Document revision date: 19 July 1999 | |
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This chapter presents an overview of the SDA CLUE extension commands,
how to display information using these commands, and how to use SDA
CLUE for writing to the dump file off the system disk. This chapter
also describes the SDA CLUE commands.
5.1 Overview of SDA CLUE Extensions
SDA CLUE (Crash Log Utility Extractor) commands automate the analysis of crash dumps and maintain a history of all fatal bugchecks on a standalone or cluster system. SDA CLUE commands can be used in conjunction with SDA to collect and decode additional dump file information not readily accessible through standard SDA commands. SDA CLUE extension commands can summarize information provided by certain standard SDA commands and provide additional detail for some SDA commands. For example, SDA CLUE extension commands can quickly provide detailed extended QIO processor (XQP) summaries. SDA CLUE commands can also be used interactively on a running system to help identify performance problems.
All CLUE commands can be used when analyzing crash dumps; the only CLUE commands that are not allowed when analyzing a running system are CLUE CRASH, CLUE ERRLOG, CLUE HISTORY, and CLUE STACK.
When you reboot the system after a system failure, you automatically invoke SDA by default. To facilitate better crash dump analysis, SDA CLUE commands automatically capture and archive summary dump file information in a CLUE listing file.
A startup command procedure initiates commands that do the following:
The CLUE HISTORY command adds a one-line summary entry to a history file and saves the following output from SDA CLUE commands in the listing file:
The contents of this CLUE list file can help you analyze a system failure. If these files accumulate more space than the threshold allows (default is 5000 blocks), the oldest files are deleted until the threshold limit is reached. This can also be customized using the CLUE$MAX_BLOCK logical name.
For additional information on the contents of the CLUE listing file, see the reference section on CLUE HISTORY.
It is important to remember that CLUE$nodename_ddmmyy_hhmm.LIS contains only an overview of the crash dump and does not always contain enough information to determine the cause of the crash.
To inhibit the running of CLUE at system startup, define the logical
CLUE$INHIBIT in the SYLOGICALS.COM file as /SYS TRUE.
5.2 Displaying Data Using SDA CLUE Commands
To invoke CLUE commands, enter the following at the SDA prompt:
SDA>CLUE CONFIG |
Dump off system disk allows you to write the system dump file to a device other than the system disk. For SDA CLUE to be able to correctly find the dump file to be analyzed after a system crash, you need to perform the following steps:
In the following example, the dump file has been placed on device $3$DUA25, which has the label DMP$DEV. You need to add the following commands to SYS$MANAGER:SYLOGICALS.COM:
$mount/system/noassist $3$dua25: dmp$dev dmp$dev $define/system clue$dosd_device dmp$dev |
5.4 Listing of SDA CLUE Extension Commands
This section describes the following SDA CLUE extension commands:
Displays key information, such as the PC of the caller, from the active call frames at time of the crash.
CLUE CALL_FRAME [/CPU [cpu-id|ALL]
|/PROCESS [/ADDRESS=n|INDEX=n
|/IDENTIFICATION=n|process-name|ALL]]
ALL
When used with /CPU, it requests information about all CPUs in the system. When used with /PROCESS, it requests information about all processes that exist in the system.cpu-id
When used with /CPU, it gives the number of the CPU for which information is to be displayed. Use of the cpu-id parameter causes the CLUE CALL_FRAME command to perform an implicit SET CPU command, making the indicated CPU the current CPU for subsequent SDA commands.process-name
When used with /PROCESS, it gives the name of the process for which information is to be displayed. Use of the process-name parameter, the /ADDRESS qualifier, the /INDEX qualifier, or the /IDENTIFICATION qualifier causes the CLUE CALL_FRAME command to perform an implicit SET PROCESS command, making the indicated process the current process for subsequent SDA commands. You can determine the names of the processes in the system by issuing a SHOW SUMMARY command.The process-name can contain up to 15 letters and numerals, including the underscore (_) and dollar sign ($). If it contains any other characters, you must enclose the process-name in quotation marks (" ").
/ADDRESS=n
Specifies the PCB address of the desired process when used with CLUE CALL_FRAME/PROCESS./CPU [cpu-id|ALL]
Indicates that the call frame for a CPU is required. The CPU should be specified by its number or using ALL to indicate all CPUs./IDENTIFICATION=n
Specifies the identification of the desired process when used with CLUE CALL_FRAME/PROCESS./INDEX=n
Specifies the index of the desired process when used with CLUE CALL_FRAME/PROCESS./PROCESS [process-name|ALL]
Indicates that the call frame for a process is required. The process should be specified with one of the qualifiers /ADDRESS, /IDENTIFICATION, or /INDEX; or by its name, or using ALL to indicate all processes.
CLUE CALL_FRAME command displays call chain information for a process or a CPU. The process context calls work on both the running system and dumpfile; the CPU context calls only on dumpfiles.
|
Performs housekeeping operations to conserve disk space.
