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This chapter describes the functions and the system management of SDA.
It describes initialization, operation, and procedures in analyzing a
system dump and analyzing a running system. This chapter also describes
the SDA context, the command format, and the way both to investigate
system failures and induce system failures.
2.1 Capabilities of SDA
When a system failure occurs, the operating system copies the contents of memory to a system dump file or the primary page file, recording the hardware context of each processor in the system as well. The System Dump Analyzer (SDA) is a utility that allows you to interpret the contents of this file, examine the status of each processor at the time of the system failure, and investigate the probable causes of the failure.
You can invoke SDA to analyze a system dump, using the DCL command ANALYZE/CRASH_DUMP. You can then use SDA commands to perform the following operations:
Although SDA provides a great deal of information, it does not automatically analyze all the control blocks and data contained in memory. For this reason, in the event of system failure, it is extremely important that you save not only the output provided by SDA commands, but also a copy of the system dump file written at the time of the failure.
You can also invoke SDA to analyze a running system, using the DCL command ANALYZE/SYSTEM. Most SDA commands generate useful output when entered on a running system.
Although analyzing a running system may be instructive, you should undertake such an operation with caution. System context, process context, and a processor's hardware context can change during any given display. In a multiprocessing environment, it is very possible that, during analysis, a process running SDA could be rescheduled to a different processor frequently. Therefore, avoid examining the hardware context of processors in a running system. |
The system manager must ensure that the system writes a dump file
whenever the system fails. The manager must also see that the dump file
is large enough to contain all the information to be saved, and that
the dump file is saved for analysis. The following sections describe
these tasks.
2.2.1 Writing System Dumps
The operating system attempts to write information into the system dump file only if the system parameter DUMPBUG is set. (The DUMPBUG parameter is set by default. To examine and change its value, consult the HP OpenVMS System Manager's Manual, Volume 2: Tuning, Monitoring, and Complex Systems.) If DUMPBUG is set and the operating system fails, the system manager has the following choices for writing system dumps:
There are two types of dump files---a full memory dump (also known as a physical dump), and a dump of selected virtual addresses (also known as a selective dump). Both full and selective dumps may be produced in either compressed or uncompressed form. Compressed dumps save disk space and time taken to write the dump at the expense of a slight increase in time to access the dump with SDA. The SDA commands COPY/COMPRESS and COPY/DECOMPRESS can be used to convert an existing dump.
A dump can be written to the system disk, or to another disk set aside for dumps. When using a disk other than a system disk, the disk name is set in the console environment variable DUMP_DEV. This disk is also known as the "dump off system disk" (DOSD) disk.
When writing a system dump, information about the crash is displayed at the system console. This can be either minimal output (for example, bug check code, process name, and image name), or verbose output (for example, executive layout, stack and register contents).
In an OpenVMS Galaxy system, shared memory is dumped by default. It is sometimes necessary to disable the dumping of shared memory. For more information about shared memory, see HP OpenVMS Alpha Partitioning and Galaxy Guide.
DUMPSTYLE, which specifies the method of writing system dumps, is a 32-bit mask. Table 2-1 shows how the bits are defined. Each bit can be set independently. The value of the SYSGEN parameter is the sum of the values of the bits that have been set. Remaining or undefined values are reserved to HP.
Bit | Value | Description |
---|---|---|
0 | 1 |
0= Full dump. The entire contents of physical memory will be written to
the dump file.
1= Selective dump. The contents of memory will be written to the dump file selectively to maximize the usefulness of the dump file while conserving disk space. (Only pages that are in use are written). |
1 | 2 |
0= Minimal console output. This consists of the bugcheck code; the
identity of the CPU, process, and image where the crash occurred; the
system date and time; plus a series of dots indicating progress writing
the dump.
