21 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(stirom.o):
stirom.c $Date: 1998/06/17 17:01:53 $Revision: r11ro
s/6 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(cb_cdio.o):
cb_cdio.c $Date: 1999/05/10 00:32:36 $Revision: r11r
os/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(chassis_log.o):
chassis_log.c $Date: 1999/05/10 00:32:44 $Revision:
r11ros/cup_ros_ep3_pb/11 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(core_cdio.o):
core_cdio.c $Date: 1999/05/10 00:32:49 $Revision: r1
1ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(dev_config.o):
dev_config.c $Date: 98/02/05 18:32:43 $ $Revision
: 1.6.106.5 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(diag2.o):
diag2.c $Date: 1999/05/10 00:32:52 $Revision: r11ros
/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(dma_compat.o):
dma_compat.c $Date: 1999/05/10 00:32:57 $Revision: r
11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(gio_lvl1.o):
gio_lvl1.c $Date: 1999/05/10 00:33:02 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_lvl2.o):
gio_lvl2.c $Date: 1999/05/10 00:33:05 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_node.o):
gio_node.c $Date: 1999/05/10 00:33:07 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_prop.o):
gio_prop.c $Date: 1999/05/10 00:33:10 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_search.o):
gio_search.c $Date: 1999/05/10 00:33:12 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(intr_iface.o):
intr_iface.c $Date: 1999/05/10 00:33:18 $Revision: r
11ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(io_forw.o):
io_forw.c $Date: 1999/05/10 00:33:25 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(mod_object.o):
mod_object.c $Date: 1999/05/10 00:33:33 $Revision: r
11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(mt_prop.o):
mt_prop.c $Date: 97/12/12 12:05:10 $ $Revision: 1.8.
106.3 $ PATCH_11.00 (PHKL_13552)
/usr/conf/lib/libhp-ux.a(pa_ccio.o):
pa_ccio.c $Date: 1999/05/10 00:33:46 $Revision: r11r
os/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_ccio_psm.o):
pa_ccio_psm.c $Date: 1999/05/10 00:33:48 $Revision:
r11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pa_cdio.o):
pa_cdio.c $Date: 1999/05/10 00:33:51 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_fio.o):
pa_fio.c $Date: 1999/05/10 00:33:53 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_generic_psm.o):
pa_generic_psm.c $Date: 1999/05/10 00:33:56 $Revisio
n: r11ros/cup_ros_ep3_pb/9 PATCH_11.00 (PHKL
_18543)
/usr/conf/lib/libhp-ux.a(pa_gio.o):
pa_gio.c $Date: 1999/05/10 00:33:59 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_legacy_psm.o):
pa_legacy_psm.c $Date: 1999/05/10 00:34:01 $Revision
: r11ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_
18543)
/usr/conf/lib/libhp-ux.a(pa_lvl1.o):
pa_lvl1.c $Date: 1999/05/10 00:34:04 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_map.o):
pa_map.c $Date: 1999/05/10 00:34:06 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_pdk_stub.o):
pa_pdk_stub.c $Date: 1999/05/10 00:34:09 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pa_snakes.o):
pa_snakes.c $Date: 1999/05/10 00:34:14 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(pik_stub.o):
pik_stub.c $Date: 1999/05/10 00:34:27 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(psi.o):
psi.c $Date: 1999/05/10 00:34:33 $Revision: r11ros/c
up_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(sapic_psm.o):
sapic_psm.c $Date: 1999/05/10 00:34:46 $Revision: r1
1ros/cup_ros_ep3_pb/10 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(kgdb_asm.o):
kgdb_asm.s $Date: 1998/04/06 16:41:29 $Revision: r11
ros/3 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_debug.o):
kgdb_debug.c $Date: 1998/04/06 16:41:36 $Revision: r
11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_inet.o):
kgdb_inet.c $Date: 1998/12/15 09:19:02 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kgdb_lock.o):
kgdb_lock.s $Date: 1998/04/06 16:41:48 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_machine.o):
kgdb_machine.c $Date: 1998/12/15 09:19:05 $Revision:
r11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1
7205)
/usr/conf/lib/libhp-ux.a(kgdb_packet_input.o):
kgdb_packet_input.c $Date: 1998/04/06 16:41:54 $Revi
sion: r11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_sonic.o):
kgdb_sonic.c $Date: 1998/12/15 09:19:09 $Revision: r
11ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(kgdb_stub.o):
kgdb_stub.c $Date: 1998/12/15 09:19:13 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kgdb_system_lan.o):
kgdb_system_lan.c $Date: 1998/04/06 16:42:03 $Revisi
on: r11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_system_spp2.o):
kgdb_system_spp2.c $Date: 1998/04/06 16:42:06 $Revis
ion: r11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(ktest.o):
ktest.c $Date: 1999/05/10 00:34:53 $Revision: r11ros
/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(asm_crash.o):
asm_crash.s $Date: 1998/06/22 11:47:30 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(asm_pdc_rqst.o):
asm_pdc_rqst.s $Date: 1998/06/22 11:47:38 $Revision:
r11ros/1 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(asm_pfail.o):
asm_pfail.s $Date: 1998/12/15 09:19:21 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(asm_rv.o):
asm_rv.s $Date: 1998/12/15 09:19:24 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(asm_scall.o):
asm_scall.s $Date: 1998/12/30 18:45:45 $Revision: r1
1ros/cup_ros_ep1_pb/6 PATCH_11.00 (PHKL_1725
8)
/usr/conf/lib/libhp-ux.a(asm_tlb.o):
asm_tlb.s $Date: 1999/05/10 00:34:56 $Revision: r11r
os/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(asm_tlb2_0.o):
asm_tlb2_0.s $Date: 1999/05/10 00:34:59 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(asm_utl.o):
asm_utl.s $Date: 1999/05/10 00:35:01 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(asm_vm.o):
asm_vm.s $Date: 1999/05/10 00:35:04 $Revision: r11ro
s/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(astropmon.o):
astropmon.c $Date: 1999/05/10 00:35:07 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(clock.o):
clock.c $Date: 1999/05/10 00:35:09 $Revision: r11ros
/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(dmem.o):
dmem.c $Date: 1999/02/01 11:54:25 $Revision: r11ros/
cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17258)
/usr/conf/lib/libhp-ux.a(dumpbuf.o):
dumpbuf.c $Date: 1999/06/09 22:24:52 $Revision: r11r
os/cup_ros_ep3_pb/1 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(dumpdev.o):
dumpdev.c $Date: 1999/05/10 00:35:14 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(dumpsys.o):
dumpsys.c $Date: 1999/06/09 22:24:52 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(gateway.o):
gateway.s $Date: 1999/01/11 13:32:13 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17258)
/usr/conf/lib/libhp-ux.a(hdl_fault.o):
hdl_fault.c $Date: 1999/04/28 11:41:31 $Revision: r1
1ros/8 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(hdl_init.o):
hdl_init.c $Date: 1998/12/15 09:19:51 $Revision: r11
ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(hdl_mprotect.o):
hdl_mprotect.c $Date: 1998/12/15 09:19:54 $Revision:
r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_1
7205)
/usr/conf/lib/libhp-ux.a(hdl_page_pool.o):
hdl_page_pool.c $Date: 1998/04/06 16:42:29 $Revision
: r11ros/1 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(hdl_policy.o):
hdl_policy.c $Date: 1999/05/10 00:35:23 $Revision: r
11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(hdl_trans.o):
hdl_trans.c $Date: 1999/05/10 00:35:25 $Revision: r1
1ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(hdl_uma_pa_page.o):
hdl_uma_pa_page.c $Date: 1999/05/10 00:35:29 $Revisi
on: r11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHK
L_18543)
/usr/conf/lib/libhp-ux.a(ikepmon.o):
ikepmon.c $Date: 1999/05/10 00:35:31 $Revision: r11r
os/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(io_map.o):
io_map.c $Date: 1999/04/28 11:40:24 $Revision: r11ro
s/3 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(iodc_llio.o):
iodc_llio.s $Date: 1999/05/29 16:20:51 $Revision: r1
1ros/cup_ros_ep3_pb/1 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(iodc_prf.o):
iodc_prf.c $Date: 1999/06/09 22:24:52 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(ivt_icept.o):
ivt_icept.s $Date: 1998/06/22 11:47:53 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(locore.o):
locore.s $Date: 1999/05/10 00:35:44 $Revision: r11ro
s/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(lpmc.o):
lpmc.c $Date: 1998/12/15 09:20:13 $Revision: r11ros/
cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(lw_scall.o):
lw_scall.s $Date: 1998/12/15 09:20:17 $Revision: r11
ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(lwp_ldcws.o):
lwp_ldcws.s $Date: 1998/12/15 09:20:22 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(machdep.o):
machdep.c $Date: 1999/06/01 15:09:19 $Revision: r11r
os/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(mem.o):
mem.c $Date: 1998/06/22 11:48:01 $Revision: r11ros/4
PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libdlkm.a(mod_objmd.o):
mod_objmd.c $Date: 1998/06/12 07:54:40 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libhp-ux.a(mp.o):
mp.c $Date: 1998/12/15 09:20:37 $Revision: r11ros/cu
p_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(onyxe.o):
onyxe.c $Date: 1998/12/15 09:20:40 $Revision: r11ros
/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
onyxe 1.0 (unsupported)
/usr/conf/lib/libhp-ux.a(pdc_rqst.o):
pdc_rqst.c $Date: 1999/05/10 00:35:55 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(pdk_callout.o):
pdk_callout.c $Date: 1999/05/11 16:28:33 $Revision:
r11ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pdk_ptrace.o):
ttrace_private.h $Date: 1998/12/15 09:21:36 $Revisio
n: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL
_17205)
pdk_ptrace.c $Date: 1998/12/15 09:21:03 $Revision: r
11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(pdk_swtch.o):
pdk_swtch.c $Date: 98/02/05 18:48:20 $ $Revision: 1.