CLUE CLEANUP
None.
None.
CLUE CLEANUP performs housekeeping operations to conserve disk space. To avoid filling up the system disk with listing files generated by CLUE, CLUE CLEANUP is run during system startup to check the overall disk space used by all CLUE$*.LIS files.If the CLUE$COLLECT:CLUE$*.LIS files occupy more space than the logical CLUE$MAX_BLOCKS allows, then the oldest files are deleted until the threshold is reached. If this logical name is not defined, a default value of 5,000 disk blocks is assumed. A value of zero disables housekeeping and no check on the disk space is performed.
SDA> CLUE CLEANUP %CLUE-I-CLEANUP, housekeeping started... %CLUE-I-MAXBLOCK, maximum blocks allowed 5000 blocks %CLUE-I-STAT, total of 4 CLUE files, 192 blocks. %CLUE-I-DEL, deleting DISK$X6AF_G5N:[SYSCOMMON.SYSERR]CLUE$_010193_0000.LIS;1 (78 blocks) |
In this example, the CLUE CLEANUP command displays that the total number of blocks of disk space used by CLUE files does not exceed the maximum number of blocks allowed. No files are deleted.
Displays the system, memory, and device configurations.
CLUE CONFIG
None.
None.
CLUE CONFIG displays the system, memory, and device configurations.Example
Displays a crash dump summary.
CLUE CRASH
None.
None.
CLUE CRASH displays a crash dump summary, which includes the following items:
- Bugcheck type
- Current process and image
- Failing PC and PS
- Executive image section name and offset
- General registers
- Failing instructions
- Exception frame, signal and mechanism arrays (if available)
SDA> CLUE CRASH Crash Time: 30-AUG-1996 13:13:46.83 Bugcheck Type: SSRVEXCEPT, Unexpected system service exception Node: SWPCTX (Standalone) CPU Type: DEC 3000 Model 400 VMS Version: X6AF-FT2 Current Process: SYSTEM Current Image: $31$DKB0:[SYS0.][SYSMGR]X.EXE;1 Failing PC: 00000000.00030078 SYS$K_VERSION_01+00078 Failing PS: 00000000.00000003 Module: X Offset: 00030078 Boot Time: 30-AUG-1996 09:06:22.00 System Uptime: 0 04:07:24.83 Crash/Primary CPU: 00/00 System/CPU Type: 0402 Saved Processes: 18 Pagesize: 8 KByte (8192 bytes) Physical Memory: 64 MByte (8192 PFNs, contiguous memory) Dumpfile Pagelets: 98861 blocks Dump Flags: olddump,writecomp,errlogcomp,dump_style Dump Type: raw,selective EXE$GL_FLAGS: poolpging,init,bugdump Paging Files: 1 Pagefile and 1 Swapfile installed Stack Pointers: KSP = 00000000.7FFA1C98 ESP = 00000000.7FFA6000 SSP = 00000000.7FFAC100 USP = 00000000.7AFFBAD0 General Registers: R0 = 00000000.00000000 R1 = 00000000.7FFA1EB8 R2 = FFFFFFFF.80D0E6C0 R3 = FFFFFFFF.80C63460 R4 = FFFFFFFF.80D12740 R5 = 00000000.000000C8 R6 = 00000000.00030038 R7 = 00000000.7FFA1FC0 R8 = 00000000.7FFAC208 R9 = 00000000.7FFAC410 R10 = 00000000.7FFAD238 R11 = 00000000.7FFCE3E0 R12 = 00000000.00000000 R13 = FFFFFFFF.80C6EB60 R14 = 00000000.00000000 R15 = 00000000.009A79FD R16 = 00000000.000003C4 R17 = 00000000.7FFA1D40 R18 = FFFFFFFF.80C05C38 R19 = 00000000.00000000 R20 = 00000000.7FFA1F50 R21 = 00000000.00000000 R22 = 00000000.00000001 R23 = 00000000.7FFF03C8 R24 = 00000000.7FFF0040 AI = 00000000.00000003 RA = FFFFFFFF.82A21080 PV = FFFFFFFF.829CF010 R28 = FFFFFFFF.8004B6DC FP = 00000000.7FFA1CA0 PC = FFFFFFFF.82A210B4 PS = 18000000.00000000 Exception Frame: R2 = 00000000.00000003 R3 = FFFFFFFF.80C63460 R4 = FFFFFFFF.80D12740 R5 = 00000000.000000C8 R6 = 00000000.00030038 R7 = 00000000.7FFA1FC0 PC = 00000000.00030078 PS = 00000000.00000003 Signal Array: 64-bit Signal Array: Arg Count = 00000005 Arg Count = 00000005 Condition = 0000000C Condition = 00000000.0000000C Argument #2 = 00010000 Argument #2 = 00000000.00010000 Argument #3 = 00000000 Argument #3 = 00000000.00000000 Argument #4 = 00030078 Argument #4 = 00000000.00030078 Argument #5 = 00000003 Argument #5 = 00000000.00000003 Mechanism Array: Arguments = 0000002C Establisher FP = 00000000.7AFFBAD0 Flags = 00000000 Exception FP = 00000000.7FFA1F00 Depth = FFFFFFFD Signal Array = 00000000.7FFA1EB8 Handler Data = 00000000.00000000 Signal64 Array = 00000000.7FFA1ED0 R0 = 00000000.00020000 R1 = 00000000.00000000 R16 = 00000000.00020004 R17 = 00000000.00010050 R18 = FFFFFFFF.FFFFFFFF R19 = 00000000.00000000 R20 = 00000000.7FFA1F50 R21 = 00000000.00000000 R22 = 00000000.00010050 R23 = 00000000.00000000 R24 = 00000000.00010051 R25 = 00000000.00000000 R26 = FFFFFFFF.8010ACA4 R27 = 00000000.00010050 R28 = 00000000.00000000 System Registers: Page Table Base Register (PTBR) 00000000.00001136 Processor Base Register (PRBR) FFFFFFFF.80D0E000 Privileged Context Block Base (PCBB) 00000000.003FE080 System Control Block Base (SCBB) 00000000.000001DC Software Interrupt Summary Register (SISR) 00000000.00000000 Address Space Number (ASN) 00000000.0000002F AST Summary / AST Enable (ASTSR_ASTEN) 00000000.0000000F Floating-Point Enable (FEN) 00000000.00000000 Interrupt Priority Level (IPL) 00000000.00000000 Machine Check Error Summary (MCES) 00000000.00000000 Virtual Page Table Base Register (VPTB) FFFFFFFC.00000000 Failing Instruction: SYS$K_VERSION_01+00078: LDL R28,(R28) Instruction Stream (last 20 instructions): SYS$K_VERSION_01+00028: LDQ R16,#X0030(R13) SYS$K_VERSION_01+0002C: LDQ R27,#X0048(R13) SYS$K_VERSION_01+00030: LDA R17,(R28) SYS$K_VERSION_01+00034: JSR R26,(R26) SYS$K_VERSION_01+00038: LDQ R26,#X0038(R13) SYS$K_VERSION_01+0003C: BIS R31,SP,SP SYS$K_VERSION_01+00040: BIS R31,R26,R0 SYS$K_VERSION_01+00044: BIS R31,FP,SP SYS$K_VERSION_01+00048: LDQ R28,#X0008(SP) SYS$K_VERSION_01+0004C: LDQ R13,#X0010(SP) SYS$K_VERSION_01+00050: LDQ FP,#X0018(SP) SYS$K_VERSION_01+00054: LDA SP,#X0020(SP) SYS$K_VERSION_01+00058: RET R31,(R28) SYS$K_VERSION_01+0005C: BIS R31,R31,R31 SYS$K_VERSION_01+00060: LDA SP,#XFFE0(SP) SYS$K_VERSION_01+00064: STQ FP,#X0018(SP) SYS$K_VERSION_01+00068: STQ R27,(SP) SYS$K_VERSION_01+0006C: BIS R31,SP,FP SYS$K_VERSION_01+00070: STQ R26,#X0010(SP) SYS$K_VERSION_01+00074: LDA R28,(R31) SYS$K_VERSION_01+00078: LDL R28,(R28) SYS$K_VERSION_01+0007C: BEQ R28,#X000007 SYS$K_VERSION_01+00080: LDQ R26,#XFFE8(R27) SYS$K_VERSION_01+00084: BIS R31,R26,R0 SYS$K_VERSION_01+00088: BIS R31,FP,SP |
Extracts the error log buffers from the dump file and places them into the binary file called CLUE$ERRLOG.SYS.
CLUE ERRLOG [/OLD]
None.
/OLD
Dumps the errorlog buffers into a file using the old errorlog format. The default action, if /OLD is not specified, is to dump the errorlog buffers in the common event header format.
CLUE ERRLOG extracts the error log buffers from the dump file and places them into the binary file called CLUE$ERRLOG.SYS.These buffers contain messages not yet written to the error log file at the time of the failure. When you analyze a failure on the same system on which it occurred, you can run the Error Log utility on the actual error log file to see these error log messages. When analyzing a failure from another system, use the CLUE ERRLOG command to create a file containing the failing system's error log messages just prior to the failure. System failures are often triggered by hardware problems, so determining what, if any, hardware errors occurred prior to the failure can help you troubleshoot a failure.
You can define the logical CLUE$ERRLOG to any file specification if you want error log information written to a file other than CLUE$ERRLOG.SYS.
