1    Release Notes

This chapter provides information that you must be aware of when working with DIGITAL UNIX 4.0C Patch Kit-0007.

1.1    Required Storage Space

The following storage space is required to successfully install this patch kit:

Base Operating System

1.2    New dupatch Features

The following sections describe new features of dupatch.

1.2.1    Dupatch-based Patch Kits for ASE and TCR Patches

Patches for ASE and TCR are now installed, removed, and managed through dupatch. The ASE and TCR patch kits have been converted to dupatch-based patch kits and distributed in the same patch distribution as the applicable operating system.

The multi-product support within dupatch is most visible when installing or removing patches. dupatch will display a list of the products which are on the system and in the patch kit, allowing the user to select one or more products before proceeding with patch selections.

You must load the new patch tools provided in this patch kit. See the Patch Kit Installation Instructions for more information.

Since all prior ASE and TCR patches have been installed manually, you must set the system patch baseline. See the Patch Kit Installation Instructions for detailed information.

1.2.2    New Cross-Product Patch Dependency Management

The dupatch utility now manages patch dependencies across the DIGITAL UNIX operating system, ASE, and TCR patch kits. An example of patch cross-product dependency handling for a system with both DIGITAL UNIX 4.0C and TCR 1.5 installed follows:

1.2.3    Patch Special Instruction Handling by dupatch

The format and content of the per-patch special instructions has been revised to make it easier to use. The special instructions are now displayed when patches are removed. The per-patch special instructions are viewable through the dupatch documentation menu.

1.2.4    Patch Tracking and Documentation Viewing

The patch tracking and documentation viewing features within dupatch can now be used in multi-user mode by non-root users. See the Patch Kit Installation Instructions for more information.

From the dupatch patch tracking menu you can now list the patch kits from which patches installed on your system originated.

1.2.5    System Patch Baselining

The system patch baselining feature of dupatch has been improved. Phase 4 now reports all missing or unknown system files regardless of their applicability to the patch kit. This will help you identify the origin of manually changed system files. See the Patch Kit Installation Instructions for more information.

1.2.6    New Command Line Interface Switches

The dupatch command line mode contains the following new switches:

Any error on the command line will cause the help information to be displayed on the screen.

If any mandatory switch is missing when using the command line interface, the command fails with the appropriate usage message. Once you select the command line interface, dupatch will not go into interactive mode. Prompting is no longer mixed with the command line interface.

1.2.7    Compatibility Between Revisions of dupatch

The new dupatch will work with older revisions of dupatch-based patch kits.

The older revisions of dupatch, however, rev 15 and lower, do not know how to install, remove, or manage patches from the new style patch kits. Please ensure that you load the new patch installation tools when you receive this patch kit. See the Patch Kit Installation Instructions for more information.

1.3    Release Note for Nonreversible Install

An fgrep message may appear while installing all the patches as nonreversible, or while update installing a patched system to a later release; for example, V4.0D.

fgrep: input too long

You may ignore this message.

1.4    Release Note for Patch 673.00

The following represents an update to the cc(1) reference page:

A new switch, -input_to_ld, has been added to the cc compiler.
 
This new switch allows the passing of the "-input filename" switch to ld via
cc, without changing the file's relative position in the ld command line.
 
Note that using the -Wl switch to do this (-Wl, -input, filename) impacts the
order in which files are presented to the linker and can result in an invalid
executable being created.  This is due to the cc compiler's convention of
placing all arguments passed via -Wl on the command line first, followed by
any switches or object files entered by the user on the cc command line that
are meant for ld.  This convention results in the .o files specified with
-Wl, -input, filename to be included before all other .o files on the command
line, and before /usr/lib/cmplrs/cc/crt0.o, which is the transfer point for
all executables.  The linker lays out the code in the order in which it sees
the input .o files, so their order on the ld command line is important.
 