2.106.3 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(pm_sendsig.o):
pm_sendsig.c $Date: 1998/12/15 09:21:08 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(resume.o):
resume.s $Date: 1998/12/15 09:21:13 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(rm_common.o):
rm_common.c $Date: 1999/05/10 00:36:03 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(smcpmon.o):
smcpmon.c $Date: 1999/05/10 00:36:05 $Revision: r11r
os/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(spl.o):
spl.c $Date: 1998/04/06 16:42:49 $Revision: r11ros/1
PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(syscall.o):
syscall.c $Date: 98/03/06 17:29:32 $ $Revision: 1.11
.106.9 $ PATCH_11.00 (PHKL_14292)
/usr/conf/lib/libhp-ux.a(trap.o):
trap.c $Date: 1999/05/10 00:36:16 $Revision: r11ros/
cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(ufs_mchdep.o):
ufs_mchdep.c $Date: 1998/12/15 09:21:40 $Revision: r
11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(ulbcopy.o):
ulbcopy.s $Date: 1998/12/15 09:21:43 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_alloc.o):
vm_alloc.c $Date: 1999/05/10 00:36:19 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(vm_machdep.o):
vm_machdep.c $Date: 1999/05/10 00:36:21 $Revision: r
11ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_machreg.o):
vm_machreg.c $Date: 1999/05/11 10:24:08 $Revision: r
11ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_mapcall.o):
vm_mapcall.c $Revision: 1.20.106.4 $ $Date: 98/02/05
18:37:38 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(vm_pdir2_0.o):
vm_pdir2_0.c $Date: 1999/05/10 00:36:27 $Revision: r
11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_pdt.o):
vm_pdt.c $Date: 1999/05/10 00:36:30 $Revision: r11ro
s/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(vm_ramfs.o):
vm_ramfs.c $Date: 1998/12/15 09:22:07 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_realmain.o):
vm_realmain32.c $Date: 1999/05/10 00:36:35 $Revision
: r11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_
18543)
/usr/conf/lib/libhp-ux.a(kepd.o):
kepd.c $Date: 1999/05/10 00:36:51 $Revision: r11ros/
cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(async.o):
async.c $Date: 1999/05/10 00:36:56 $Revision: r11ros
/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(disc3.o):
disc3.c $Date: 1999/05/10 00:37:01 $Revision: r11ros
/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(disc30.o):
disc30.c $Date: 1999/05/10 00:37:05 $Revision: r11ro
s/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(iomap.o):
iomap.c $Date: 1999/04/28 11:42:08 $Revision: r11ros
/1 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(scsi1.o):
scsi1.c $Date: 1998/12/15 07:45:25 $Revision: r11ros
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/usr/conf/lib/libhp-ux.a(sio_node_config.o):
sio_node_config.c $Date: 1998/06/24 16:28:30 $Revisi
on: r11ros/5 PATCH_11.00 (PHKL_15551)
/usr/conf/lib/libhp-ux.a(sio_sys_config.o):
sio_sys_config.c $Date: 1999/05/10 00:37:07 $Revisio
n: r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL
_18543)
/usr/conf/lib/libhp-ux.a(comm_utl.o):
comm_utl.s $Date: 1999/05/10 00:37:10 $Revision: r11
ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(rdb_com.o):
rdb_com.c $Date: 1999/05/10 00:37:12 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(rdb_com_lan.o):
rdb_com_lan.c $Date: 1999/05/10 00:37:18 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(rdb_lan.o):
rdb_lan.c $Date: 1999/05/10 00:37:20 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(rdb_mp.o):
rdb_mp.c $Date: 1999/05/10 00:37:26 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(rdb_rs232.o):
rdb_rs232.c $Date: 1999/05/10 00:37:29 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(snakes_rs232.o):
snakes_rs232.c $Date: 1999/05/10 00:37:36 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(aio_subr.o):
aio_subr.c $Date: 98/02/05 18:00:13 $ $Revision:
1.3.106.10 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(aio_syscall.o):
aio_syscall.c $Date: 98/02/05 18:07:19 $ $Revision:
1.3.106.8 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(cnx_p2p_bcopy.o):
cnx_p2p_bcopy.c $Date: 1998/12/15 09:22:29 $Revision
: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_
17205)
/usr/conf/lib/libhp-ux.a(fssdefault.o):
fssdefault.c $Date: 1998/12/15 09:22:33 $Revision: r
11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(init_main.o):
init_main.c $Date: 1999/05/10 00:37:41 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(ivt_intercept.o):
ivt_intercept.c $Date: 1998/04/06 16:43:31 $Revision
: r11ros/1 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kern_db.o):
kern_db.c $Date: 1999/05/10 00:37:43 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
kern_db.c $Date: 98/02/05 18:23:19 $ $Revision: 1.12
.106.5 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(kern_dscrp.o):
kern_dscrp.c $Date: 1998/11/17 11:44:41 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_168
76)
/usr/conf/lib/libhp-ux.a(kern_exec.o):
kern_exec.c $Date: 1999/06/03 11:01:54 $Revision: r1
1ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(kern_exit.o):
kern_exit.c $Date: 1998/12/15 09:22:45 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kern_fork.o):
kern_fork.c $Date: 1999/01/05 18:07:26 $Revision: r1
1ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_1725
8)
/usr/conf/lib/libprm.a(kern_fss.o):
kern_fss.c $Date: 1998/12/15 09:22:53 $Revision: r11
ros/cup_ros_ep1_pb/7 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(kern_mallo.o):
kern_mallo.c $Date: 1999/03/24 10:59:49 $Revision: r
11ros/6 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(kern_mman.o):
kern_mman.c $Date: 1998/12/15 09:23:05 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kern_sig.o):
kern_sig.c $Date: 1998/12/15 09:23:09 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(kmetric.o):
kmetric.c $Date: 1998/06/22 11:48:33 $Revision: r11r
os/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(kthread_iface.o):
kthread_iface.c $Date: 1998/06/24 16:28:30 $Revision
: r11ros/3 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(ktracer.o):
ktracer.c $Date: 1999/05/10 00:37:46 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(lwp_sched.o):
lwp_sched.c $Date: 1998/09/15 09:50:34 $Revision: r1
1ros/1 PATCH_11.00 (PHKL_16236)
/usr/conf/lib/libhp-ux.a(pm_callout.o):
pm_callout.c $Date: 1998/06/24 16:28:30 $Revision: r
11ros/1 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pm_clockint.o):
pm_clockint.c $Date: 1999/05/11 16:25:50 $Revision:
r11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pm_config.o):
pm_config.c $Date: 98/02/05 18:07:40 $ $Revision
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/usr/conf/lib/libhp-ux.a(pm_context.o):
pm_context.c $Date: 1998/12/15 09:23:17 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(pm_core.o):
pm_core.c $Date: 1998/12/15 09:23:21 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pm_gang.o):
pm_gang.c $Date: 1998/12/15 09:23:24 $Revision: r11r
os/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pm_policy.o):
pm_policy.c $Date: 1999/03/22 17:44:12 $Revision: r1
1ros/13 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(pm_proc.o):
pm_proc.c $Date: 1998/12/15 09:23:32 $Revision: r11r
os/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pm_procdup.o):
pm_procdup.c $Date: 1998/12/15 09:23:36 $Revision: r
11ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(pm_ptrace.o):
ttrace_private.h $Date: 1998/12/15 09:21:36 $Revisio
n: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL
_17205)
pm_ptrace.c $Date: 1998/12/15 09:23:42 $Revision: r1
1ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(pm_resource.o):
pm_resource.c $Date: 1998/12/24 07:49:00 $Revision:
r11ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17
258)
/usr/conf/lib/libhp-ux.a(pm_rtsched.o):
pm_rtsched.c $Date: 1998/09/15 09:54:09 $Revision: r
11ros/12 PATCH_11.00 (PHKL_16236)
/usr/conf/lib/libhp-ux.a(pm_signal.o):
pm_signal.c $Date: 1998/12/15 09:23:55 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(pm_sigq.o):
pm_sigq.c $Date: 1998/06/24 16:28:30 $Revision: r11r
os/1 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pm_swtch.o):
pm_swtch.c $Date: 1999/05/10 00:37:51 $Revision: r11
ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(pm_threads.o):
pm_threads.c $Date: 1998/12/30 18:42:51 $Revision: r
11ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_172
58)
/usr/conf/lib/libhp-ux.a(pm_time.o):
pm_time.c $Date: 1998/06/24 16:28:30 $Revision: r11r
os/3 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pm_timers.o):
pm_timers.c $Date: 1999/05/10 00:37:54 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(proc_iface.o):
proc_iface.c $Date: 1998/06/24 16:28:30 $Revision: r
11ros/4 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pstat.o):
pstat.c $Date: 1998/12/15 09:24:07 $Revision: r11ros
