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HP OpenVMS systems documentation |
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Repeats execution of the last command issued. On terminal devices, the KP0 key performs the same function as the REPEAT command with no parameter or qualifier.
REPEAT [count|/UNTIL=condition]
count
Number of times the previous command is to be repeated. The default is a single repeat.
/UNTIL=condition
Defines a condition that terminates the REPEAT command. By default, there is no terminating condition.
The REPEAT command is useful for stepping through a linked list of data structures, or for examining a sequence of memory locations. When used with ANALYZE/SYSTEM, it allows the changing state of a system location or data structure to be monitored.
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SDA> SPAWN CREATE SDATEMP.COM
SEARCH 0:3FFFFFFF 12345678
SET PROCESS/NEXT
^Z
SDA> SET PROCESS NULL
SDA> @SDATEMP
SDA> REPEAT/UNTIL = BADPROC
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This example demonstrates how to search the address space of each process in a system or dump a given pattern.
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SDA> SHOW CALL_FRAME
Call Frame Information
----------------------
Stack Frame Procedure Descriptor
Flags: Base Register = FP, Jacket, Native
Procedure Entry: FFFFFFFF.80080CE0 MMG$RETRANGE_C+00180
Return address on stack = FFFFFFFF.8004CF30 EXCEPTION_NPRO+00F30
Registers saved on stack
------------------------
7FF95E80 FFFFFFFF.FFFFFFFD Saved R2
7FF95E88 FFFFFFFF.8042DBC0 Saved R3 EXCEPTION_NPRW+03DC0
7FF95E90 FFFFFFFF.80537240 Saved R4
7FF95E98 00000000.00000000 Saved R5
7FF95EA0 FFFFFFFF.80030960 Saved R6 MMG$IMGRESET_C+00200
7FF95EA8 00000000.7FF95EC0 Saved R7
7FF95EB0 FFFFFFFF.80420E68 Saved R13 MMG$ULKGBLWSL E
7FF95EB8 00000000.7FF95F70 Saved R29
.
.
.
SDA> SHOW CALL_FRAME/NEXT_FRAME
Call Frame Information
----------------------
Stack Frame Procedure Descriptor
Flags: Base Register = FP, Jacket, Native
Procedure Entry: FFFFFFFF.80F018D0 IMAGE_MANAGEMENT_PRO+078D0
Return address on stack = FFFFFFFF.8004CF30 EXCEPTION_NPRO+00F30
Registers saved on stack
------------------------
7FF95F90 FFFFFFFF.FFFFFFFB Saved R2
7FF95F98 FFFFFFFF.8042DBC0 Saved R3 EXCEPTION_ NPRW+03DC0
7FF95FA0 00000000.00000000 Saved R5
7FF95FA8 00000000.7FF95FC0 Saved R7
7FF95FB0 FFFFFFFF.80EF8D20 Saved R13 ERL$DEVINF O+00C20
7FF95FB8 00000000.7FFA0450 Saved R29
.
.
.
SDA> REPEAT
Call Frame Information
----------------------
Stack Frame Procedure Descriptor
Flags: Base Register = FP, Jacket, Native
Procedure Entry: FFFFFFFF.80F016A0 IMAGE_MANAGEMENT_PRO+076A0
Return address on stack = 00000000.7FF2451C
Registers saved on stack
------------------------
7FFA0470 00000000.7FEEA890 Saved R13
7FFA0478 00000000.7FFA0480 Saved R29
.
.
.
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The first SHOW CALL_FRAME displays the call frame indicated by the current FP value. Because the /NEXT_FRAME qualifier to the instruction displays the call frame indicated by the saved frame in the current call frame, you can use the REPEAT command to repeat the SHOW CALL_FRAME/NEXT_FRAME command and follow a chain of call frames.
Scans a range of memory locations for all occurrences of a specified value.
SEARCH [/qualifier] range [=] expression
range
Location in memory to be searched. A location can be represented by any valid SDA expression. To search a range of locations, use the following syntax:
m:n Range of locations to be searched, from m to n m;n Range of locations to be searched, starting at m and continuing for n bytes expression
Value for which SDA is to search. SDA evaluates the expression and searches the specified range of memory for the resulting value. For a description of SDA expressions, see Section 2.6.1.If you do not use an equals sign to separate range and expression, then you must insert a space between them.