1.5    Release Note for Patch 693.00

The following is an update to the mount (8) reference page in the AdvFS Options section of the mount -o Flag Options:

        atimes
 
                Flushes to disk the file access time changes for reads
                of regular files.
                This is the default XPG4 behavior.
 
        noatimes
 
                Marks file access time changes for reads of regular files
                in memory, but does not flush them to disk until other file
                modifications occur.  This behavior does not comply with
                industry standards and is used to reduce disk writes for
                applications with no dependencies on file access times.
 
read(2):
 
       [DIGITAL] If the file is a regular file and belongs to an AdvFS
       fileset mounted with the AdvFS option noatimes, the read, readv,
       or pread function marks the st_atime field of the file for update.
       If the file otherwise remains unchanged, the new st_atime value
       is not flushed to disk.  See mount(8) for more information on the
       noatimes mount option.

The following is an update to the System Configuration and Tuning Guide, Appendix B, Section 1, "AdvFS Subsystem Attributes":

AdvfsPreallocAccess
 
      AdvFS will allocate this number of access structures to the AdvFS
      access structure freelist at startup.  The minimum value is 128,
      the maximum value is 65536.  The actual value allocated at startup
      will be adjusted to honor the AdvfsAccessMaxPercent configurable.
 
      Default value: 128
 
      On larger systems, a larger value than the default value of 128 may
      improve performance by slowing the rate of access structure recycling,
      allowing cached file metadata to stay in main storage.

1.6    Release Note for Patch 394.00

Before the line discipline streams module (ldtty) closes, it sleeps for 30 seconds, waiting for the write queue to drain. In this situation, the sleep time needs to be longer. There is a kernel global variable, ldtty_drain_tmo, that specifies this time. This variable can now be patched using dbx.

# dbx -k /vmunix
 
(dbx) print ldtty_drain_tmo
30
(dbx) patch ldtty_drain_tmo=60
60
(dbx) quit
#

Some experimentation may be necessary to find the correct value for a specific customer environment.

1.7    Release Notes for Patch 599.00

The following table lists the tape compatibility for the TZ85, TZ86, TZ87, TZ88, and TZ89 tape drives.

Table 1-1:  Media Type for TZn Tape Drives

Media Type Drive Type
CompacTapeI TZ30, TK50
CompacTapeII TZ30, TK50, TK70, TZ85, TZ86
CompacTapeIII TZ85, TZ86, TZ87, TZ88, TZ89
CompacTapeIIIXT TZ88, TZ89
CompacTapeIV TZ88, TZ89

Table 1-2 provides information about TZ85, TZ86, TZ87, TZ88, and TZ89 tape drives. Note that in the capacity column, a number followed by an asterisk (*) assumes a 2:1 compression ratio. The actual compression ratio may vary depending on the type of data being compressed.

Table 1-2:  Supported Formats for TZn Tape Drives

Format Device Special Density Code Compression Capacity Cartridge I/O Supported
TZ85 rmt?a 1ah N/A 2.6 GB CompacTape III Read-only
TZ85 rmt?l 1ah N/A 2.6 GB CompacTape III Read-only
TZ86 rmt?a 1ah N/A 10.0 GB CompacTape III Read-only
TZ86 rmt?l 1ah N/A 10.0 GB CompacTape III Read-only
TZ87 rmt?a 1ah Off 10.0 GB CompacTape III Read-only
TZ87 rmt?l 1ah On 20.0 GB* CompacTape III Read-only
TZ87 rmt?m 00h Off 10.0 GB CompacTape III Read/write
TZ87 rmt?h 00h On 20.0 GB* CompacTape III Read/write
TZ88 rmt?a 1ah Off 15.0 GB CompacTapeIIIXT Read-only
TZ88 rmt?l 1ah Off 30.0 GB* CompacTapeIIIXT Read-only
TZ88 rmt?m 00h Off 15.0 GB CompacTapeIIIXT Read/write
TZ88 rmt?h 00h On 30.0 GB* CompacTapeIIIXT Read/write
TZ88 rmt?a 1ah Off 20.0 GB CompacTape IV Read/write
TZ88 rmt?l 1ah On 40.0 GB* CompacTape IV Read/write
TZ89 rmt?a 1ah Off 15.0 GB CompacTapeIIIXT Read-only
TZ89 rmt?l 1ah Off 30.0 GB* CompacTapeIIIXT Read-only
TZ89 rmt?m 00h Off 15.0 GB CompacTapeIIIXT Read/write
TZ89 rmt?h 00h On 30.0 GB* CompacTapeIIIXT Read/write
TZ89 rmt?m 00h Off 35.0 GB CompacTape IV Read/write
TZ89 rmt?h 00h On 70.0 GB* CompacTape IV Read/write

Table 1-3 lists the tape compatibility for the TLZ04, TLZ06, TLZ07, TLZ09, and TLZ10 tape drives.