/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(rw_lock.o):
rw_lock.c $Date: 1998/07/07 11:14:51 $Revision: r11r
os/2 PATCH_11.00 (PHKL_15554)
/usr/conf/lib/libhp-ux.a(sem_beta.o):
sem_beta.c $Date: 98/02/05 18:32:00 $ $Revision:
1.17.106.3 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(sem_utl.o):
sem_utl.c $Date: 98/02/05 18:32:03 $ $Revision:
1.17.106.6 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(spinlock.o):
spinlock.c $Date: 1998/12/15 09:24:12 $Revision: r11
ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(subr_nvm.o):
subr_nvm.c $Date: 1999/05/10 00:37:57 $Revision: r11
ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(subr_prf.o):
subr_prf.c $Date: 1999/05/10 00:38:00 $Revision: r11
ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(subr_rmap.o):
subr_rmap.c $Date: 1999/03/24 11:13:41 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(subr_threads.o):
subr_threads.c $Date: 1999/03/22 17:32:06 $Revision:
r11ros/12 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(sysV_shm.o):
sysV_shm.c $Date: 1998/12/15 09:24:32 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(sys_gen.o):
sys_gen.c $Date: 1999/05/10 00:38:03 $Revision: r11r
os/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(vfs_bio.o):
vfs_bio.c $Date: 1999/03/04 15:08:52 $Revision: r11r
os/15 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libhp-ux.a(vfs_dnlc.o):
vfs_dnlc.c $Date: 1999/06/07 06:46:26 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(vfs_io.o):
vfs_io.c $Date: 1999/01/29 16:11:44 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17258)
/usr/conf/lib/libhp-ux.a(vfs_lockf.o):
vfs_lockf.c $Date: 1999/05/18 16:47:40 $Revision: r1
1ros/5 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libhp-ux.a(vfs_vm.o):
vfs_vm.c $Date: 1999/04/28 14:00:31 $Revision: r11ro
s/7 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(vfs_vnode.o):
vfs_vnode.c $Date: 1998/07/10 11:11:16 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_15910)
/usr/conf/lib/libhp-ux.a(vm_anon_shm.o):
vm_anon_shm.c $Date: 98/01/14 15:43:24 $ $Revisi
on: 1.3.106.3 $ PATCH_11.00 (PHKL_13810)
/usr/conf/lib/libhp-ux.a(vm_devswap.o):
vm_devswap.c $Date: 1999/03/04 15:06:43 $Revision: r
11ros/4 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libhp-ux.a(vm_fault.o):
vm_fault.c $Date: 1998/12/15 09:24:52 $Revision: r11
ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_kern.o):
vm_kern.c $Date: 1999/05/25 09:35:54 $Revision: r11r
os/2 PATCH_11.00 (PHKL_18533)
/usr/conf/lib/libhp-ux.a(vm_kvm.o):
vm_kvm.c $Date: 1998/12/15 09:25:00 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_misc.o):
vm_misc.c $Date: 1999/05/10 00:38:09 $Revision: r11r
os/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(vm_mlock.o):
vm_mlock.c $Date: 1998/12/15 09:25:08 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_mmap.o):
vm_mmap.c $Date: 1999/05/10 09:57:43 $Revision: r11r
os/15 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libhp-ux.a(vm_page.o):
vm_page.c $Date: 1999/01/22 13:27:40 $Revision: r11r
os/2 PATCH_11.00 (PHKL_17458)
/usr/conf/lib/libhp-ux.a(vm_pgalloc.o):
vm_pgalloc.c $Date: 1999/05/10 00:38:14 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_pgcache.o):
vm_pgcache.c $Date: 1999/05/10 00:38:17 $Revision: r
11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_pregion.o):
vm_pregion.c $Date: 1999/01/29 16:21:36 $Revision: r
11ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_172
58)
/usr/conf/lib/libhp-ux.a(vm_region.o):
vm_region.c $Date: 1998/06/22 11:48:45 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(vm_remap.o):
vm_remap.c $Date: 1998/12/15 09:25:20 $Revision: r11
ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_sched.o):
vm_sched.c $Date: 1999/05/10 00:38:19 $Revision: r11
ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(vm_skiplist.o):
vm_skiplist.c $Date: 1998/04/06 16:44:07 $Revision:
r11ros/1 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(vm_stats.o):
vm_stats.c $Date: 98/01/14 15:43:04 $ $Revision:
1.8.106.4 $ PATCH_11.00 (PHKL_13810)
/usr/conf/lib/libhp-ux.a(vm_superpage.o):
vm_superpage.c $Date: 1999/05/10 00:38:23 $Revision:
r11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(vm_swp.o):
vm_swp.c $Date: 1999/03/04 15:04:42 $Revision: r11ro
s/5 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libhp-ux.a(vm_text.o):
vm_text.c $Date: 1998/12/15 09:25:36 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_uio.o):
vm_uio.c $Date: 98/02/05 18:39:21 $ $Revision: 1
.8.106.3 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(vm_vas.o):
vm_vas.c $Date: 1998/12/15 09:25:40 $Revision: r11ro
s/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_vfd.o):
vm_vfd.c $Date: 1998/12/15 09:25:44 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_vhand.o):
vm_vhand.c $Date: 1999/02/24 09:46:41 $Revision: r11
ros/3 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libufs.a(ufs_bmap.o):
ufs_bmap.c $Date: 1999/05/10 00:38:26 $Revision: r11
ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(ufs_dsort.o):
ufs_dsort.c $Date: 1998/12/15 09:25:47 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libufs.a(ufs_inode.o):
ufs_inode.c $Date: 1999/05/10 00:38:29 $Revision: r1
1ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libufs.a(ufs_vnops.o):
ufs_vnops.c $Date: 1999/05/10 00:38:32 $Revision: r1
1ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(diag1.o):
diag1.c $Date: 1999/05/10 00:38:45 $Revision: r11ros
/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libpci.a(dino3.o):
dino3.c $Date: 1999/05/10 00:38:50 $Revision: r11ros
/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libpci.a(dino_cdio.o):
dino_cdio.c $Date: 1999/05/10 00:38:55 $Revision: r1
1ros/cup_ros_ep3_pb/15 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(dma_s700.o):
dma_s700.c $Date: 1999/05/10 00:39:01 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(eisa_cdio.o):
eisa_cdio.c $Date: 1999/05/10 00:39:03 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(floppy.o):
floppy.c $Date: 1998/12/15 09:27:25 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libpci.a(h2p_iface.o):
h2p_iface.c $Date: 1999/05/10 00:39:19 $Revision: r1
1ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libpci.a(p2pb_cdio.o):
p2pb_cdio.c $Date: 1999/05/10 00:39:25 $Revision: r1
1ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(pc_fdc.o):
pc_fdc.c $Date: 1998/12/15 09:27:30 $Revision: r11ro
s/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pc_floppy.o):
pc_floppy.c $Date: 1998/06/23 08:15:12 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15487)
/usr/conf/lib/libpci.a(pci.o):
pci.c $Date: 1999/05/10 00:39:30 $Revision: r11ros/c
up_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libpci.a(pci_cdio.o):
pci_cdio.c $Date: 1999/05/10 00:39:35 $Revision: r11
ros/cup_ros_ep3_pb/10 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libpci.a(pci_wsio.o):
pci_wsio.c $Date: 1999/05/10 00:39:40 $Revision: r11
ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(scsi_c720.o):
scsi_c720.c $Date: 1999/05/10 00:39:48 $Revision: r1
1ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(scsi_ctl.o):
scsi_ctl.c $Date: 1999/05/28 14:03:21 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(scsi_disk.o):
scsi_disk.c $Date: 1999/05/10 00:39:59 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(scsi_tape.o):
scsi_tape.c $Date: 1999/04/19 13:23:05 $Revision: r1
1ros/10 PATCH_11.00 (PHKL_17999)
/usr/conf/lib/libhp-ux.a(wsio_cdio.o):
wsio_cdio.c $Date: 1999/05/10 00:40:05 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(wsio_util.o):
wsio_util.c $Date: 1999/05/10 00:40:10 $Revision: r1
1ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_1854
3)
OS-Core.KERN2-RUN,fr=B.11.00,fa=HP-UX_B.11.00_32,v=HP:
/usr/conf/master.d/core-hpux:
core-hpux $Date: 1999/05/10 00:36:40 $Revision: r11r
os/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_18543)
/usr/conf/master.d/fs-tune:
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/3 PATCH_11.00 (PHKL_15705)
/usr/conf/master.d/pmon:
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p_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/master.d/scsi-tune:
scsi-tune $Date: 1998/06/22 11:48:18 $Revision: r11r
os/3 PATCH_11.00 (PHKL_15705)
/usr/conf/master.d/vm-tune:
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/usr/conf/space.h.d/core-hpux.h:
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/usr/conf/space.h.d/fs-tune.h:
fs-tune.h $Date: 1999/04/29 09:44:52 $Revision: r11r
os/5 PATCH_11.00 (PHKL_18295)
/usr/conf/space.h.d/fss-space.h:
fss-space.h $Date: 1998/04/06 16:43:09 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/space.h.d/scsi-tune.h:
scsi-tune.h $Date: 1998/06/22 11:48:26 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_15705)
/usr/conf/space.h.d/vm-tune.h:
vm-tune.h $Date: 1998/04/06 16:43:11 $Revision: r11r
os/5 PATCH_11.00 (PHKL_12965)
AdvJournalFS.VXFS-ADV-KRN,fr=B.11.00,fa=HP-UX_B.11.00_64,