1= Full console output. This includes the minimal output previously described plus stack and register contents, system layout, and additional progress information such as the names of processes as they are dumped. |
2 | 4 |
0= Dump to system disk. The dump will be written to
SYS$SYSDEVICE:[SYSn.SYSEXE]SYSDUMP.DMP, or in its absence,
SYS$SYSDEVICE:[SYSn.SYSEXE]PAGEFILE.SYS.
1= Dump to alternate disk. The dump will be written to dump_dev:[SYSn.SYSEXE]SYSDUMP.DMP, where dump_dev is the value of the console environment variable DUMP_DEV. |
3 | 8 |
0= Uncompressed dump. Pages are written directly to the dump file.
1= Compressed dump. Each page is compressed before it is written, providing a saving in space and in the time taken to write the dump, at the expense of a slight increase in time taken to access the dump. |
4 | 16 |
0= Dump shared memory.
1= Do not dump shared memory. |
5--31 | Reserved to HP. |
The default setting for DUMPSTYLE is 9 (a compressed selective dump,
including shared memory, written to the system disk). Unless a value
for DUMPSTYLE is specified in MODPARAMS.DAT, AUTOGEN.COM will set
DUMPSTYLE either to 1 (an uncompressed selective dump, including shared
memory, written to the system disk) if there is less than 128 megabytes
of memory on the system, or to 9 (a compressed selective dump,
including shared memory, written to the system disk).
2.2.1.2 Comparison of Full and Selective Dumps
A full dump requires that all physical memory be written to the dump file. This ensures the presence of all the page table pages required for SDA to emulate translation of system virtual addresses. Any even-numbered value in the DUMPSTYLE system parameter generates a full dump.
In certain system configurations, it may be impossible to preserve the entire contents of memory in a disk file. For instance, a large memory system or a system with small disk capacity may not be able to supply enough disk space for a full memory dump. If the system dump file cannot accommodate all of memory, information essential to determining the cause of the system failure may be lost.
To preserve those portions of memory that contain information most useful in determining the causes of system failures, a system manager sets the value of the DUMPSTYLE system parameter to specify a dump of selected virtual address spaces. In a selective dump, related pages of virtual address space are written to the dump file as units called logical memory blocks (LMBs). For example, one LMB consists of the page tables for system space; another is the address space of a particular process. Those LMBs most likely to be useful in crash dump analysis are written first. Any odd-numbered value in the DUMPSTYLE system parameter generates a selective dump.
Table 2-2 compares full and selective style dumps.
Item | Full | Selective |
---|---|---|
Available Information | Complete contents of physical memory in use, stored in order of increasing physical address. | System page table, global page table, system space memory, and process and control regions (plus global pages) for all saved processes. |
Unavailable Information | Contents of paged-out memory at the time of the system failure. | Contents of paged-out memory at the time of the system failure, process and control regions of unsaved processes, and memory not mapped by a page table. |
SDA Command Limitations | None. | The following commands are not useful for unsaved processes: SHOW PROCESS/CHANNELS, SHOW PROCESS/IMAGE, SHOW PROCESS/RMS, SHOW STACK, and SHOW SUMMARY/IMAGE. |
You can adjust the size of the system page file and dump file using AUTOGEN (the recommended method) or by using SYSGEN.
AUTOGEN automatically calculates the appropriate sizes for page and dump files. AUTOGEN invokes the System Generation utility (SYSGEN) to create or change the files. However, you can control sizes calculated by AUTOGEN by defining symbols in the MODPARAMS.DAT file. The file sizes specified in MODPARAMS.DAT are copied into the PARAMS.DAT file during AUTOGEN's GETDATA phase. AUTOGEN then makes appropriate adjustments in its calculations.
Although HP recommends using AUTOGEN to create and modify page and dump file sizes, you can use SYSGEN to directly create and change the sizes of those files.
The sections that follow discuss how you can calculate the size of a dump file.
See the HP OpenVMS System Manager's Manual for detailed information about using AUTOGEN and
SYSGEN to create and modify page and dump file sizes.
