Difference between revisions of "DDT"
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− | '''DDT''' ('''Dynamic Debugging Technique''') is a family of [[ | + | '''DDT''' ('''Dynamic Debugging Technique''' - the name is a 'backronym' on the insecticide) is a family of [[debugger]]s with some common characteristics: |
* Most commands are invoked with a single key, plus modifiers. | * Most commands are invoked with a single key, plus modifiers. | ||
Line 5: | Line 5: | ||
* Arguments are commonly prefixed to the command. | * Arguments are commonly prefixed to the command. | ||
− | DDT was first implemented at MIT for a [[PDP-1]] computer. It was then implemented for [[PDP-6]], [[PDP-10|10]], and [[PDP-11|11]] computers at MIT. It was also widely used at [[Digital Equipment Corporation|DEC]] | + | DDT was first implemented at MIT for a [[PDP-1]] computer. It was then implemented for [[PDP-6]], [[PDP-10|-10]], and [[PDP-11|-11]] computers at MIT. It was also widely used at [[Digital Equipment Corporation|DEC]]. |
− | |||
− | |||
== Implementations == | == Implementations == | ||
Line 13: | Line 11: | ||
=== Implementations found on ITS === | === Implementations found on ITS === | ||
− | * Exec DDT, also known as NTS DDT, for the PDP-6 and 10. | + | * Exec DDT, also known as NTS DDT, for the [[kernel]] of the PDP-6 and 10. |
− | * | + | * [[Time-sharing]] DDT, for [[user]]s' [[process]]es on the PDP-6 and 10. |
* KLDDT specifically for the [[KL10]]. | * KLDDT specifically for the [[KL10]]. | ||
* RUG for the PDP-11. | * RUG for the PDP-11. | ||
Line 21: | Line 19: | ||
* 11DDT for the PDP-11. | * 11DDT for the PDP-11. | ||
* CARPET remote PDP-11 debugger hosted on a PDP-10. | * CARPET remote PDP-11 debugger hosted on a PDP-10. | ||
+ | * HALI target resident counterpart to CARPET. | ||
+ | * MAT resident debugger for PDP-11. | ||
* Timesharing DDT for [[SITS]]. | * Timesharing DDT for [[SITS]]. | ||
* IMDDT for Imlac PDS-1. | * IMDDT for Imlac PDS-1. | ||
+ | |||
+ | === DEC implementations === | ||
+ | |||
+ | [[TENEX]] and its descendant [[TOPS-20]] both had several forms of DDT; one for the users, and another for debugging the kernel. Others included: | ||
+ | |||
+ | * [[ODT]] | ||
+ | |||
+ | ('''''Note:''''' This does not refer to [[QBUS CPU ODT]], which has neither the capabilities of a true DDT, nor its command [[syntax]], although its extremely simple syntax is a sub-set of that of DDT.) | ||
+ | |||
+ | === Implementations under MOS === | ||
+ | |||
+ | The original debugger used with the [[MOS operating system]] was a DDT written in PDP-11 [[assembly language]] (like the [[operating system|OS]] itself); it is not known if that was written from scratch, or came from elsewhere. | ||
+ | |||
+ | Later, a version was written in [[portable]] [[C programming language|C]], and used with MOS (similarly re-written) on [[PDP-11]]'s, various [[Motorola M68000 Family]] machines, and [[AMD 29000]] machines. | ||
+ | |||
+ | == Command list for the MOS portable DDT == | ||
+ | |||
+ | In the list below, '$' means the [[ASCII]] character 'ESCAPE' (i.e. CTRL-[). This command set was derived from, but not identical to, those of the originals. | ||
+ | |||
+ | <pre> | ||
+ | n/ Open loc n, type contents in current mode | ||
+ | / Retype loc pointed to by last address | ||
+ | n<CR> Modify currently opened loc to be n, close loc | ||
+ | <CR> Reset modes, go to command level | ||
+ | n<LF> Modify, close, open next loc | ||
+ | <LF> Advance to next item and display | ||
+ | n^ Modify, close, open previous loc | ||
+ | ^ Reverse to previous item | ||
+ | n<TAB> Modify, close, open loc pointed to by last typed value | ||
+ | <TAB> Open loc pointed to by last typed value | ||
+ | @ Synonym for <TAB> | ||
+ | n_ Open location n, type as instr | ||
+ | _ Set temporary mode to instr, retype location | ||