v=HP:
/usr/conf/lib/libdmapi.a(kdm_core.o):
kdm_core.c $Date: 1999/02/24 07:40:21 $Revision: r11
ros/5 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libvxfs_adv.a(vx_dio.o):
vx_dio.c $Date: 1999/05/10 00:38:37 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libvxfs_adv.a(vx_kdmi.o):
vx_kdmi.c $Date: 1998/11/03 08:00:12 $Revision: r11r
os/cup_ros_ep1_pb/1 PATCH_11.00 (PHKL_16819)
JournalFS.VXFS-BASE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP:
/usr/conf/lib/libvxfs_base.a(vx_attr.o):
vx_attr.c $Date: 1998/12/15 09:25:56 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_bio1.o):
vx_bio1.c $Date: 1998/07/10 07:06:15 $Revision: r11r
os/9 PATCH_11.00 (PHKL_15910)
/usr/conf/lib/libvxfs_base.a(vx_bsdquota.o):
vx_bsdquota.c $Date: 1998/12/15 09:26:00 $Revision:
r11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17
205)
/usr/conf/lib/libvxfs_base.a(vx_config.o):
vx_config.c $Date: 1999/04/01 06:44:48 $Revision: r1
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/usr/conf/lib/libvxfs_base.a(vx_dmstubs.o):
vx_dmstubs.c $Date: 1998/11/03 08:00:22 $Revision: r
11ros/cup_ros_ep1_pb/1 PATCH_11.00 (PHKL_168
19)
/usr/conf/lib/libvxfs_base.a(vx_doextop.o):
vx_doextop.c $Date: 1998/12/15 09:26:12 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libvxfs_base.a(vx_fset.o):
vx_fset.c $Date: 1998/12/15 09:26:20 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_hpuxsubr.o):
vx_hpuxsubr.c $Date: 1999/05/10 00:38:40 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libvxfs_base.a(vx_iclone.o):
vx_iclone.c $Date: 1998/12/15 09:26:23 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libvxfs_base.a(vx_iflush.o):
vx_iflush.c $Date: 1999/05/10 11:20:55 $Revision: r1
1ros/9 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libvxfs_base.a(vx_inode.o):
vx_inode.c $Date: 1999/06/03 00:38:42 $Revision: r11
ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libvxfs_base.a(vx_itrunc.o):
vx_itrunc.c $Date: 1999/04/20 15:14:18 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libvxfs_base.a(vx_mount.o):
vx_mount.c $Date: 1998/06/22 11:48:50 $Revision: r11
ros/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libvxfs_base.a(vx_oltmount.o):
vx_oltmount.c $Date: 1999/02/24 10:18:13 $Revision:
r11ros/7 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libvxfs_base.a(vx_ted.o):
vx_ted.c $Date: 1998/12/15 09:26:46 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_tran.o):
vx_tran.c $Date: 1998/07/10 11:09:56 $Revision: r11r
os/3 PATCH_11.00 (PHKL_15910)
/usr/conf/lib/libvxfs_base.a(vx_vfsops.o):
vx_vfsops.c $Date: 1999/05/10 11:02:46 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libvxfs_base.a(vx_vm.o):
vx_vm.c $Date: 1998/12/15 09:26:50 $Revision: r11ros
/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libvxfs_base.a(vx_vnops.o):
vx_vnops.c $Date: 1999/03/08 10:13:26 $Revision: r11
ros/13 PATCH_11.00 (PHKL_17869)
/usr/conf/master.d/vxfs:
vxfs $Date: 1999/04/01 06:42:58 $Revision: r11ros/1
PATCH_11.00 (PHKL_18141)
OS-Core.CORE2-KRN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP:
/usr/conf/lib/libhp-ux.a(file_sys.o):
file_sys.c $Date: 1998/04/06 16:40:55 $Revision: r11
ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(io.o):
io.c $Date: 1999/05/10 00:32:12 $Revision: r11ros/cu
p_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pci_debug.o):
pci_debug.c $Date: 1999/05/10 00:32:15 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(proc_man.o):
ttrace_private.h $Date: 1998/12/15 09:21:36 $Revisio
n: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL
_17205)
proc_man.c $Date: 1998/12/15 09:17:38 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(virt_mem.o):
virt_mem.c $Date: 1999/01/08 17:16:14 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17258
)
/usr/conf/lib/libhp-ux.a(vxfs.o):
vxfs.c $Date: 1998/04/06 16:40:58 $Revision: r11ros/
1 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(wsio_drivers.o):
wsio_drivers.c $Date: 1999/05/10 00:32:18 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(wsio_scsi.o):
scsi_c720.c $Date: 1999/05/10 00:39:48 $Revision: r1
1ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_1854
3)
wsio_scsi.c $Date: 1998/12/15 09:17:42 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libdlkm.a(mod_obj.o):
mod_obj.c $Date: 1998/06/12 12:47:47 $Revision: r11r
os/2 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libdlkm.a(modctl.o):
modctl.c $Date: 1998/06/12 12:49:14 $Revision: r11ro
s/1 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libdlkm.a(modinit.o):
modinit.c $Date: 1998/06/12 12:23:36 $Revision: r11r
os/1 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libhp-ux.a(framebuf.o):
framebuf.c $Date: 1998/06/17 17:01:53 $Revision: r11
ros/4 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(graph3.o):
graph3.c $Date: 1998/06/17 17:01:53 $Revision: r11ro
s/3 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(ite.o):
ite.c $Date: 1998/06/17 17:01:53 $Revision: r11ros/1
PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(ite1.o):
ite1.c $Date: 1998/06/17 17:01:53 $Revision: r11ros/
2 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(ite1_sti.o):
ite1_sti.c $Date: 1998/06/17 17:01:53 $Revision: r11
ros/2 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(s_hil_code.o):
s_hil_code.c $Date: 1999/05/10 00:32:21 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(stirom.o):
stirom.c $Date: 1998/06/17 17:01:53 $Revision: r11ro
s/6 PATCH_11.00 (PHKL_15485)
/usr/conf/lib/libhp-ux.a(cb_cdio.o):
cb_cdio.c $Date: 1999/05/10 00:32:36 $Revision: r11r
os/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(chassis_log.o):
chassis_log.c $Date: 1999/05/10 00:32:44 $Revision:
r11ros/cup_ros_ep3_pb/11 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(core_cdio.o):
core_cdio.c $Date: 1999/05/10 00:32:49 $Revision: r1
1ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(dev_config.o):
dev_config.c $Date: 98/02/05 18:32:43 $ $Revision
: 1.6.106.5 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(diag2.o):
diag2.c $Date: 1999/05/10 00:32:52 $Revision: r11ros
/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(dma_compat.o):
dma_compat.c $Date: 1999/05/10 00:32:57 $Revision: r
11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(gio_lvl1.o):
gio_lvl1.c $Date: 1999/05/10 00:33:02 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_lvl2.o):
gio_lvl2.c $Date: 1999/05/10 00:33:05 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_node.o):
gio_node.c $Date: 1999/05/10 00:33:07 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_prop.o):
gio_prop.c $Date: 1999/05/10 00:33:10 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(gio_search.o):
gio_search.c $Date: 1999/05/10 00:33:12 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(intr_iface.o):
intr_iface.c $Date: 1999/05/10 00:33:18 $Revision: r
11ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(io_forw.o):
io_forw.c $Date: 1999/05/10 00:33:25 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(mod_object.o):
mod_object.c $Date: 1999/05/10 00:33:33 $Revision: r
11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(mt_prop.o):
mt_prop.c $Date: 97/12/12 12:05:10 $ $Revision: 1.8.
106.3 $ PATCH_11.00 (PHKL_13552)
/usr/conf/lib/libhp-ux.a(pa_ccio.o):
pa_ccio.c $Date: 1999/05/10 00:33:46 $Revision: r11r
os/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_ccio_psm.o):
pa_ccio_psm.c $Date: 1999/05/10 00:33:48 $Revision:
r11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pa_cdio.o):
pa_cdio.c $Date: 1999/05/10 00:33:51 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_fio.o):
pa_fio.c $Date: 1999/05/10 00:33:53 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_generic_psm.o):
pa_generic_psm.c $Date: 1999/05/10 00:33:56 $Revisio
n: r11ros/cup_ros_ep3_pb/9 PATCH_11.00 (PHKL
_18543)
/usr/conf/lib/libhp-ux.a(pa_gio.o):
pa_gio.c $Date: 1999/05/10 00:33:59 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_legacy_psm.o):
pa_legacy_psm.c $Date: 1999/05/10 00:34:01 $Revision
: r11ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_
18543)
/usr/conf/lib/libhp-ux.a(pa_lvl1.o):
pa_lvl1.c $Date: 1999/05/10 00:34:04 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_map.o):
pa_map.c $Date: 1999/05/10 00:34:06 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(pa_pdk_stub.o):
pa_pdk_stub.c $Date: 1999/05/10 00:34:09 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pa_snakes.o):
pa_snakes.c $Date: 1999/05/10 00:34:14 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(pik_stub.o):
pik_stub.c $Date: 1999/05/10 00:34:27 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(psi.o):
psi.c $Date: 1999/05/10 00:34:33 $Revision: r11ros/c
up_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(sapic_psm.o):
sapic_psm.c $Date: 1999/05/10 00:34:46 $Revision: r1
1ros/cup_ros_ep3_pb/10 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(kgdb_asm.o):