Note
You need at least DECevent V2.9 to analyze the new common event header (CEH) format file. The old format file can be analyzed by ANALYZE/ERROR or any version of DECevent.
SDA> CLUE ERRLOG Sequence Date Time -------- ----------- ----------- 128 11-MAY-1994 00:39:31.30 129 11-MAY-1994 00:39:32.12 130 11-MAY-1994 00:39:44.83 131 11-MAY-1994 00:44:38.97 * Crash Entry |
The CLUE ERRLOG command diplays the sequence, date, and time of each error log buffer extracted from a dump file in the file CLUE$ERRLOG.SYS.
Outputs the Field Replacement Unit (FRU) table to a file for display by DECevent.
CLUE FRU
None.
None.
The FRU command extracts the FRU table into an output file (CLUE$FRU.SYS), which can then be displayed by DECevent. This command works on the running system, as well as on dumpfiles.
Updates history file and generates crash dump summary output.
CLUE HISTORY [/qualifier]
None.
/OVERRIDE
Allows execution of this command even if the dump file has already been analyzed (DMP$V_OLDDUMP bit set).
This command updates the history file pointed to by the logical name CLUE$HISTORY with a one-line entry and the major crash dump summary information. If CLUE$HISTORY is not defined, a file CLUE$HISTORY.DAT in your default directory will be created.In addition, a listing file with summary information about the system failure is created in the directory pointed to by CLUE$COLLECT. The file name is of the form CLUE$node_ddmmyy_hhmm.LIS where the timestamp (hhmm) corresponds to the system failure time and not the time when the file was created.
The listing file contains summary information collected from the following SDA commands:
- CLUE CRASH
- CLUE CONFIG
- CLUE MEMORY/FILES
- CLUE MEMORY/STATISTIC
- CLUE PROCESS/RECALL
- CLUE XQP/ACTIVE
Refer to the reference section for each of these commands to see examples of the displayed information.
The logical name CLUE$FLAG controls how much information is written to the listing file.
- Bit 0---Include crash dump summary
- Bit 1---Include system configuration
- Bit 2---Include stack decoding information
- Bit 3---Include page and swap file usage
- Bit 4---Include memory management statistics
- Bit 5---Include process DCL recall buffer
- Bit 6---Include active XQP process information
- Bit 7---Include XQP cache header
If this logical name is undefined, all bits are set by default internally and all information is written to the listing file. If the value is zero, no listing file is generated. The value has to be supplied in hexadecimal form (for example, DEFINE CLUE$FLAG 81 will include the crash dump summary and the XQP cache header information).
If the logical name CLUE$SITE_PROC points to a valid and existing file, it will be executed as part of the CLUE HISTORY command (for example, automatic saving of the dump file during system startup). If used, this file should contain only valid SDA commands.
Refer to Chapter 2, Section 2.2.3 for more information on site-specific command files.
This command is obsolete.
CLUE MCHK
None.
None.
The CLUE MCHK command has been withdrawn. Issuing the command produces the following output, explaining the correct way to obtain MACHINECHECK information from a crash dump.Please use the following commands in order to extract the errorlog buffers from the dump file header and analyze the machine check entry:
$ analyze/crash sys$system:sysdump.dmp SDA> clue errlog SDA> exit $ diagnose clue$errlog
Displays memory- and pool-related information.
CLUE MEMORY [/qualifier[,...]]
None.
/FILES
Displays information about page and swap file usage./FREE [/FULL]
Validates and displays dynamic nonpaged free packet list queue./GH [/FULL]
Displays information about the granularity hint regions./LAYOUT
Decodes and displays much of the system virtual address space layout./LOOKASIDE
Validates the lookaside list queue heads and counts the elements for each list./STATISTIC
Displays systemwide performance data such as page fault, I/O, pool, lock manager, MSCP, and file system cache.
The CLUE MEMORY command displays memory- and pool-related information.
#1 |
---|
SDA> CLUE MEMORY/FILES Paging File Usage (blocks): --------------------------- Swapfile (Index 1) Device DKB0: PFL Address FFFFFFFF.80D74A80 UCB Address FFFFFFFF.80D53940 Free Blocks 4992 Reservable Blocks 4992 Total Size (blocks) 10112 Flags inited Paging Usage (processes) 0 Swap Usage (processes) 5 Alloc Size SWPINC (pages) 64 Largest Chunk (pages) 184 Chunks GEQ SWPINC 3 Chunks LT SWPINC 0 Pagefile (Index 3) Device DKB0: PFL Address FFFFFFFF.80D74600 UCB Address FFFFFFFF.80D53940 Free Blocks 108208 Reservable Blocks 37808 Total Size (blocks) 139008 Flags inited Paging Usage (processes) 21 Swap Usage (processes) 0 Alloc Size SWPINC (pages) 64 Largest Chunk (pages) 6576 Chunks GEQ SWPINC 2 Chunks LT SWPINC 1 Summary: 1 Pagefile and 1 Swapfile installed |
This example shows the display produced by the CLUE MEMORY/FILES command.