Table 1-3:  Tape Compatibility for TLZn Tape Drives

Media Type Drive Type
DDS-1 (60m) TLZ04, TLZ06, TLZ07, TLZ09, TLZ10
DDS-1 (90m) TLZ06, TLZ07, TLZ09, TLZ10
DDS-2 (120m) TLZ07, TLZ09, TLZ10
DDS-3 (125m) TLZ10

Table 1-4 provides information about the TLZ-family of tape drives. The TLZ10 tape drives support variable block size. Note that in the capacity column, a number followed by an asterisk (*) assumes a 2:1 compression ratio. The actual compression ratio may vary depending on the type of data being compressed.

Table 1-4:  Supported Formats for TLZ10 Tape Drives

Format Device Special Density Code Compression Capacity Cartridge I/O Supported
TLZ04 rmt?a 00h N/A 1.3 GB DDS-1 (60m) Read/Write
TLZ04 rmt?l 00h N/A 1.3 GB DDS-1 60m) Read/Write
TLZ04 rmt?m 00h N/A 1.3 GB DDS-1 (60m) Read/Write
TLZ04 rmt?h 00h N/A 1.3 GB DDS-1 (60m) Read/Write
TLZ06 rmt?a 00h Off 1.3 GB DDS-1 (60m) Read/Write
TLZ06 rmt?l 00h Off 1.3 GB DDS-1 (60m) Read/Write
TLZ06 rmt?m 00h On 2.6 GB * DDS-1 (60m) Read/Write
TLZ06 rmt?h 00h On 2.6 GB * DDS-1 (60m) Read/Write
TLZ06 rmt?a 00h Off 2.0 GB DDS-1 (90m) Read/Write
TLZ06 rmt?l 00h Off 2.0 GB DDS-1 (90m) Read/Write
TLZ06 rmt?m 00h On 4.0 GB * DDS-1 (90m) Read/Write
TLZ06 rmt?h 00h On 4.0 GB * DDS-1 (90m) Read/Write
TLZ07 rmt?a 00h Off 4.0 GB DDS-2 Read/Write
TLZ07 rmt?l 00h Off 4.0 GB DDS-2 Read/Write
TLZ07 rmt?m 00h On 8.0 GB * DDS-2 Read/Write
TLZ07 rmt?h 00h On 8.0 GB * DDS-2 Read/Write
TLZ09 rmt?a 00h Off 4.0 GB DDS-2 Read/Write
TLZ09 rmt?l 00h Off 4.0 GB DDS-2 Read/Write
TLZ09 rmt?m 00h On 8.0 GB * DDS-2 Read/Write
TLZ09 rmt?h 00h On 8.0 GB * DDS-2 Read/Write
TLZ10 rmt?a 00h Off 12.0 GB DDS-3 Read/Write
TLZ10 rmt?l 00h Off 12.0 GB DDS-3 Read/Write
TLZ10 rmt?m 00h On 24.0 GB * DDS-3 Read/Write
TLZ10 rmt?h 00h On 24.0 GB * DDS-3 Read/Write

Table 1-5:  Supported Formats for TZS20 Tape Drives

Format Device Special Density Code Compression Capacity Cartridge I/O Supported
TZS20 rmt?a 00h Off 25.0 GB AIT Read/Write
TZS20 rmt?l 00h Off 25.0 GB AIT Read/Write
TZS20 rmt?m 00h On 50.0 GB * AIT Read/Write
TZS20 rmt?h 00h On 50.0 GB * AIT Read/Write

1.8    Release Note for Patch 393.00

The binlogd daemon sends messages to the filterlog utility. The filterlog utility keeps track of correctable CPU errors and reports them when a threshold has been reached.