kgdb_asm.s $Date: 1998/04/06 16:41:29 $Revision: r11
ros/3 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_debug.o):
kgdb_debug.c $Date: 1998/04/06 16:41:36 $Revision: r
11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_inet.o):
kgdb_inet.c $Date: 1998/12/15 09:19:02 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kgdb_lock.o):
kgdb_lock.s $Date: 1998/04/06 16:41:48 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_machine.o):
kgdb_machine.c $Date: 1998/12/15 09:19:05 $Revision:
r11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1
7205)
/usr/conf/lib/libhp-ux.a(kgdb_packet_input.o):
kgdb_packet_input.c $Date: 1998/04/06 16:41:54 $Revi
sion: r11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_sonic.o):
kgdb_sonic.c $Date: 1998/12/15 09:19:09 $Revision: r
11ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(kgdb_stub.o):
kgdb_stub.c $Date: 1998/12/15 09:19:13 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kgdb_system_lan.o):
kgdb_system_lan.c $Date: 1998/04/06 16:42:03 $Revisi
on: r11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kgdb_system_spp2.o):
kgdb_system_spp2.c $Date: 1998/04/06 16:42:06 $Revis
ion: r11ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(ktest.o):
ktest.c $Date: 1999/05/10 00:34:53 $Revision: r11ros
/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(asm_crash.o):
asm_crash.s $Date: 1998/06/22 11:47:30 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(asm_pdc_rqst.o):
asm_pdc_rqst.s $Date: 1998/06/22 11:47:38 $Revision:
r11ros/1 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(asm_pfail.o):
asm_pfail.s $Date: 1998/12/15 09:19:21 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
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asm_rv.s $Date: 1998/12/15 09:19:24 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(asm_scall.o):
asm_scall.s $Date: 1998/12/30 18:45:45 $Revision: r1
1ros/cup_ros_ep1_pb/6 PATCH_11.00 (PHKL_1725
8)
/usr/conf/lib/libhp-ux.a(asm_tlb.o):
asm_tlb.s $Date: 1999/05/10 00:34:56 $Revision: r11r
os/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(asm_tlb2_0.o):
asm_tlb2_0.s $Date: 1999/05/10 00:34:59 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(asm_utl.o):
asm_utl.s $Date: 1999/05/10 00:35:01 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(asm_vm.o):
asm_vm.s $Date: 1999/05/10 00:35:04 $Revision: r11ro
s/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(astropmon.o):
astropmon.c $Date: 1999/05/10 00:35:07 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(clock.o):
clock.c $Date: 1999/05/10 00:35:09 $Revision: r11ros
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/usr/conf/lib/libhp-ux.a(dmem.o):
dmem.c $Date: 1999/02/01 11:54:25 $Revision: r11ros/
cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17258)
/usr/conf/lib/libhp-ux.a(dumpbuf.o):
dumpbuf.c $Date: 1999/06/09 22:24:52 $Revision: r11r
os/cup_ros_ep3_pb/1 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(dumpdev.o):
dumpdev.c $Date: 1999/05/10 00:35:14 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(dumpsys.o):
dumpsys.c $Date: 1999/06/09 22:24:52 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(gateway.o):
gateway.s $Date: 1999/01/11 13:32:13 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17258)
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hdl_fault.c $Date: 1999/04/28 11:41:31 $Revision: r1
1ros/8 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(hdl_init.o):
hdl_init.c $Date: 1998/12/15 09:19:51 $Revision: r11
ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(hdl_mprotect.o):
hdl_mprotect.c $Date: 1998/12/15 09:19:54 $Revision:
r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_1
7205)
/usr/conf/lib/libhp-ux.a(hdl_page_pool.o):
hdl_page_pool.c $Date: 1998/04/06 16:42:29 $Revision
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/usr/conf/lib/libhp-ux.a(hdl_policy.o):
hdl_policy.c $Date: 1999/05/10 00:35:23 $Revision: r
11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(hdl_trans.o):
hdl_trans.c $Date: 1999/05/10 00:35:25 $Revision: r1
1ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(hdl_uma_pa_page.o):
hdl_uma_pa_page.c $Date: 1999/05/10 00:35:29 $Revisi
on: r11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHK
L_18543)
/usr/conf/lib/libhp-ux.a(ikepmon.o):
ikepmon.c $Date: 1999/05/10 00:35:31 $Revision: r11r
os/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(io_map.o):
io_map.c $Date: 1999/04/28 11:40:24 $Revision: r11ro
s/3 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(iodc_llio.o):
iodc_llio.s $Date: 1999/05/29 16:20:51 $Revision: r1
1ros/cup_ros_ep3_pb/1 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(iodc_prf.o):
iodc_prf.c $Date: 1999/06/09 22:24:52 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(ivt_icept.o):
ivt_icept.s $Date: 1998/06/22 11:47:53 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(locore.o):
locore.s $Date: 1999/05/10 00:35:44 $Revision: r11ro
s/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(lpmc.o):
lpmc.c $Date: 1998/12/15 09:20:13 $Revision: r11ros/
cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(lw_scall.o):
lw_scall.s $Date: 1998/12/15 09:20:17 $Revision: r11
ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(lwp_ldcws.o):
lwp_ldcws.s $Date: 1998/12/15 09:20:22 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(machdep.o):
machdep.c $Date: 1999/06/01 15:09:19 $Revision: r11r
os/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(mem.o):
mem.c $Date: 1998/06/22 11:48:01 $Revision: r11ros/4
PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libdlkm.a(mod_objmd.o):
mod_objmd.c $Date: 1998/06/12 07:54:40 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15510)
/usr/conf/lib/libhp-ux.a(mp.o):
mp.c $Date: 1998/12/15 09:20:37 $Revision: r11ros/cu
p_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(onyxe.o):
onyxe 1.0 (unsupported)
onyxe.c $Date: 1998/12/15 09:20:40 $Revision: r11ros
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/usr/conf/lib/libhp-ux.a(pdc_rqst.o):
pdc_rqst.c $Date: 1999/05/10 00:35:55 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(pdk_callout.o):
pdk_callout.c $Date: 1999/05/11 16:28:33 $Revision:
r11ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pdk_ptrace.o):
ttrace_private.h $Date: 1998/12/15 09:21:36 $Revisio
n: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL
_17205)
pdk_ptrace.c $Date: 1998/12/15 09:21:03 $Revision: r
11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(pdk_swtch.o):
pdk_swtch.c $Date: 98/02/05 18:48:20 $ $Revision: 1.
2.106.3 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(pm_sendsig.o):
pm_sendsig.c $Date: 1998/12/15 09:21:08 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(resume.o):
resume.s $Date: 1998/12/15 09:21:13 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(rm_common.o):
rm_common.c $Date: 1999/05/10 00:36:03 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(smcpmon.o):
smcpmon.c $Date: 1999/05/10 00:36:05 $Revision: r11r
os/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(spl.o):
spl.c $Date: 1998/04/06 16:42:49 $Revision: r11ros/1
PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(syscall.o):
syscall.c $Date: 98/03/06 17:29:32 $ $Revision: 1.11
.106.9 $ PATCH_11.00 (PHKL_14292)
/usr/conf/lib/libhp-ux.a(trap.o):
trap.c $Date: 1999/05/10 00:36:16 $Revision: r11ros/
cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(ufs_mchdep.o):
ufs_mchdep.c $Date: 1998/12/15 09:21:40 $Revision: r
11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(ulbcopy.o):
ulbcopy.s $Date: 1998/12/15 09:21:43 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_alloc.o):
vm_alloc.c $Date: 1999/05/10 00:36:19 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(vm_machdep.o):
vm_machdep.c $Date: 1999/05/10 00:36:21 $Revision: r
11ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_machreg.o):
vm_machreg.c $Date: 1999/05/11 10:24:08 $Revision: r
11ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_mapcall.o):
vm_mapcall.c $Revision: 1.20.106.4 $ $Date: 98/02/05
18:37:38 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(vm_pdir2_0.o):
vm_pdir2_0.c $Date: 1999/05/10 00:36:27 $Revision: r
11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_pdt.o):
vm_pdt.c $Date: 1999/05/10 00:36:30 $Revision: r11ro
s/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(vm_ramfs.o):
vm_ramfs.c $Date: 1998/12/15 09:22:07 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_realmain.o):
vm_realmain64.c $Date: 1999/05/10 00:36:38 $Revision
: r11ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_
18543)
/usr/conf/lib/libhp-ux.a(kepd.o):
kepd.c $Date: 1999/05/10 00:36:51 $Revision: r11ros/
cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(async.o):
async.c $Date: 1999/05/10 00:36:56 $Revision: r11ros
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/usr/conf/lib/libhp-ux.a(disc3.o):
disc3.c $Date: 1999/05/10 00:37:01 $Revision: r11ros