2.2.1.4 Writing to the System Dump File
OpenVMS writes the contents of the error-log buffers, processor registers, and memory into the system dump file, overwriting its previous contents. If the system dump file is too small, OpenVMS cannot copy all memory to the file when a system failure occurs.
SYS$SYSTEM:SYSDUMP.DMP (SYS$SPECIFIC:[SYSEXE]SYSDUMP.DMP) is created during installation. To successfully store a crash dump, SYS$SYSTEM:SYSDUMP.DMP must be enlarged to hold all of memory (full dump) or all of system space and the key processes (selective dump).
To calculate the correct size for an uncompressed full dump to SYS$SYSTEM:SYSDUMP.DMP, use the following formula:
size-in-blocks(SYS$SYSTEM:SYSDUMP.DMP) = size-in-pages(physical-memory) * blocks-per-page + number-of-error-log-buffers * blocks-per-buffer + 10 |
Use the DCL command SHOW MEMORY to determine the total size of physical
memory on your system. There is a variable number of error log buffers
in any given system, depending on the setting of the ERRORLOGBUFF_S2
system parameter. The size of each buffer depends on the setting of the
ERLBUFFERPAG_S2 parameter. (See the HP OpenVMS System Manager's Manual for additional
information about these parameters.)
2.2.1.5 Writing to a Dump File off the System Disk
OpenVMS allows you to write the system dump file to a device other than the system disk. This is useful in large memory systems and in clusters with common system disks where sufficient disk space, on one disk, is not always available to support customer dump file requirements. To perform this activity, the DUMPSTYLE system parameter must be correctly enabled to allow the bugcheck code to write the system dump file to an alternative device.
The requirements for writing the system dump file off the system disk are the following:
DUMPFILE_DEVICE = $nnn$ddcuuuu |
For information on how to write the system dump file to an alternative
device to the system disk, see the HP OpenVMS System Manager's Manual, Volume 2: Tuning, Monitoring, and Complex Systems.
2.2.1.6 Writing to the System Page File
If SYS$SYSTEM:SYSDUMP.DMP does not exist, and there is no DOSD device or dump file, the operating system writes the dump of physical memory into SYS$SYSTEM:PAGEFILE.SYS, the primary system page file, overwriting the contents of that file.
If the SAVEDUMP system parameter is set, the dump file is retained in PAGEFILE.SYS when the system is booted after a system failure. If the SAVEDUMP parameter is not set, which is the default, OpenVMS uses the entire page file for paging and any dump written to the page file is lost. (To examine or change the value of the SAVEDUMP parameter, consult the HP OpenVMS System Manager's Manual, Volume 2: Tuning, Monitoring, and Complex Systems.)
To calculate the minimum size for a full memory dump to SYS$SYSTEM:PAGEFILE.SYS, use the following formula:
size-in-blocks(SYS$SYSTEM:PAGEFILE.SYS) = size-in-pages(physical-memory) * blocks-per-page + number-of-error-log-buffers * blocks-per-buffer + 10 + value of the system parameter RSRVPAGCNT * blocks-per-page |
Note that this formula calculates the minimum size requirement for saving a physical dump in the system's page file. HP recommends that the page file be a bit larger than this minimum to avoid hanging the system. Also note that you can only write the system dump into the primary page file (SYS$SYSTEM:PAGEFILE.SYS). Secondary page files cannot be used to save dump file information.
Note also that OpenVMS will not fill the page file completely when writing a system dump, since the system might hang when rebooting after a system crash. RSRVPAGCNT pages are kept unavailable for dumps. This applies to both full dumps and selective dumps.
Writing crash dumps to SYS$SYSTEM:PAGEFILE.SYS presumes that you will later free the space occupied by the dump for use by the pager. Otherwise, your system may hang during the startup procedure. To free this space, you can do one of the following:
Every time the operating system writes information to the system dump file, it writes over whatever was previously stored in the file. The system writes information to the dump file whenever the system fails. For this reason, the system manager must save the contents of the file after a system failure has occurred.