The syntax is as follows:

filterlog [-d crdlog] [-s crdlength #] [-s crdcount #] [-s crdincrement
#] [-l]
 
FLAGS
  -d crdlog         - Dumps the CRD log.
  -d crdlifetime    - Dumps the CRD lifetime log.
  -l                - Logs entry read in from stdin. Used by binlogd.
  -s crdlength #    - Set the CRD interval time in minutes (24 hour
default).
  -s crdcount #     - Set the CRD interval count (50 default).
  -s crdincrement # - Set the CRD interval increment (100 default).

1.9    Release Note for Patch 569.00

The following sections contain reference page updates.

1.9.1    Reference Page Update for cron(8)

  1. Add the following to the DESCRIPTION section:

    When the cron daemon is started with the -d option, a trace of all jobs executed by cron is output to file /var/adm/cron/log.

  2. Add the following to the FILES section:

          /var/adm/cron/cron.deny
              List of denied users
          /var/adm/cron/log
              History information for cron
          /var/adm/cron/queuedefs
              Queue description file for at, batch, and cron

  3. Add queuedefs(4) to the Files: section of RELATED INFORMATION.

1.9.2    New Reference Page for queuedefs(4):

queuedefs(4)                                                     queuedefs(4)
 
 
NAME
 
  queuedefs - Queue description file for at, batch, and cron commands
 
DESCRIPTION
 
  The queuedefs file describes the characteristics of the queues managed by
  cron or specifies other characteristics for cron. Each non-comment line in
  this file describes either one queue or a cron characteristic. Each
  uncommented line should be in one of the following formats.
 
            q.[njobj][nicen][nwaitw]
            max_jobs=mjobs
            log=lcode
 
  The fields in these line are as follows:
 
        q   The name of the queue. Defined queues are as follows:
 
        a   The default queue for jobs started by at
 
        b   The default queue for jobs started by batch
 
        c   The default queue for jobs run from a crontab file
 
        Queues d to z are also available for local use.
 
  njob  The maximum number of jobs that can be run simultaneously in the
        queue; if more than njob jobs are ready to run, only the first njob
        jobs will be run. The others will be initiated as currently running
        jobs terminate.
 
  nice  The nice(1) value to give to all jobs in the queue that are not run
        with a user ID of superuser.
 
  nwait The number of seconds to wait before rescheduling a job that was
        deferred because more than njob jobs were running in that queue, or
        because the system-wide limit of jobs executing (max_jobs) has been
        reached.
 
  mjobs The maximum number of active jobs from all queues that may run at any
        one time. The default is 25 jobs.
 
  lcode Logging level of messages sent to a log file. The default is 4.
        Defined levels are as follows:
 
        level-code   level
 
            0        None
 
            1        Low
 
            2        Medium
 
            3        High
 
            4        Full
 
  Lines beginning with # are comments, and are ignored.
 
EXAMPLES
 
  The following file specifies that the b queue, for batch jobs, can have up
  to 50 jobs running simultaneously; that those jobs will be run with a nice
  value of 20. If a job cannot be run because too many other jobs are
  running, cron will wait 60 seconds before trying again to run it. All other
  queues can have up to 100 jobs running simultaneously; they will be run
  with a nice value of 2, and if a job cannot be run because too many other
  jobs are running, cron will wait 60 seconds before trying again to run it.
 
       b.50j20n60w
 
  The following file specifies that a total of 25 active jobs will be allowed
  by cron over all the queues at any one time, and cron will log all messages
  to the log file. The last two lines are comments that are ignored.
 
       max_jobs=25
       log=4
       # This is a comment
       # And so is this
 
FILES
 
  /var/adm/cron
          Main cron directory
 
  /var/adm/cron/queuedefs
          The default location for the queue description file.
 
RELATED INFORMATION
 
  Commands: at(1), cron(8), crontab(1), nice(1)
 

1.9.3    Reference Page Update for crontab(1):

    On days when the daylight saving time (DST) changes, cron schedules
    commands differently from normal.
 
    The 2 rules described below specify cron's scheduling policy
    for days when the DST changes. First some terms will be defined.
 
    An AMBIGUOUS time refers to a clock time that occurs twice
    in the same day because of a DST change (usually on a day during Fall).
 