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/usr/conf/lib/libhp-ux.a(disc30.o):
disc30.c $Date: 1999/05/10 00:37:05 $Revision: r11ro
s/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(iomap.o):
iomap.c $Date: 1999/04/28 11:42:08 $Revision: r11ros
/1 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(scsi1.o):
scsi1.c $Date: 1998/12/15 07:45:25 $Revision: r11ros
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/usr/conf/lib/libhp-ux.a(sio_node_config.o):
sio_node_config.c $Date: 1998/06/24 16:28:30 $Revisi
on: r11ros/5 PATCH_11.00 (PHKL_15551)
/usr/conf/lib/libhp-ux.a(sio_sys_config.o):
sio_sys_config.c $Date: 1999/05/10 00:37:07 $Revisio
n: r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL
_18543)
/usr/conf/lib/libhp-ux.a(comm_utl.o):
comm_utl.s $Date: 1999/05/10 00:37:10 $Revision: r11
ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(rdb_com.o):
rdb_com.c $Date: 1999/05/10 00:37:12 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(rdb_com_lan.o):
rdb_com_lan.c $Date: 1999/05/10 00:37:18 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(rdb_lan.o):
rdb_lan.c $Date: 1999/05/10 00:37:20 $Revision: r11r
os/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(rdb_mp.o):
rdb_mp.c $Date: 1999/05/10 00:37:26 $Revision: r11ro
s/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(rdb_rs232.o):
rdb_rs232.c $Date: 1999/05/10 00:37:29 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(snakes_rs232.o):
snakes_rs232.c $Date: 1999/05/10 00:37:36 $Revision:
r11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(aio_subr.o):
aio_subr.c $Date: 98/02/05 18:00:13 $ $Revision:
1.3.106.10 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(aio_syscall.o):
aio_syscall.c $Date: 98/02/05 18:07:19 $ $Revision:
1.3.106.8 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(cnx_p2p_bcopy.o):
cnx_p2p_bcopy.c $Date: 1998/12/15 09:22:29 $Revision
: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_
17205)
/usr/conf/lib/libhp-ux.a(fssdefault.o):
fssdefault.c $Date: 1998/12/15 09:22:33 $Revision: r
11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(init_main.o):
init_main.c $Date: 1999/05/10 00:37:41 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(ivt_intercept.o):
ivt_intercept.c $Date: 1998/04/06 16:43:31 $Revision
: r11ros/1 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(kern_db.o):
kern_db.c $Date: 98/02/05 18:23:19 $ $Revision: 1.12
.106.5 $ PATCH_11.00 (PHKL_14088)
kern_db.c $Date: 1999/05/10 00:37:43 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(kern_dscrp.o):
kern_dscrp.c $Date: 1998/11/17 11:44:41 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_168
76)
/usr/conf/lib/libhp-ux.a(kern_exec.o):
kern_exec.c $Date: 1999/06/03 11:01:54 $Revision: r1
1ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(kern_exit.o):
kern_exit.c $Date: 1998/12/15 09:22:45 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kern_fork.o):
kern_fork.c $Date: 1999/01/05 18:07:26 $Revision: r1
1ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_1725
8)
/usr/conf/lib/libprm.a(kern_fss.o):
kern_fss.c $Date: 1998/12/15 09:22:53 $Revision: r11
ros/cup_ros_ep1_pb/7 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(kern_mallo.o):
kern_mallo.c $Date: 1999/03/24 10:59:49 $Revision: r
11ros/6 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(kern_mman.o):
kern_mman.c $Date: 1998/12/15 09:23:05 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(kern_sig.o):
kern_sig.c $Date: 1998/12/15 09:23:09 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(kmetric.o):
kmetric.c $Date: 1998/06/22 11:48:33 $Revision: r11r
os/2 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(kthread_iface.o):
kthread_iface.c $Date: 1998/06/24 16:28:30 $Revision
: r11ros/3 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(ktracer.o):
ktracer.c $Date: 1999/05/10 00:37:46 $Revision: r11r
os/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(lwp_sched.o):
lwp_sched.c $Date: 1998/09/15 09:50:34 $Revision: r1
1ros/1 PATCH_11.00 (PHKL_16236)
/usr/conf/lib/libhp-ux.a(pm_callout.o):
pm_callout.c $Date: 1998/06/24 16:28:30 $Revision: r
11ros/1 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pm_clockint.o):
pm_clockint.c $Date: 1999/05/11 16:25:50 $Revision:
r11ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(pm_config.o):
pm_config.c $Date: 98/02/05 18:07:40 $ $Revision
: 1.9.106.4 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(pm_context.o):
pm_context.c $Date: 1998/12/15 09:23:17 $Revision: r
11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(pm_core.o):
pm_core.c $Date: 1998/12/15 09:23:21 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pm_gang.o):
pm_gang.c $Date: 1998/12/15 09:23:24 $Revision: r11r
os/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pm_policy.o):
pm_policy.c $Date: 1999/03/22 17:44:12 $Revision: r1
1ros/13 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(pm_proc.o):
pm_proc.c $Date: 1998/12/15 09:23:32 $Revision: r11r
os/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pm_procdup.o):
pm_procdup.c $Date: 1998/12/15 09:23:36 $Revision: r
11ros/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_172
05)
/usr/conf/lib/libhp-ux.a(pm_ptrace.o):
ttrace_private.h $Date: 1998/12/15 09:21:36 $Revisio
n: r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL
_17205)
pm_ptrace.c $Date: 1998/12/15 09:23:42 $Revision: r1
1ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(pm_resource.o):
pm_resource.c $Date: 1998/12/24 07:49:00 $Revision:
r11ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17
258)
/usr/conf/lib/libhp-ux.a(pm_rtsched.o):
pm_rtsched.c $Date: 1998/09/15 09:54:09 $Revision: r
11ros/12 PATCH_11.00 (PHKL_16236)
/usr/conf/lib/libhp-ux.a(pm_signal.o):
pm_signal.c $Date: 1998/12/15 09:23:55 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libhp-ux.a(pm_sigq.o):
pm_sigq.c $Date: 1998/06/24 16:28:30 $Revision: r11r
os/1 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pm_swtch.o):
pm_swtch.c $Date: 1999/05/10 00:37:51 $Revision: r11
ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(pm_threads.o):
pm_threads.c $Date: 1998/12/30 18:42:51 $Revision: r
11ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_172
58)
/usr/conf/lib/libhp-ux.a(pm_time.o):
pm_time.c $Date: 1998/06/24 16:28:30 $Revision: r11r
os/3 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pm_timers.o):
pm_timers.c $Date: 1999/05/10 00:37:54 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(proc_iface.o):
proc_iface.c $Date: 1998/06/24 16:28:30 $Revision: r
11ros/4 PATCH_11.00 (PHKL_15553)
/usr/conf/lib/libhp-ux.a(pstat.o):
pstat.c $Date: 1998/12/15 09:24:07 $Revision: r11ros
/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(rw_lock.o):
rw_lock.c $Date: 1998/07/07 11:14:51 $Revision: r11r
os/2 PATCH_11.00 (PHKL_15554)
/usr/conf/lib/libhp-ux.a(sem_beta.o):
sem_beta.c $Date: 98/02/05 18:32:00 $ $Revision:
1.17.106.3 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(sem_utl.o):
sem_utl.c $Date: 98/02/05 18:32:03 $ $Revision:
1.17.106.6 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(spinlock.o):
spinlock.c $Date: 1998/12/15 09:24:12 $Revision: r11
ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(subr_nvm.o):
subr_nvm.c $Date: 1999/05/10 00:37:57 $Revision: r11
ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(subr_prf.o):
subr_prf.c $Date: 1999/05/10 00:38:00 $Revision: r11
ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(subr_rmap.o):
subr_rmap.c $Date: 1999/03/24 11:13:41 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(subr_threads.o):
subr_threads.c $Date: 1999/03/22 17:32:06 $Revision:
r11ros/12 PATCH_11.00 (PHKL_17953)
/usr/conf/lib/libhp-ux.a(sysV_shm.o):
sysV_shm.c $Date: 1998/12/15 09:24:32 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(sys_gen.o):
sys_gen.c $Date: 1999/05/10 00:38:03 $Revision: r11r
os/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(vfs_bio.o):
vfs_bio.c $Date: 1999/03/04 15:08:52 $Revision: r11r
os/15 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libhp-ux.a(vfs_dnlc.o):
vfs_dnlc.c $Date: 1999/06/07 06:46:26 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(vfs_io.o):
vfs_io.c $Date: 1999/01/29 16:11:44 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17258)
/usr/conf/lib/libhp-ux.a(vfs_lockf.o):
vfs_lockf.c $Date: 1999/05/18 16:47:40 $Revision: r1
1ros/5 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libhp-ux.a(vfs_vm.o):
vfs_vm.c $Date: 1999/04/28 14:00:31 $Revision: r11ro
s/7 PATCH_11.00 (PHKL_18295)
/usr/conf/lib/libhp-ux.a(vfs_vnode.o):
vfs_vnode.c $Date: 1998/07/10 11:11:16 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_15910)
/usr/conf/lib/libhp-ux.a(vm_anon_shm.o):
vm_anon_shm.c $Date: 98/01/14 15:43:24 $ $Revisi
on: 1.3.106.3 $ PATCH_11.00 (PHKL_13810)
/usr/conf/lib/libhp-ux.a(vm_devswap.o):
vm_devswap.c $Date: 1999/03/04 15:06:43 $Revision: r
11ros/4 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libhp-ux.a(vm_fault.o):