#2 |
---|
SDA> CLUE MEMORY/FREE/FULL Non-Paged Dynamic Storage Pool - Variable Free Packet Queue: ------------------------------------------------------------ CLASSDR FFFFFFFF.80D157C0 : 64646464 64646464 00000040 80D164C0 ÀdÑ.@...dddddddd CLASSDR FFFFFFFF.80D164C0 : 64646464 64646464 00000080 80D17200 .rÑ.....dddddddd CLASSDR FFFFFFFF.80D17200 : 64646464 64646464 00000080 80D21AC0 À.Ò.....dddddddd CLASSDR FFFFFFFF.80D21AC0 : 64646464 64646464 00000080 80D228C0 À(Ò.....dddddddd VCC FFFFFFFF.80D228C0 : 801CA5E8 026F0040 00000040 80D23E40 @>Ò.@...@.o.è¥.. CLASSDR FFFFFFFF.80D23E40 : 64646464 64646464 00000040 80D24040 @@Ò.@...dddddddd CLASSDR FFFFFFFF.80D24040 : 64646464 64646464 00000040 80D26FC0 ÀoÒ.@...dddddddd CLASSDR FFFFFFFF.80D26FC0 : 64646464 64646464 00000080 80D274C0 ÀtÒ.....dddddddd CLASSDR FFFFFFFF.80D274C0 : 64646464 64646464 00000040 80D2E200 .âÒ.@...dddddddd CLASSDR FFFFFFFF.80D2E200 : 64646464 64646464 00000080 80D2E440 @äÒ.....dddddddd CLASSDR FFFFFFFF.80D2E440 : 64646464 64646464 00000040 80D2F000 .Ò.@...dddddddd CLASSDR FFFFFFFF.80D2F000 : 64646464 64646464 00000080 80D2F400 .ôÒ.....dddddddd . . . CLASSDR FFFFFFFF.80E91D40 : 64646464 64646464 00000500 80E983C0 À.é.....dddddddd CLASSDR FFFFFFFF.80E983C0 : 64646464 64646464 00031C40 00000000 ....@...dddddddd Free Packet Queue, Status: Valid, 174 elements Largest free chunk: 00031C40 (hex) 203840 (dec) bytes Total free dynamic space: 0003D740 (hex) 251712 (dec) bytes |
The CLUE MEMORY/FREE/FULL command validates and displays dynamic nonpaged free packet list queue.
#3 |
---|
SDA> CLUE MEMORY/GH/FULL Granularity Hint Regions - Huge Pages: -------------------------------------- Execlet Code Region Pages/Slices Base/End VA FFFFFFFF.80000000 FFFFFFFF.80356000 Current Size 427/ 427 Base/End PA 00000000.00400000 00000000.00756000 Free / 0 Total Size 00000000.00356000 3.3 MB In Use / 427 Bitmap VA/Size FFFFFFFF.80D17CC0 00000000.00000040 Initial Size 512/ 512 Slice Size 00000000.00002000 Released 85/ 85 Next free Slice 00000000.000001AB Image Base End Length SYS$PUBLIC_VECTORS FFFFFFFF.80000000 FFFFFFFF.80001A00 00001A00 SYS$BASE_IMAGE FFFFFFFF.80002000 FFFFFFFF.8000D400 0000B400 SYS$CNBTDRIVER FFFFFFFF.8000E000 FFFFFFFF.8000F000 00001000 SYS$NISCA_BTDRIVER FFFFFFFF.80010000 FFFFFFFF.8001FA00 0000FA00 SYS$ESBTDRIVER FFFFFFFF.80020000 FFFFFFFF.80022400 00002400 SYS$OPDRIVER FFFFFFFF.80024000 FFFFFFFF.80027C00 00003C00 SYSTEM_DEBUG FFFFFFFF.80028000 FFFFFFFF.80050200 00028200 SYSTEM_PRIMITIVES FFFFFFFF.80052000 FFFFFFFF.80089000 00037000 SYSTEM_SYNCHRONIZATION FFFFFFFF.8008A000 FFFFFFFF.80095400 0000B400 ERRORLOG FFFFFFFF.80096000 FFFFFFFF.80099200 00003200 SYS$CPU_ROUTINES_0402 FFFFFFFF.8009A000 FFFFFFFF.800A3A00 00009A00 EXCEPTION_MON FFFFFFFF.800A4000 