/LENGTH={QUADWORD|LONGWORD|WORD |BYTE }
Specifies the size of the expression value that the SEARCH command uses for matching. If you do not specify the /LENGTH qualifier, the SEARCH command uses a longword length by default./MASK=n
Allows the SEARCH command finer qranularity in its matches. It compares only the given bits of a byte, word, longword, or quadword. To compare bits when matching, you set the bits in the mask; to ignore bits when matching, you clear the bits in the mask./PHYSICAL
Specifies that the addresses used to define the range of locations to be searched are physical addresses./STEPS={QUADWORD|LONGWORD|WORD |BYTE|value }
Specifies the step factor of the search through the specified memory range. After the SEARCH command has performed the comparison between the value of expression and memory location, it adds the specified step factor to the address of the memory location. The resulting location is the next location to undergo the comparison. If you do not specify the /STEPS qualifier, the SEARCH command uses a step factor of a longword.
SEARCH displays each location as each value is found. If you press Ctrl/T while using the SEARCH command, the system displays how far the search has progressed. The progress display is always output to the terminal even if a SET OUTPUT <file> command has previously been entered.
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SDA> SEARCH GB81F0;500 B41B0000
Searching from FFFFFFFF.800B81F0 to FFFFFFFF.800B86EF in LONGWORD steps for B41B0000...
Match at FFFFFFFF.800B86E4 B41B0000
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This SEARCH command finds the value B41B0000 in the longword at FFFFFFFF.800B86E4.
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SDA> SEARCH 80000000;200/STEPS=BYTE 82
Searching from FFFFFFFF.80000000 to FFFFFFFF.800001FF in BYTE steps for 00000082...
Match at FFFFFFFF.8000012C 00000082
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This SEARCH command finds the value 00000082 in the longword at FFFFFFFF.8000012C.
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SDA> SEARCH/LENGTH=WORD 80000000;100 10
Match at FFFFFFFF.80000030 0010
Match at FFFFFFFF.80000040 0010
Match at FFFFFFFF.80000090 0010
Match at FFFFFFFF.800000A0 0010
Match at FFFFFFFF.800000C0 0010
5 matches found
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This SEARCH command finds the value 0010 in the words at FFFFFFFF.80000030, FFFFFFFF.80000040, FFFFFFFF.80000090, FFFFFFFF.800000A0, FFFFFFFF.800000C0.
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SDA> SEARCH/MASK=FF000000 80000000;40 20000000
Searching from FFFFFFFF.80000000 to FFFFFFFF.8000003F in LONGWORD steps for 20000000...
(Using search mask of FF000000)
Match at FFFFFFFF.80000000 201F0104
Match at FFFFFFFF.80000010 201F0001
2 matches found
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This SEARCH command finds the value 20 in the upper byte of the longwords at FFFFFFFF.80000000 and FFFFFFFF.80000010, regardless of the contents of the lower 3 bytes.
When analyzing a system dump, selects a processor to become the current CPU for SDA. When invoked under ANALYZE/SYSTEM, SET CPU lists the database address for the specified CPU before exiting with the message:
%SDA-E-CMDNOTVLD command not valid on the running system
SET CPU cpu-id
cpu-id
Numeric value from 0016 to 1F16 indicating the identity of the processor to be made the current CPU. If you specify a value outside this range or a cpu-id of a processor that was not active at the time of the system failure, SDA displays the following message:
%SDA-E-CPUNOTVLD, CPU not booted or CPU number out of range
None.
When you invoke SDA to examine a system dump, the current CPU context for SDA defaults to that of the processor that caused the system to fail. When analyzing a system failure from a multiprocessing system, you may find it useful to examine the context of another processor in the configuration.The SET CPU command changes the current CPU context for SDA to that of the processor indicated by cpu-id. The CPU specified by this command becomes the current CPU for SDA until you either exit from SDA or change the CPU context for SDA by issuing one of the following commands:
SET CPU cpu-id
SHOW CPU cpu-id
SHOW CRASH
SHOW MACHINE_CHECK cpu-idChanging CPU context can cause an implicit change in process context under the following circumstances:
- If there is a current process on the CPU made current, SDA changes its process context to that of that CPU's current process.