    A NONEXISTENT time refers to a clock time that does not occur
    because of a DST change (usually on a day during Spring). 
 
    DSTSHIFT refers to the offset that is applied to standard time to
    result in daylight savings time. This is normally one hour, but can be
    any amount of time up to 23 hours and 59 minutes.
 
    The TRANSITION period starts at the first second after the DST shift
    occurs, and ends just before DSTSHIFT time later.
 
    An HOURLY command has a * in the hour field of the crontab entry.
 
 
    RULE 1: (AMBIGUOUS times)
    -------------------------
      A non-hourly command is run only once at the first occurrence
      of an ambiguous clock time.
 
           o  A non-hourly command scheduled for 01:15 and 01:17
              will be run at 01:15 and 01:17 EDT on 10/25/98
              and will not be run at 01:15 or 01:17 EST.
 
      An hourly command is run at all occurrences of an ambiguous time.
 
           o  An hourly command scheduled for *:15 and *:17
              will be run at 01:15 and 01:17 EDT on 10/25/98
              and also at 01:15 and 01:17 EST.
 
 
    RULE 2: (NONEXISTENT times)
    ---------------------------
      A command is run DSTSHIFT time after a nonexistent clock time.
 
      If the command is already scheduled to run at the newly shifted time,
      then the command is run only once at that clock time.
 
           o  A non-hourly command scheduled for 02:15 and 03:15
              will be run once at 03:15 EDT on 4/5/98.
 
           o  A non-hourly command scheduled for 02:15 and 02:17
              will be run once at 03:15 and once at 03:17 EDT on 4/5/98.
 
           o  An hourly command scheduled for *:15 and *:17
              will be run once at 03:15 and once at 03:17 EDT on 4/5/98.
 
 
    Note:
    Cron's behavior during the transition period is undefined if the
    DST shift crosses a day boundary, for example when the DST shift
    is 23:29:29->00:30:00 and the transition period is 00:30:00->01:29:59.
 
 
    -------------------------------------------------------------------------
    Here are sample DST change values (for Eastern US time EST/EDT).
    During the transition period, clock time may be either
    nonexistent (02:00-02:59 EST in Spring)
    or ambiguous (01:00-01:59 EDT or EST in Fall).
 
    Spring (April 5, 1998):
      DST shift:         01:59:59 EST 
-->
03:00:00 EDT
      transition period: 03:00:00 EDT 
-->
03:59:59 EDT
      DSTSHIFT:          1 hour forwards
 
    Fall (Oct 25, 1998):
      DST shift:         01:59:59 EDT 
-->
01:00:00 EST
      transition period: 01:00:00 EST 
-->
01:59:59 EST
      DSTSHIFT:          1 hour backwards
    -------------------------------------------------------------------------
 

1.10    Release Note for Patch 542.00

The updated reference page sections for lpr(1) follow:

The printer log, lpr.log now reports the creation of files preceded
by a dot (.) in the spooling directories.  Do not amend or delete
these files as the printer subsystem manages their creation and
cleanup.
 
For initial use, DIGITAL recommends that you set the logging level
to lpr.info.  If you have a problem that is escalated to technical
support, the support organization will request lpr.log at the
lpr.debug level.  This is because the DEBUG messages provide a
detailed trace that can only be interpreted by reference to the
source code and lpr.log will simply grow more quickly if DEBUG
messages are logged. The lpr.info level provides a shorter report
of an event, including any network retry messages and unusual
occurences (which are not always errors).  
 
All changes to the status file of a queue, including reports of
any files printed, are reported at the DEBUG level rather than the
INFO level.  This reduces the rate of growth of the file and allows
you to monitor and react to important events more quickly.  The
WARNING level logs events that may need to be attended to, while
the ERROR level logs hard (often fatal) errors.
 
To modify the logging level, edit your /etc/syslog.conf file and
change the lpr line to the required level, such as lpr.info as
follows:
 
          lpr.info      /var/adm/syslog.dated
 
Use the ps command to find the PID for the syslog daemon, and
the following command to re-start syslogd:
 
          # kill -HUP           
 
A new set of log files will be created in /var/adm/syslog.