FFFFFFFF.800BC800 00018800 IO_ROUTINES_MON FFFFFFFF.800BE000 FFFFFFFF.800E2000 00024000 SYSDEVICE FFFFFFFF.800E2000 FFFFFFFF.800E5C00 00003C00 PROCESS_MANAGEMENT_MON FFFFFFFF.800E6000 FFFFFFFF.8010B000 00025000 SYS$VM FFFFFFFF.8010C000 FFFFFFFF.80167200 0005B200 SHELL8K FFFFFFFF.80168000 FFFFFFFF.80169200 00001200 LOCKING FFFFFFFF.8016A000 FFFFFFFF.8017BE00 00011E00 MESSAGE_ROUTINES FFFFFFFF.8017C000 FFFFFFFF.80182A00 00006A00 LOGICAL_NAMES FFFFFFFF.80184000 FFFFFFFF.80186C00 00002C00 F11BXQP FFFFFFFF.80188000 FFFFFFFF.80190400 00008400 SYSLICENSE FFFFFFFF.80192000 FFFFFFFF.80192400 00000400 IMAGE_MANAGEMENT FFFFFFFF.80194000 FFFFFFFF.80197A00 00003A00 SECURITY FFFFFFFF.80198000 FFFFFFFF.801A0E00 00008E00 SYSGETSYI FFFFFFFF.801A2000 FFFFFFFF.801A3A00 00001A00 SYS$TRANSACTION_SERVICES FFFFFFFF.801A4000 FFFFFFFF.801C5000 00021000 SYS$UTC_SERVICES FFFFFFFF.801C6000 FFFFFFFF.801C7000 00001000 SYS$VCC_MON FFFFFFFF.801C8000 FFFFFFFF.801D4E00 0000CE00 SYS$IPC_SERVICES FFFFFFFF.801D6000 FFFFFFFF.80214A00 0003EA00 SYSLDR_DYN FFFFFFFF.80216000 FFFFFFFF.80219200 00003200 SYS$MME_SERVICES FFFFFFFF.8021A000 FFFFFFFF.8021B000 00001000 SYS$TTDRIVER FFFFFFFF.8021C000 FFFFFFFF.8022FE00 00013E00 SYS$PKCDRIVER FFFFFFFF.80230000 FFFFFFFF.80240400 00010400 SYS$DKDRIVER FFFFFFFF.80242000 FFFFFFFF.80251600 0000F600 RMS FFFFFFFF.80252000 FFFFFFFF.802C5E00 00073E00 SYS$GXADRIVER FFFFFFFF.802C6000 FFFFFFFF.802CE000 00008000 SYS$ECDRIVER FFFFFFFF.802CE000 FFFFFFFF.802D1000 00003000 SYS$LAN FFFFFFFF.802D2000 FFFFFFFF.802D8E00 00006E00 SYS$LAN_CSMACD FFFFFFFF.802DA000 FFFFFFFF.802E6600 0000C600 SYS$MKDRIVER FFFFFFFF.802E8000 FFFFFFFF.802F1C00 00009C00 SYS$YRDRIVER FFFFFFFF.802F2000 FFFFFFFF.802F9600 00007600 SYS$SODRIVER FFFFFFFF.802FA000 FFFFFFFF.802FF000 00005000 SYS$INDRIVER FFFFFFFF.80300000 FFFFFFFF.8030EA00 0000EA00 NETDRIVER FFFFFFFF.80310000 FFFFFFFF.80310200 00000200 NETDRIVER FFFFFFFF.80312000 FFFFFFFF.80329E00 00017E00 SYS$IMDRIVER FFFFFFFF.8032A000 FFFFFFFF.8032EA00 00004A00 SYS$IKDRIVER FFFFFFFF.80330000 FFFFFFFF.8033AC00 0000AC00 NDDRIVER FFFFFFFF.8033C000 FFFFFFFF.8033F800 00003800 SYS$WSDRIVER FFFFFFFF.80340000 FFFFFFFF.80341600 00001600 SYS$CTDRIVER FFFFFFFF.80342000 FFFFFFFF.8034D200 0000B200 SYS$RTTDRIVER FFFFFFFF.8034E000 FFFFFFFF.80351800 00003800 SYS$FTDRIVER FFFFFFFF.80352000 FFFFFFFF.80354200 00002200 Execlet Data Region Pages/Slices Base/End VA FFFFFFFF.80C00000 FFFFFFFF.80CC0000 Current Size 96/ 1536 Base/End PA 00000000.00800000 00000000.008C0000 Free / 11 Total Size 00000000.000C0000 0.7 MB In Use / 1525 Bitmap VA/Size FFFFFFFF.80D17D00 00000000.00000100 Initial Size 128/ 2048 Slice Size 00000000.00000200 Released 32/ 512 Next free Slice 00000000.000005F5 Image Base End Length SYS$PUBLIC_VECTORS FFFFFFFF.80C00000 FFFFFFFF.80C05000 