- If there is no current process on the CPU made current, the SDA process context is undefined and no process-specific information is available until you set the SDA process context to that of a specific process.
The following commands also change the CPU context for SDA to that of the CPU on which the process was most recently current:
SET PROCESS process-name
SET PROCESS/ADDRESS=pcb-address
SET PROCESS/INDEX=nn
SET PROCESS/NEXT
SHOW PROCESS process-name
SHOW PROCESS/ADDRESS=pcb-address
SHOW PROCESS/INDEX=nn
SHOW PROCESS/NEXTSee Section 2.5 for further discussion of the way in which SDA maintains its context information.
Enables or disables the automatic clearing of the screen before each new page of SDA output.
SET ERASE_SCREEN {ON|OFF}
ON
Enables the screen to be erased before SDA outputs a new heading. This setting is the default.OFF
Disables the erasing of the screen.
None.
SDA's usual behavior is to erase the screen and then show the data. By setting the OFF parameter, the clear screen action is replaced by a blank line. This action does not affect what is written to a file when the SET LOG or SET OUTPUT commands are used.
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SDA> SET ERASE_SCREEN ON
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The clear screen action is now enabled.
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SDA> SET ERASE_SCREEN OFF
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The clear screen action is disabled.
Sets the default size and access method of address data used when SDA evaluates an expression that includes the @ unary operator.
SET FETCH [{QUADWORD|LONGWORD|WORD|BYTE}][,][{PHYSICAL|VIRTUAL}]
QUADWORD
Sets the default size to 8 bytes.LONGWORD
Sets the default size to 4 bytes.WORD
Sets the default size to 2 bytes.BYTE
Sets the default size to 1 byte.PHYSICAL
Sets the default access method to physical addresses.VIRTUAL
Sets the default access method to virtual addresses.You can specify only one parameter out of each group. If you are changing both size and access method, separate the two parameters by spaces or a comma. Include a comma only if you are specifying a parameter from both groups. See Example 6.
None.
Sets the default size and/or default access method of address data used by the @ unary operator in commands such as EXAMINE and EVALUATE. SDA uses the current default size unless it is overridden by the ^Q, ^L, ^W, or ^B qualifier on the @ unary operator in an expression. SDA uses the current default access method unless it is overridden by the ^P or ^V qualifier on the @ unary operator in an expression.
| #1 |
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SDA> EXAMINE MMG$GQ_SHARED_VA_PTES
MMG$GQ_SHARED_VA_PTES: FFFFFFFD.FF7FE000 ".`a....."
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This example shows the location's contents of a 64-bit virtual address.
| #2 |
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SDA> SET FETCH LONG
SDA> EXAMINE @MMG$GQ_SHARED_VA_PTES
%SDA-E-NOTINPHYS, FFFFFFFF.FF7FE000 : virtual data not in physical memory
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This example shows a failure because the SET FETCH LONG causes SDA to assume that it should take the lower 32 bits of the location's contents as a longword value, sign-extend them, and use that value as an address.
| #3 |
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SDA> EXAMINE @^QMMG$GQ_SHARED_VA_PTES
FFFFFFFD.FF7FE000: 000001D0.40001119 "...@..."
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This example shows the correct results by overriding the SET FETCH LONG with the ^Q qualifier on the @ operator. SDA takes the full 64 bits of the location's contents and uses that value as an address.
| #4 |
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SDA> SET FETCH QUAD
SDA> EXAMINE @MMG$GQ_SHARED_VA_PTES
FFFFFFFD.FF7FE000: 000001D0.40001119 "...@..."
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This example shows the correct results by changing the default fetch size to a quadword.
| #5 |
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SDA> SET FETCH PHYSICAL
SDA> EXAMINE /PHYSICAL @0
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This command uses the contents of the physical location 0 as the physical address of the location to be examined.
| #6 |
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SDA> SET FETCH QUADWORD, PHYSICAL
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This command sets the default fetch size and default access method at the same time.
Initiates or discontinues the recording of an SDA session in a text file.