vm_fault.c $Date: 1998/12/15 09:24:52 $Revision: r11
ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_kern.o):
vm_kern.c $Date: 1999/05/25 09:35:54 $Revision: r11r
os/2 PATCH_11.00 (PHKL_18533)
/usr/conf/lib/libhp-ux.a(vm_kvm.o):
vm_kvm.c $Date: 1998/12/15 09:25:00 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_misc.o):
vm_misc.c $Date: 1999/05/10 00:38:09 $Revision: r11r
os/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libhp-ux.a(vm_mlock.o):
vm_mlock.c $Date: 1998/12/15 09:25:08 $Revision: r11
ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_mmap.o):
vm_mmap.c $Date: 1999/05/10 09:57:43 $Revision: r11r
os/15 PATCH_11.00 (PHKL_18531)
/usr/conf/lib/libhp-ux.a(vm_page.o):
vm_page.c $Date: 1999/01/22 13:27:40 $Revision: r11r
os/2 PATCH_11.00 (PHKL_17458)
/usr/conf/lib/libhp-ux.a(vm_pgalloc.o):
vm_pgalloc.c $Date: 1999/05/10 00:38:14 $Revision: r
11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_pgcache.o):
vm_pgcache.c $Date: 1999/05/10 00:38:17 $Revision: r
11ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(vm_pregion.o):
vm_pregion.c $Date: 1999/01/29 16:21:36 $Revision: r
11ros/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_172
58)
/usr/conf/lib/libhp-ux.a(vm_region.o):
vm_region.c $Date: 1998/06/22 11:48:45 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_15705)
/usr/conf/lib/libhp-ux.a(vm_remap.o):
vm_remap.c $Date: 1998/12/15 09:25:20 $Revision: r11
ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205
)
/usr/conf/lib/libhp-ux.a(vm_sched.o):
vm_sched.c $Date: 1999/05/10 00:38:19 $Revision: r11
ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(vm_skiplist.o):
vm_skiplist.c $Date: 1998/04/06 16:44:07 $Revision:
r11ros/1 PATCH_11.00 (PHKL_12965)
/usr/conf/lib/libhp-ux.a(vm_stats.o):
vm_stats.c $Date: 98/01/14 15:43:04 $ $Revision:
1.8.106.4 $ PATCH_11.00 (PHKL_13810)
/usr/conf/lib/libhp-ux.a(vm_superpage.o):
vm_superpage.c $Date: 1999/05/10 00:38:23 $Revision:
r11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(vm_swp.o):
vm_swp.c $Date: 1999/03/04 15:04:42 $Revision: r11ro
s/5 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libhp-ux.a(vm_text.o):
vm_text.c $Date: 1998/12/15 09:25:36 $Revision: r11r
os/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_uio.o):
vm_uio.c $Date: 98/02/05 18:39:21 $ $Revision: 1
.8.106.3 $ PATCH_11.00 (PHKL_14088)
/usr/conf/lib/libhp-ux.a(vm_vas.o):
vm_vas.c $Date: 1998/12/15 09:25:40 $Revision: r11ro
s/cup_ros_ep1_pb/4 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_vfd.o):
vm_vfd.c $Date: 1998/12/15 09:25:44 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(vm_vhand.o):
vm_vhand.c $Date: 1999/02/24 09:46:41 $Revision: r11
ros/3 PATCH_11.00 (PHKL_17869)
/usr/conf/lib/libufs.a(ufs_bmap.o):
ufs_bmap.c $Date: 1999/05/10 00:38:26 $Revision: r11
ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(ufs_dsort.o):
ufs_dsort.c $Date: 1998/12/15 09:25:47 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libufs.a(ufs_inode.o):
ufs_inode.c $Date: 1999/05/10 00:38:29 $Revision: r1
1ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libufs.a(ufs_vnops.o):
ufs_vnops.c $Date: 1999/05/10 00:38:32 $Revision: r1
1ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(diag1.o):
diag1.c $Date: 1999/05/10 00:38:45 $Revision: r11ros
/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libpci.a(dino3.o):
dino3.c $Date: 1999/05/10 00:38:50 $Revision: r11ros
/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libpci.a(dino_cdio.o):
dino_cdio.c $Date: 1999/05/10 00:38:55 $Revision: r1
1ros/cup_ros_ep3_pb/15 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libhp-ux.a(dma_s700.o):
dma_s700.c $Date: 1999/05/10 00:39:01 $Revision: r11
ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(floppy.o):
floppy.c $Date: 1998/12/15 09:27:25 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libpci.a(h2p_iface.o):
h2p_iface.c $Date: 1999/05/10 00:39:19 $Revision: r1
1ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libpci.a(p2pb_cdio.o):
p2pb_cdio.c $Date: 1999/05/10 00:39:25 $Revision: r1
1ros/cup_ros_ep3_pb/6 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(pc_fdc.o):
pc_fdc.c $Date: 1998/12/15 09:27:30 $Revision: r11ro
s/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libhp-ux.a(pc_floppy.o):
pc_floppy.c $Date: 1998/06/23 08:15:12 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_15487)
/usr/conf/lib/libpci.a(pci.o):
pci.c $Date: 1999/05/10 00:39:30 $Revision: r11ros/c
up_ros_ep3_pb/3 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libpci.a(pci_cdio.o):
pci_cdio.c $Date: 1999/05/10 00:39:35 $Revision: r11
ros/cup_ros_ep3_pb/10 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libpci.a(pci_wsio.o):
pci_wsio.c $Date: 1999/05/10 00:39:40 $Revision: r11
ros/cup_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(scsi_c720.o):
scsi_c720.c $Date: 1999/05/10 00:39:48 $Revision: r1
1ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(scsi_ctl.o):
scsi_ctl.c $Date: 1999/05/28 14:03:21 $Revision: r11
ros/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(scsi_disk.o):
scsi_disk.c $Date: 1999/05/10 00:39:59 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(scsi_tape.o):
scsi_tape.c $Date: 1999/04/19 13:23:05 $Revision: r1
1ros/10 PATCH_11.00 (PHKL_17999)
/usr/conf/lib/libhp-ux.a(wsio_cdio.o):
wsio_cdio.c $Date: 1999/05/10 00:40:05 $Revision: r1
1ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(wsio_util.o):
wsio_util.c $Date: 1999/05/10 00:40:10 $Revision: r1
1ros/cup_ros_ep3_pb/8 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(ike_psm.o):
ike_psm.c $Date: 1999/06/14 15:28:38 $Revision: r11r
os/cup_ros_ep3_pb/16 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(pat_psm.o):
pat_psm.c $Date: 1999/05/10 00:34:25 $Revision: r11r
os/cup_ros_ep3_pb/15 PATCH_11.00 (PHKL_18543
)
/usr/conf/lib/libhp-ux.a(sppcore_cdio.o):
sppcore_cdio.c $Date: 1999/05/10 00:34:51 $Revision:
r11ros/cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_1
8543)
/usr/conf/lib/libhp-ux.a(spp_asic_errors.o):
spp_asic_errors.c $Date: 1999/01/27 22:48:40 $Revisi
on: r11ros/cup_ros_ep1_pb/1 PATCH_11.00 (PHK
L_17258)
/usr/conf/lib/libhp-ux.a(spp_cpu_asm.o):
spp_cpu_asm.s $Date: 1999/05/10 00:36:13 $Revision:
r11ros/cup_ros_ep3_pb/3 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libhp-ux.a(spp_csr.o):
spp_csr.c $Date: 1999/01/21 13:59:31 $Revision: r11r
os/cup_ros_ep1_pb/5 PATCH_11.00 (PHKL_17258)
/usr/conf/lib/libhp-ux.a(spp_support.o):
spp_support.c $Date: 1999/01/11 13:39:23 $Revision:
r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17
258)
/usr/conf/lib/libhp-ux.a(rdb_sonic.o):
rdb_sonic.c $Date: 1999/05/10 00:37:33 $Revision: r1
1ros/cup_ros_ep3_pb/2 PATCH_11.00 (PHKL_1854
3)
/usr/conf/lib/libhp-ux.a(consp1.o):
consp1.c $Date: 97/07/08 12:44:12 $ $Revision:
1.2.105.5 $
consp1.c $Date: 1998/12/15 09:26:58 $Revision: r11ro
s/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_17205)
/usr/conf/lib/libpci.a(elroy_cdio.o):
elroy_cdio.c $Date: 1999/05/10 00:39:06 $Revision: r
11ros/cup_ros_ep3_pb/12 PATCH_11.00 (PHKL_18
543)
/usr/conf/lib/libpci.a(epic.o):
epic.c $Date: 1999/05/10 00:39:11 $Revision: r11ros/
cup_ros_ep3_pb/4 PATCH_11.00 (PHKL_18543)
/usr/conf/lib/libpci.a(epic_cdio.o):
epic_cdio.c $Date: 1999/05/10 00:39:14 $Revision: r1
1ros/cup_ros_ep3_pb/11 PATCH_11.00 (PHKL_185
43)
/usr/conf/lib/libpci.a(epic_chnl.o):
epic_chnl.c $Date: 1998/12/15 09:27:10 $Revision: r1
1ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1720
5)
/usr/conf/lib/libpci.a(epic_errors.o):
epic_errors.c $Date: 1998/12/15 09:27:14 $Revision:
r11ros/cup_ros_ep1_pb/3 PATCH_11.00 (PHKL_17
205)
/usr/conf/lib/libhp-ux.a(spp_sim_disk.o):
spp_sim_disk.c $Date: 1998/12/15 09:27:46 $Revision:
r11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1
7205)
/usr/conf/lib/libhp-ux.a(spp_sim_libc.o):
spp_sim_libc.s $Date: 1998/12/15 09:27:55 $Revision:
r11ros/cup_ros_ep1_pb/2 PATCH_11.00 (PHKL_1
7205)
OS-Core.KERN2-RUN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP:
/usr/conf/master.d/core-hpux:
core-hpux $Date: 1999/05/10 00:36:45 $Revision: r11r
os/cup_ros_ep3_pb/7 PATCH_11.00 (PHKL_18543)
/usr/conf/master.d/fs-tune:
fs-tune $Date: 1998/06/22 11:48:20 $Revision: r11ros
/3 PATCH_11.00 (PHKL_15705)
/usr/conf/master.d/pmon:
pmon $Date: 1999/05/10 00:36:48 $Revision: r11ros/cu
p_ros_ep3_pb/5 PATCH_11.00 (PHKL_18543)
/usr/conf/master.d/scsi-tune:
scsi-tune $Date: 1998/06/22 11:48:22 $Revision: r11r
os/3 PATCH_11.00 (PHKL_15705)
/usr/conf/master.d/vm-tune:
vm-tune $Date: 1998/04/06 16:43:05 $Revision: r11ros
/3 PATCH_11.00 (PHKL_12965)
/usr/conf/space.h.d/core-hpux.h:
core-hpux.h $Date: 1998/11/09 13:37:50 $Revision: r1
1ros/5 PATCH_11.00 (PHKL_17258)
/usr/conf/space.h.d/fs-tune.h:
fs-tune.h $Date: 1999/04/29 09:43:50 $Revision: r11r
os/5 PATCH_11.00 (PHKL_18295)
/usr/conf/space.h.d/fss-space.h:
fss-space.h $Date: 1998/04/06 16:43:16 $Revision: r1