00005000 SYS$BASE_IMAGE FFFFFFFF.80C05000 FFFFFFFF.80C25E00 00020E00 SYS$CNBTDRIVER FFFFFFFF.80C25E00 FFFFFFFF.80C26200 00000400 SYS$NISCA_BTDRIVER FFFFFFFF.80C26200 FFFFFFFF.80C29400 00003200 SYS$ESBTDRIVER FFFFFFFF.80C29400 FFFFFFFF.80C29800 00000400 SYS$OPDRIVER FFFFFFFF.80C29800 FFFFFFFF.80C2A200 00000A00 SYSTEM_DEBUG FFFFFFFF.80C2A200 FFFFFFFF.80C4E400 00024200 SYSTEM_PRIMITIVES FFFFFFFF.80C4E400 FFFFFFFF.80C58200 00009E00 SYSTEM_SYNCHRONIZATION FFFFFFFF.80C58200 FFFFFFFF.80C5A000 00001E00 ERRORLOG FFFFFFFF.80C5A000 FFFFFFFF.80C5A600 00000600 SYS$CPU_ROUTINES_0402 FFFFFFFF.80C5A600 FFFFFFFF.80C5CA00 00002400 EXCEPTION_MON FFFFFFFF.80C5CA00 FFFFFFFF.80C64C00 00008200 IO_ROUTINES_MON FFFFFFFF.80C64C00 FFFFFFFF.80C6AA00 00005E00 SYSDEVICE FFFFFFFF.80C6AA00 FFFFFFFF.80C6B600 00000C00 PROCESS_MANAGEMENT_MON FFFFFFFF.80C6B600 FFFFFFFF.80C72600 00007000 SYS$VM FFFFFFFF.80C72600 FFFFFFFF.80C79000 00006A00 SHELL8K FFFFFFFF.80C79000 FFFFFFFF.80C7A000 00001000 LOCKING FFFFFFFF.80C7A000 FFFFFFFF.80C7BA00 00001A00 MESSAGE_ROUTINES FFFFFFFF.80C7BA00 FFFFFFFF.80C7D000 00001600 LOGICAL_NAMES FFFFFFFF.80C7D000 FFFFFFFF.80C7E200 00001200 F11BXQP FFFFFFFF.80C7E200 FFFFFFFF.80C7FA00 00001800 SYSLICENSE FFFFFFFF.80C7FA00 FFFFFFFF.80C7FE00 00000400 IMAGE_MANAGEMENT FFFFFFFF.80C7FE00 FFFFFFFF.80C80600 00000800 SECURITY FFFFFFFF.80C80600 FFFFFFFF.80C83000 00002A00 SYSGETSYI FFFFFFFF.80C83000 FFFFFFFF.80C83200 00000200 SYS$TRANSACTION_SERVICES FFFFFFFF.80C83200 FFFFFFFF.80C89E00 00006C00 SYS$UTC_SERVICES FFFFFFFF.80C89E00 FFFFFFFF.80C8A200 00000400 SYS$VCC_MON FFFFFFFF.80C8A200 FFFFFFFF.80C8BC00 00001A00 SYS$IPC_SERVICES FFFFFFFF.80C8BC00 FFFFFFFF.80C91000 00005400 SYSLDR_DYN FFFFFFFF.80C91000 FFFFFFFF.80C92200 00001200 SYS$MME_SERVICES FFFFFFFF.80C92200 FFFFFFFF.80C92600 00000400 SYS$TTDRIVER FFFFFFFF.80C92600 FFFFFFFF.80C94C00 00002600 SYS$PKCDRIVER FFFFFFFF.80C94C00 FFFFFFFF.80C96A00 00001E00 SYS$DKDRIVER FFFFFFFF.80C96A00 FFFFFFFF.80C99800 00002E00 RMS FFFFFFFF.80C99800 FFFFFFFF.80CAAC00 00011400 RECOVERY_UNIT_SERVICES FFFFFFFF.80CAAC00 FFFFFFFF.80CAB000 00000400 SYS$GXADRIVER FFFFFFFF.80CAB000 FFFFFFFF.80CAF000 00004000 SYS$ECDRIVER FFFFFFFF.80CAF000 FFFFFFFF.80CAFC00 00000C00 SYS$LAN FFFFFFFF.80CAFC00 FFFFFFFF.80CB0800 00000C00 SYS$LAN_CSMACD FFFFFFFF.80CB0800 FFFFFFFF.80CB1800 00001000 SYS$MKDRIVER FFFFFFFF.80CB1800 FFFFFFFF.80CB3000 00001800 SYS$YRDRIVER FFFFFFFF.80CB3000 FFFFFFFF.80CB3C00 00000C00 SYS$SODRIVER FFFFFFFF.80CB3C00 FFFFFFFF.80CB4E00 00001200 SYS$INDRIVER FFFFFFFF.80CB4E00 FFFFFFFF.80CB5E00 00001000 NETDRIVER FFFFFFFF.80CB5E00 FFFFFFFF.80CB8800 00002A00 SYS$IMDRIVER FFFFFFFF.80CB8800 FFFFFFFF.80CB9400 00000C00 SYS$IKDRIVER FFFFFFFF.80CB9400 FFFFFFFF.80CBAA00 00001600 NDDRIVER FFFFFFFF.80CBAA00 FFFFFFFF.80CBB400 