+ | n{ Open location n, type as a numeric | ||
+ | { Set temporary mode to numeric, retype location | ||
+ | n[ Open location n, type as symbolic | ||
+ | [ Set temporary mode to symbolic, retype location | ||
+ | n! Open location n, don't type | ||
+ | n= Type value as numeric | ||
+ | = Retype value as numeric | ||
+ | n\ Examine display block at n | ||
+ | \ Examine display block pointed to by last address | ||
+ | |||
+ | $A Addresses will be typed as absolute numbers | ||
+ | $R Addresses will be typed relative to symbols | ||
+ | $I Change current mode to instruction type out | ||
+ | $N Change current mode to numeric type out | ||
+ | $S Change current mode to symbolic type out | ||
+ | $T Change current mode to ASCII text output | ||
+ | $Z Change current mode/length to .ASCIZ | ||
+ | $H Change to halfword (byte) mode | ||
+ | $W Change to (short)word mode | ||
+ | $L Change to longword mode | ||
+ | $mI Change current input radix to m | ||
+ | $mO Change current output radix to m | ||
+ | $mR Change input and output radix | ||
+ | $mD Change current display block size | ||
+ | Note that the initial modes are $S and $W. These | ||
+ | can be temporarily changed by the above commands and | ||
+ | will return to the permanent setting by a carriage | ||
+ | return. The settings can be permanently changed by | ||
+ | using two altmodes in the mode setting command | ||
+ | (e.g. $$T sets permanent ASCII mode) | ||
+ | |||
+ | $mS Change maximum symbol offset | ||
+ | This mode is 'permanent' i.e. once set, it | ||
+ | stays at that value. | ||
+ | |||
+ | n$iM Set machine dependant mode i to n. | ||
+ | The actual argument syntax may vary from machine to | ||
+ | machine. | ||
+ | |||
+ | n$iB Set breakpoint i at address n (i from 0 to 7 or can | ||
+ | be omitted) | ||
+ | $iB Remove breakpoint i | ||
+ | $B Remove all breakpoints | ||
+ | $V List (view) all breakpoints | ||
+ | Note that breakpoints should only be set at the start | ||
+ | of extended instructions. Setting a breakpoint in the | ||
+ | middle of an instruction will cause undefined randomness. | ||
+ | |||
+ | % $P Proceed from breakpoint | ||
+ | % m$P Proceed from breakpoint m times (without halting) | ||
+ | % ^P Single step the processor | ||
+ | % n^P Single step n times (without halting) | ||
+ | % ^X 'Execute' step the processor - treats JSR as an atomic | ||
+ | % n^X Execute step n times (without halting) | ||
+ | % $G Start execution at address in JOBSA (start of program) | ||
+ | % n$G Start executing program at location n. | ||
+ | |||
+ | |||
+ | Commands marked with a '%' can be executed only in the hard-core | ||
+ | debugger with the [operating system] halted. | ||
+ | |||
+ | Numbers 'm' may be typed either before or after the '$'; numbers 'n' | ||
+ | or 'i' must be typed where shown. | ||
+ | |||
+ | Where a value is called for, if the value is typed before the | ||
+ | '$' (if any), the value may be typed as a string of tokens, which may | ||
+ | be either numbers or known symbols (i.e. findable in the DDT symbol | ||
+ | table) separated by operators; the available operators are +, - and *. | ||
+ | If the value is typed after the '$' only a single number may be used; | ||
+ | these are read in decimal unless preceeded by a 0. | ||
+ | </pre> | ||
{{semi-stub}} | {{semi-stub}} | ||
+ | |||
+ | [[Category: Debuggers]] |
Latest revision as of 13:21, 27 June 2022
DDT (Dynamic Debugging Technique - the name is a 'backronym' on the insecticide) is a family of debuggers with some common characteristics:
- Most commands are invoked with a single key, plus modifiers.
- Altmode or Escape is used as a prefix modifier.
- Arguments are commonly prefixed to the command.
DDT was first implemented at MIT for a PDP-1 computer. It was then implemented for PDP-6, -10, and -11 computers at MIT. It was also widely used at DEC.