SET [NO]LOG filespec
filespec
Name of the file in which you want SDA to log your commands and their output. The default filespec is SYS$DISK:[default_dir]filename.LOG, where SYS$DISK and [default-dir] represent the disk and directory specified in your last DCL command SET DEFAULT. You must specify a file name.
None.
The SET LOG command echoes the commands and output of an SDA session to a log file. The SET NOLOG command terminates this behavior.The following differences exist between the SET LOG command and the SET OUTPUT command:
- When logging is in effect, your commands and their results are still displayed on your terminal. The SET OUTPUT command causes the displays to be redirected to the output file and they no longer appear on the screen.
- If an SDA command requires that you press Return to produce successive screens of display, the log file produced by SET LOG will record only those screens that are actually displayed. SET OUTPUT, however, sends the entire output of any SDA commands to its listing file.
- The SET LOG command produces a log file with a default file type of .LOG; the SET OUTPUT command produces a listing file whose default file type is .LIS.
- The SET OUTPUT command can generate a table of contents, each item of which refers to a display written to its listing file. SET OUTPUT also produces running heads for each page of output. The SET LOG command does not produce these items in its log file.
If you use the SET OUTPUT command to redirect output to a listing file, a SET LOG command to direct the same output to a log file is ineffective until output is restored to the terminal.
Redirects output from SDA to the specified file or device.
SET OUTPUT [/[NO]INDEX|/[NO]HEADER| /PERMANENT|/SINGLE_COMMAND] filespec
filespec
Name of the file to which SDA is to send the output generated by its commands. The default filespec is SYS$DISK:[default_dir] filename.LIS, where SYS$DISK and [default-dir] represent the disk and directory specified in your last DCL command SET DEFAULT. You must specify a file name except when /PERMANENT is specified.
/INDEX
The /INDEX qualifer causes SDA to include an index page at the beginning of the output file. This is the default, unless you specify /NOHEADER or modify the default with a SET OUTPUT/PERMANENT command. The /NOINDEX qualifier causes SDA to omit the index page from the output file.
/NOINDEX/HEADER
The /HEADER qualifier causes SDA to include a heading at the top of each page of the output file. This is the default unless you modify it with a SET OUTPUT/PERMANENT command. The /NOHEADER qualifier causes SDA to omit the page headings. Use of /NOHEADER implies /NOINDEX.
/NOHEADER/PERMANENT
Modifies the defaults for /[NO]HEADER and /[NO]INDEX. Specify either or both qualifiers with or without a NO prefix to set new defaults. Setting the default to /NOHEADER implies a default of /NOINDEX. The new defaults remain in effect until another SET OUTPUT/PERMANENT command is entered or the SDA session is ended.You cannot combine /PERMANENT and /SINGLE_COMMAND in one command, and you cannot provide a filespec with /PERMANENT.
/SINGLE_COMMAND
Indicates to SDA that the output for a single command is to be written to the specified file and that subsequent output should be written to the terminal. /SINGLE_COMMAND cannot be combined with /PERMANENT.
When you use the SET OUTPUT command to send the SDA output to a file or device, SDA continues displaying the SDA commands that you enter but sends the output generated by those commands to the file or device you specify. (See the description of the SET LOG command for a list of differences between the SET LOG and SET OUTPUT commands.)When you finish directing SDA commands to an output file and want to return to interactive display, issue the following command:
SDA> SET OUTPUT SYS$OUTPUTYou do not need this command when you specify the /SINGLE_COMMAND qualifier on the original SET OUTPUT command.
If you use the SET OUTPUT command to send the SDA output to a listing file and do not specify /NOINDEX or /NOHEADER, SDA builds a table of contents that identifies the displays you selected and places the table of contents at the beginning of the output file. The SET OUTPUT command formats the output into pages and produces a running head at the top of each page, unless you specify /NOHEADER.
Note
See the description of the DUMP command for use of SET OUTPUT/NOHEADER.
Selects a process to become the SDA current process.
SET PROCESS {/ADDRESS=pcb-address|process-name|/ID=nn | /INDEX=nn |/NEXT|/SYSTEM}
process-name
Name of the process to become the SDA current process. The process-name can contain up to 15 uppercase letters, numerals, the underscore (_), dollar sign ($), colon (:), and some other printable characters. If it contains any other characters (including lowercase letters), you may need to enclose the process-name in quotation marks (" ").