00000A00 SYS$WSDRIVER FFFFFFFF.80CBB400 FFFFFFFF.80CBBC00 00000800 SYS$CTDRIVER FFFFFFFF.80CBBC00 FFFFFFFF.80CBD800 00001C00 SYS$RTTDRIVER FFFFFFFF.80CBD800 FFFFFFFF.80CBE200 00000A00 SYS$FTDRIVER FFFFFFFF.80CBE200 FFFFFFFF.80CBEA00 00000800 11 free Slices FFFFFFFF.80CBEA00 FFFFFFFF.80CC0000 00001600 S0/S1 Executive Data Region Pages/Slices Base/End VA FFFFFFFF.80D00000 FFFFFFFF.80ECA000 Current Size 229/ 229 Base/End PA 00000000.00900000 00000000.00ACA000 Free / 0 Total Size 00000000.001CA000 1.7 MB In Use / 229 Bitmap VA/Size FFFFFFFF.80D17E00 00000000.00000020 Initial Size 229/ 229 Slice Size 00000000.00002000 Released 0/ 0 Next free Slice 00000000.00000007 Item Base End Length System Header FFFFFFFF.80D00000 FFFFFFFF.80D0A000 0000A000 Error Log Allocation Buffers FFFFFFFF.80D0A000 FFFFFFFF.80D0C000 00002000 Nonpaged Pool (initial size) FFFFFFFF.80D0E000 FFFFFFFF.80ECA000 001BC000 Resident Image Code Region Pages/Slices Base/End VA FFFFFFFF.80400000 FFFFFFFF.80C00000 Current Size 1024/ 1024 Base/End PA 00000000.00C00000 00000000.01400000 Free / 223 Total Size 00000000.00800000 8.0 MB In Use / 801 Bitmap VA/Size FFFFFFFF.80D17E20 00000000.00000080 Initial Size 1024/ 1024 Slice Size 00000000.00002000 Released 0/ 0 Next free Slice 00000000.00000321 Image Base End Length LIBRTL FFFFFFFF.80400000 FFFFFFFF.8049EA00 0009EA00 LIBOTS FFFFFFFF.804A0000 FFFFFFFF.804AEC00 0000EC00 CMA$TIS_SHR FFFFFFFF.804B0000 FFFFFFFF.804B2600 00002600 DPML$SHR FFFFFFFF.804B4000 FFFFFFFF.8050B600 00057600 DECC$SHR FFFFFFFF.8050C000 FFFFFFFF.80657000 0014B000 SECURESHRP FFFFFFFF.80658000 FFFFFFFF.80676000 0001E000 SECURESHR FFFFFFFF.80676000 FFFFFFFF.8068C000 00016000 SECURESHR FFFFFFFF.8068C000 FFFFFFFF.8068C200 00000200 LBRSHR FFFFFFFF.8068E000 FFFFFFFF.806A3E00 00015E00 DECW$TRANSPORT_COMMON FFFFFFFF.806A4000 FFFFFFFF.806B0C00 0000CC00 CDE$UNIX_ROUTINES FFFFFFFF.806B2000 FFFFFFFF.806C1E00 0000FE00 DECW$XLIBSHR FFFFFFFF.806C2000 FFFFFFFF.80781C00 000BFC00 DECW$XTLIBSHRR5 FFFFFFFF.80782000 FFFFFFFF.807C7600 00045600 DECW$XMLIBSHR12 FFFFFFFF.807C8000 FFFFFFFF.8096AE00 001A2E00 DECW$MRMLIBSHR12 FFFFFFFF.8096C000 FFFFFFFF.80994200 00028200 DECW$DXMLIBSHR12 FFFFFFFF.80996000 FFFFFFFF.80A40400 000AA400 223 free Slices FFFFFFFF.80A42000 FFFFFFFF.80C00000 001BE000 S2 Executive Data Region Pages/Slices Base/End VA FFFFFFFE.00000000 FFFFFFFE.00050000 Current Size 40/ 8 Base/End PA 00000000.00350000 00000000.003A0000 Free / 0 Total Size 00000000.00050000 0.3 MB In Use / 8 Bitmap VA/Size FFFFFFFF.80D17EA0 00000000.00000008 Initial Size 40/ 8 Slice Size 00000000.0000A000 Released 0/ 0 Next free Slice 00000000.00000008 Item Base End Length PFN Database FFFFFFFE.00000000 FFFFFFFE.00050000 00050000 |
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