1ros/2 PATCH_11.00 (PHKL_12965)
/usr/conf/space.h.d/scsi-tune.h:
scsi-tune.h $Date: 1998/06/22 11:48:29 $Revision: r1
1ros/3 PATCH_11.00 (PHKL_15705)
/usr/conf/space.h.d/vm-tune.h:
vm-tune.h $Date: 1998/04/06 16:43:18 $Revision: r11r
os/4 PATCH_11.00 (PHKL_12965)
cksum(1) Output:
JournalFS.VXFS-PRG,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
253924930 45213 /usr/include/sys/fs/vx_inode.h
267387317 8966 /usr/include/sys/fs/vx_param.h
OS-Core.CORE-KRN,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
2371260986 12946 /usr/conf/graf/gpu_data.h
980658321 8302 /usr/conf/graf/graph3.h
2518758618 22328 /usr/conf/graf/ite.h
2464722190 41146 /usr/conf/graf/stirom.h
3259429876 27991 /usr/conf/h/buf.h
3329977261 2612 /usr/conf/h/debug.h
4057868600 1822 /usr/conf/h/dnlc.h
3289258175 9361 /usr/conf/h/fcntl.h
937397600 6642 /usr/conf/h/file.h
885997083 24742 /usr/conf/h/framebuf.h
2360736312 5396 /usr/conf/h/fss.h
3178026275 11550 /usr/conf/h/io.h
1199649859 21432 /usr/conf/h/malloc.h
1607606170 9563 /usr/conf/h/mman.h
1599981846 20741 /usr/conf/h/mp.h
2905339813 28244 /usr/conf/h/mtio.h
1310013350 15700 /usr/conf/h/pregion.h
1292908916 80506 /usr/conf/h/pstat.h
3280087804 12321 /usr/conf/h/region.h
3283680823 6903 /usr/conf/h/resource.h
4168749722 11360 /usr/conf/h/semglobal.h
3233424505 23587 /usr/conf/h/spinlock.h
1800495971 8228 /usr/conf/h/stat.h
130974338 4680 /usr/conf/h/statvfs.h
2998382131 10292 /usr/conf/h/stdsyms.h
2337317224 8728 /usr/conf/h/ttrace.h
3177510744 40195 /usr/conf/h/unistd.h
1034232905 12293 /usr/conf/h/user.h
817609632 16774 /usr/conf/h/vas.h
228326729 2701 /usr/conf/h/vm_skiplist.h
1124419633 14451 /usr/conf/io/dma.h
1561712295 27909 /usr/conf/machine/cpu.h
3475024582 3595 /usr/conf/machine/hdl_pfdat.h
2423079795 2993 /usr/conf/machine/iodc_prf.h
1232512304 1114 /usr/conf/machine/locore.h
3926445421 660 /usr/conf/machine/momd.h
1020249100 19094 /usr/conf/machine/param.h
2131716029 54466 /usr/conf/machine/pdc_rqsts.h
681950643 21848 /usr/conf/machine/pde.h
664343601 16801 /usr/conf/machine/spl.h
1232142439 11291 /usr/conf/sio/async.h
1238107351 27664 /usr/conf/wsio/pci.h
900828119 17750 /usr/conf/wsio/wsio.h
ProgSupport.C-INC,fr=B.11.00,fa=HP-UX_B.11.00_32/64,v=HP:
3259429876 27991 /usr/include/sys/buf.h
3329977261 2612 /usr/include/sys/debug.h
4057868600 1822 /usr/include/sys/dnlc.h
3289258175 9361 /usr/include/sys/fcntl.h
937397600 6642 /usr/include/sys/file.h
885997083 24742 /usr/include/sys/framebuf.h
2360736312 5396 /usr/include/sys/fss.h
3178026275 11550 /usr/include/sys/io.h
1199649859 21432 /usr/include/sys/malloc.h
1607606170 9563 /usr/include/sys/mman.h
1599981846 20741 /usr/include/sys/mp.h
2905339813 28244 /usr/include/sys/mtio.h
1310013350 15700 /usr/include/sys/pregion.h
1292908916 80506 /usr/include/sys/pstat.h
3280087804 12321 /usr/include/sys/region.h
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2883280972 4024 /usr/conf/lib/libhp-ux.a(spp_sim_libc.o)
OS-Core.KERN2-RUN,fr=B.11.00,fa=HP-UX_B.11.00_64,v=HP:
546014862 18946 /usr/conf/master.d/core-hpux
456940415 951 /usr/conf/master.d/fs-tune
2386882184 490 /usr/conf/master.d/pmon
3420255824 1241 /usr/conf/master.d/scsi-tune
2448627391 260 /usr/conf/master.d/vm-tune
4256552607 21605 /usr/conf/space.h.d/core-hpux.h
2717228635 1742 /usr/conf/space.h.d/fs-tune.h
86998728 419 /usr/conf/space.h.d/fss-space.h
2496279359 1603 /usr/conf/space.h.d/scsi-tune.h
3498856025 407 /usr/conf/space.h.d/vm-tune.h
Patch Conflicts: None
Patch Dependencies:
s700: 11.00: PHCO_13411 PHCO_17058 PHKL_17038 PHKL_19169 PHKL_20016
PHKL_20674 PHKL_22589
s800: 11.00: PHCO_13411 PHCO_17058 PHKL_17038 PHKL_19169 PHKL_20016
PHKL_20674 PHKL_22589
Hardware Dependencies: None
Other Dependencies:
- If HyperFabric B.11.00.00 or HyperFabric B.11.00.01 is
installed, PHNE_16199 must also be installed.
- If OnLine JFS is installed and applications utilizing
DMAPI, such as OmniStorage, are being used PHKL_22208
should also be installed.
Supersedes:
PHKL_14045 PHKL_13081 PHKL_17700 PHKL_17524 PHKL_17391 PHKL_17046
PHKL_17040 PHKL_17039 PHKL_16952 PHKL_16794 PHKL_16639 PHKL_16274
PHKL_16144 PHKL_15770 PHKL_15719 PHKL_15641 PHKL_15622 PHKL_15555
PHKL_15553 PHKL_15551 PHKL_15508 PHKL_15488 PHKL_15487 PHKL_15480
PHKL_15476 PHKL_15084 PHKL_14806 PHKL_14769 PHKL_14768 PHKL_14767
PHKL_14751 PHKL_14729 PHKL_14703 PHKL_14606 PHKL_14554 PHKL_14551
PHKL_14536 PHKL_14532 PHKL_14456 PHKL_14426 PHKL_14111 PHKL_14069
PHKL_14047 PHKL_14046 PHKL_13870 PHKL_13794 PHKL_13676 PHKL_13673
PHKL_13646 PHKL_13644 PHKL_13551 PHKL_13505 PHKL_13343 PHKL_13328
PHKL_13278 PHKL_13219 PHKL_13193 PHKL_13045 PHKL_13023 PHKL_16313
PHKL_15910 PHKL_15721 PHKL_15674 PHKL_15554 PHKL_14764 PHKL_14748
PHKL_14747 PHKL_14745 PHKL_14135 PHKL_14063 PHKL_13574 PHKL_13387
PHKL_13201 PHKL_13200 PHKL_14749 PHKL_14464 PHKL_18123 PHKL_16875
PHKL_15510 PHKL_15485 PHKL_15325 PHKL_15050 PHKL_14805 PHKL_14292
PHKL_14174 PHKL_14088 PHKL_14070 PHKL_14034 PHKL_13858 PHKL_13810
PHKL_13552 PHKL_13052 PHKL_12965 PHKL_18534 PHKL_18533 PHKL_18531
PHKL_18295 PHKL_18141 PHKL_17999 PHKL_17953 PHKL_17869 PHKL_17817
PHKL_17795 PHKL_17458 PHKL_17390 PHKL_17258 PHKL_17205 PHKL_17091
PHKL_16876 PHKL_16840 PHKL_16819 PHKL_16749 PHKL_16318 PHKL_16260
PHKL_16236 PHKL_16182 PHKL_16135 PHKL_15705
Equivalent Patches: None
Patch Package Size: 19900 KBytes
Installation Instructions:
Please review all instructions and the Hewlett-Packard
SupportLine User Guide or your Hewlett-Packard support terms
and conditions for precautions, scope of license,
restrictions, and, limitation of liability and warranties,
before installing this patch.
------------------------------------------------------------
1. Back up your system before installing a patch.
2. Login as root.
3. Copy the patch to the /tmp directory.
4. Move to the /tmp directory and unshar the patch:
cd /tmp
sh PHKL_18543
5. Run swinstall to install the patch:
swinstall -x autoreboot=true -x patch_match_target=true \
-s /tmp/PHKL_18543.depot
By default swinstall will archive the original software in
/var/adm/sw/save/PHKL_18543. If you do not wish to retain a
copy of the original software, use the patch_save_files option:
swinstall -x autoreboot=true -x patch_match_target=true \
-x patch_save_files=false -s /tmp/PHKL_18543.depot
WARNING: If patch_save_files is false when a patch is installed,
the patch cannot be deinstalled. Please be careful
when using this feature.
For future reference, the contents of the PHKL_18543.text file is
available in the product readme:
swlist -l product -a readme -d @ /tmp/PHKL_18543.depot
To put this patch on a magnetic tape and install from the
tape drive, use the command:
dd if=/tmp/PHKL_18543.depot of=/dev/rmt/0m bs=2k
Special Installation Instructions:
If PHKL_18543 is installed on a system that does not have
Advanced VxFS, then the Advanced VxFS driver 'vxadv' will be
commented out of the /usr/conf/master.d/vxfs file as follows:
* Disabling AdvJournalFS: vxadv vxadvc 10 100 ...
The following note will be logged in the swagent.log file:
NOTE: "AdvJournalFS" product is now disabled. Any vxadv driver in
the system file will be ignored. If you install the 11.00
version of "AdvJournalFS", you must again install this patch,
PHKL_18543.
(The reinstall* options must be set to false - the default.)
If the Advanced VxFS product is subsequently installed, PHKL_18543
must be reinstalled as specified in the note above, otherwise the
following warning will occur when creating a kernel and the Advanced
VxFS features will not be available:
WARNING: No such device, tunable, or cdio vxadv.
Ignoring the following line.
vxadv
Please apply this patch along with command patch PHCO_13411.
Failure to do so, ie. applying one without the other, will
result in fsck failure, or even fsck corrupting the
filesystem.
The new features in PHKL_13552 are only supported for
V-Class 64-bit systems. Non-V-Class systems can install
this patch with no impact to those systems. The following
patches rely on PHKL_13552 to enable certain features:
PHCO_13606: SAM recognition of new tunables
PHCO_13571: insf, mksf, lssf recognize new devices
PHCO_13494: fbackup/frecover recognize new devices
To enable large record support on V-Class systems, you will
need to set the following tunables:
scsi_maxphys 16777215
st_large_recs 1
To enable failed data overruns where stape reads are shorter
than the actual record size, use:
st_fail_overruns 1
Installing PHKL_17040 on PCI based systems will add diag1 to
the /stand/system file and create the /dev/diag/diag1 device
file. Removing PHKL_17040 will delete diag1 from
/stand/system file and remove the /dev/diag/diag1 device
file from the system. Installing/Removing any patch
superseding PHKL_17040 will leave the system in the state
it was prior to installing the patch.
It may be necessary to boot on a backup kernel to recover
from the boot hang before installing this fix.
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