The system manager can use the SDA COPY command or the DCL COPY command. Either command can be used in a site-specific startup procedure, but the SDA COPY command is preferred because it marks the dump file as copied. As mentioned earlier, this is particularly important if the dump was written into the page file, SYS$SYSTEM:PAGEFILE.SYS, because it releases those pages occupied by the dump to the pager. Another advantage of using the SDA COPY command is that this command copies only the saved number of blocks and not necessarily the whole allotted dump file. For instance, if the size of the SYSDUMP.DMP file is 100,000 blocks and the bugcheck wrote only 60,000 blocks to the dump file, then DCL COPY would create a file of 100,000 blocks. However, SDA COPY would generate a file of only 60,000 blocks.
Because system dump files are set to NOBACKUP, the Backup utility (BACKUP) does not copy them to tape unless you use the qualifier /IGNORE=NOBACKUP when invoking BACKUP. When you use the SDA COPY command to copy the system dump file to another file, OpenVMS does not set the new file to NOBACKUP.
As created during installation, the file SYS$SYSTEM:SYSDUMP.DMP is
protected against world access. Because a dump file can contain
privileged information, HP recommends that the system manager does not
change this default protection.
2.2.3 Invoking SDA When Rebooting the System
When the system reboots after a system failure, SDA is automatically invoked by default. SDA archives information from the dump in a history file. In addition, a listing file with more detailed information about the system failure is created in the directory pointed to by the logical name CLUE$COLLECT. (Note that the default directory is SYS$ERRORLOG unless you redefine the logical name CLUE$COLLECT in the procedure SYS$MANAGER:SYLOGICALS.COM.) The file name is in the form CLUE$node_ddmmyy_hhmm.LIS where the timestamp (hhmm) corresponds to the system failure time and not the time when the file was created.
Directed by commands in a site-specific file, SDA can take additional steps to record information about the system failure. They include the following:
The following example shows SDA commands that can make up your site-specific command file to produce a more complete SDA listing after each system failure, and to save a copy of the dump file:
! ! SDA command file, to be executed as part of the system ! bootstrap from within CLUE. Commands in this file can ! be used to save the dump file after a system bugcheck, and ! to execute any additional SDA commands. ! ! Note that the logical name DMP$ must have been defined ! within SYS$MANAGER:SYLOGICALS.COM ! READ/EXEC ! read in the executive images' symbol tables SHOW STACK ! display the stack COPY DMP$:SAVEDUMP.DMP ! copy and save dump file ! |
The CLUE HISTORY command is executed first, followed by the SDA commands in this site-specific command file. See the reference section on CLUE HISTORY for details on the summary information that is generated and stored in the CLUE list file by the CLUE HISTORY command. Note that the SDA COPY command must be the last command in the command file. If the dump has been written to PAGEFILE.SYS, then the space used by the dump will be automatically returned for use for paging as soon as the COPY is complete and no more analysis is possible.
To point to your site-specific file, add a line such as the following to the file SYS$MANAGER:SYLOGICALS.COM:
$ DEFINE/SYSTEM CLUE$SITE_PROC SYS$MANAGER:SAVEDUMP.COM |
In this example, the site-specific file is named SAVEDUMP.COM.
The CLUE list file can be printed immediately or saved for later examination.
SDA is invoked and executes the specified commands only when the system boots for the first time after a system failure. If the system is booting for any other reason (such as a normal system shutdown and reboot), SDA exits.
If CLUE files occupy more space than the threshold allows (the default is 5000 blocks), the oldest files will be deleted until the threshold limit is reached. The threshold limit can be customized with the CLUE$MAX_BLOCK logical name.
To prevent the running of CLUE at system startup, define the logical CLUE$INHIBIT in the SYLOGICALS.COM file as TRUE in the system logical name table.
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