/ADDRESS=pcb-address
Specifies the process control block (PCB) address of a process in order to display information about the process./ID=nn
/INDEX=nn
Specifies the process for which information is to be displayed by its index into the system's list of software process control blocks (PCBs), or by its process identification. You can supply the following values for nn:
- The process index itself.
- The process identification (PID) or extended PID longword, from which SDA extracts the correct index. The PID or extended PID of any thread of a process with multiple kernel threads may be specified. Any thread-specific data displayed by further commands will be for the given thread.
To obtain these values for any given process, issue the SDA command SHOW SUMMARY/THREADS. The /ID=nn and /INDEX=nn qualifiers can be used interchangeably.
/NEXT
Causes SDA to locate the next valid process in the process list and select that process. If there are no further valid processes in the process list, SDA returns an error./SYSTEM
Specifies the new current process by the system process control block (PCB). The system PCB and process header (PHD) parallel the data structures that describe processes. They contain the system working set list, global section table, and other systemwide data.
When you issue an SDA command such as EXAMINE, SDA displays the contents of memory locations in its current process. To display any information about another process, you must change the current process with the SET PROCESS command.When you invoke SDA to analyze a crash dump, the process context defaults to that of the process that was current at the time of the system failure. If the failure occurred on a multiprocessing system, SDA sets the CPU context to that of the processor that caused the system to fail. The process context is set to that of the process that was current on that processor.
When you invoke SDA to analyze a running system, its process context defaults to that of the current process, that is, the one executing SDA.
The SET PROCESS command changes the current SDA process context to that of the process indicated by process-name, pcb-address, or /INDEX=nn. The process specified by this command becomes the current process for SDA until you either exit from SDA or change SDA process context by issuing one of the following commands:
SET PROCESS process-name
SET PROCESS/ADDRESS=pcb-address
SET PROCESS/INDEX=nn
SET PROCESS/NEXT
SET PROCESS/SYSTEM
SHOW PROCESS process-name
SHOW PROCESS/ADDRESS=pcb-address
SHOW PROCESS/INDEX=nn
SHOW PROCESS/NEXT
SHOW PROCESS/SYSTEMWhen you analyze a crash dump from a multiprocessing system, changing process context causes a switch of CPU context as well. When you issue a SET PROCESS command, SDA automatically changes its CPU context to that of the CPU on which that process was most recently current.
The following commands will also switch process context when analyzing a system dump, if there was a current process on the target CPU at the time of the crash:
SET CPU cpu-id
SHOW CPU cpu-id
SHOW CRASH
SHOW MACHINE_CHECK cpu-idSee Section 2.5 for further discussion of the way in which SDA maintains its context information.
SDA> SET PROCESS/ADDRESS=80D772C0
SDA> SHOW PROCESS
Process index: 0012 Name: ERRFMT Extended PID: 00000052
-----------------------------------------------------------
Process status: 02040001 RES,PHDRES,INTER
status2: 00000001 QUANTUM_RESCHED
PCB address 80D772CO JIB address 80556600
PHD address 80477200 Swapfile disk address 01000F01
KTB vector address 80D775AC HWPCB address 81260080
Callback vector address 00000000 Termination mailbox 0000
Master internal PID 00010004 Subprocess count 0
Creator extended PID 00000000 Creator internal PID 00000000
Previous CPU Id 00000000 Current CPU Id 00000000
Previous ASNSEQ 0000000000000001 Previous ASN 000000000000002E
Initial process priority 4 Delete pending count 0
# open files allowed left 100 Direct I/O count/limit 150/150
UIC [00001,000004] Buffered I/O count/limit 149/150
Abs time of last event 0069D34E BUFIO byte count/limit 99424/99808
ASTs remaining 247 # of threads 1
Swapped copy of LEFC0 00000000 Timer entries allowed left 63
Swapped copy of LEFC1 00000000 Active page table count 4
Global cluster 2 pointer 00000000 Process WS page count 32
Global cluster 3 pointer 00000000 Global WS page count 31
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