Contents
Implementations
Implementations found on ITS
- Exec DDT, also known as NTS DDT, for the kernel of the PDP-6 and 10.
- Time-sharing DDT, for users' processes on the PDP-6 and 10.
- KLDDT specifically for the KL10.
- RUG for the PDP-11.
- URUG, or micro RUG, for the GT40.
- KLRUG for the KL10 front end.
- 11DDT for the PDP-11.
- CARPET remote PDP-11 debugger hosted on a PDP-10.
- HALI target resident counterpart to CARPET.
- MAT resident debugger for PDP-11.
- Timesharing DDT for SITS.
- IMDDT for Imlac PDS-1.
DEC implementations
TENEX and its descendant TOPS-20 both had several forms of DDT; one for the users, and another for debugging the kernel. Others included:
(Note: This does not refer to QBUS CPU ODT, which has neither the capabilities of a true DDT, nor its command syntax, although its extremely simple syntax is a sub-set of that of DDT.)
Implementations under MOS
The original debugger used with the MOS operating system was a DDT written in PDP-11 assembly language (like the OS itself); it is not known if that was written from scratch, or came from elsewhere.
Later, a version was written in portable C, and used with MOS (similarly re-written) on PDP-11's, various Motorola M68000 Family machines, and AMD 29000 machines.
Command list for the MOS portable DDT
In the list below, '$' means the ASCII character 'ESCAPE' (i.e. CTRL-[). This command set was derived from, but not identical to, those of the originals.
n/ Open loc n, type contents in current mode / Retype loc pointed to by last address n<CR> Modify currently opened loc to be n, close loc <CR> Reset modes, go to command level n<LF> Modify, close, open next loc <LF> Advance to next item and display n^ Modify, close, open previous loc ^ Reverse to previous item n<TAB> Modify, close, open loc pointed to by last typed value <TAB> Open loc pointed to by last typed value @ Synonym for <TAB> n_ Open location n, type as instr _ Set temporary mode to instr, retype location n{ Open location n, type as a numeric { Set temporary mode to numeric, retype location n[ Open location n, type as symbolic [ Set temporary mode to symbolic, retype location n! Open location n, don't type n= Type value as numeric = Retype value as numeric n\ Examine display block at n \ Examine display block pointed to by last address $A Addresses will be typed as absolute numbers $R Addresses will be typed relative to symbols $I Change current mode to instruction type out $N Change current mode to numeric type out $S Change current mode to symbolic type out $T Change current mode to ASCII text output $Z Change current mode/length to .ASCIZ $H Change to halfword (byte) mode $W Change to (short)word mode $L Change to longword mode $mI Change current input radix to m $mO Change current output radix to m $mR Change input and output radix $mD Change current display block size Note that the initial modes are $S and $W. These can be temporarily changed by the above commands and will return to the permanent setting by a carriage return. The settings can be permanently changed by using two altmodes in the mode setting command (e.g. $$T sets permanent ASCII mode) $mS Change maximum symbol offset This mode is 'permanent' i.e. once set, it stays at that value. n$iM Set machine dependant mode i to n. The actual argument syntax may vary from machine to machine. n$iB Set breakpoint i at address n (i from 0 to 7 or can be omitted) $iB Remove breakpoint i $B Remove all breakpoints $V List (view) all breakpoints Note that breakpoints should only be set at the start of extended instructions. Setting a breakpoint in the middle of an instruction will cause undefined randomness. % $P Proceed from breakpoint % m$P Proceed from breakpoint m times (without halting) % ^P Single step the processor % n^P Single step n times (without halting) % ^X 'Execute' step the processor - treats JSR as an atomic % n^X Execute step n times (without halting) % $G Start execution at address in JOBSA (start of program) % n$G Start executing program at location n. Commands marked with a '%' can be executed only in the hard-core debugger with the [operating system] halted. Numbers 'm' may be typed either before or after the '$'; numbers 'n' or 'i' must be typed where shown. Where a value is called for, if the value is typed before the '$' (if any), the value may be typed as a string of tokens, which may be either numbers or known symbols (i.e. findable in the DDT symbol table) separated by operators; the available operators are +, - and *. If the value is typed after the '$' only a single number may be used; these are read in decimal unless preceeded by a 0.