503 lines
9.8 KiB
Plaintext
503 lines
9.8 KiB
Plaintext
.TH ACID 1
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.SH NAME
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acid, truss, trump \- debugger
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.SH SYNOPSIS
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.B acid
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[
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.B -kqw
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]
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[
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.BI -l " library
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] [
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.B -m
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.I machine
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] [
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.I pid
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]
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[
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.I textfile
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]
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.PP
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.B acid
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.B -l
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.B truss
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.I textfile
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.PP
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.B acid
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.B -l
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.B trump
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[
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.I pid
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]
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[
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.I textfile
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]
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.SH DESCRIPTION
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.I Acid
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is a programmable symbolic debugger.
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It can inspect one or more processes that share an address space.
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A program to be debugged may be specified by the process id of
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a running or defunct process,
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or by the name of the program's text file
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.RB ( 8.out
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by default).
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At the prompt,
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.I acid
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will store function definitions or print the value of expressions.
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Options are
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.TP .9i
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.B -w
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Allow the textfile to be modified.
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.TP
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.B -q
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Print variable renamings at startup.
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.TP
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.BI -l " library
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Load from
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.I library
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at startup; see below.
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.TP
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.BI -m " machine
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Assume instructions are for the given CPU type
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(one of
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.BR amd64 ,
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.BR 386 ,
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etc., as listed in
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.IR 2c (1),
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or
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.B sunsparc
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or
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.B mipsco
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for the manufacturer-defined instruction notation for those processors)
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instead of using the magic number to select
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the CPU type.
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.TP
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.BI -k
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Debug the kernel state for the process, rather than the user state.
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.PP
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At startup,
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.I acid
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obtains standard function definitions from the library file
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.BR /sys/lib/acid/port ,
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architecture-dependent functions from
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.BR /sys/lib/acid/$objtype ,
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user-specified functions from
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.BR $home/lib/acid ,
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and further functions from
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.B -l
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files.
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Definitions in any file may override previously defined functions.
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If the function
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.IR acidinit ()
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is defined, it will be invoked after all libraries have been loaded.
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See
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.IR 2c (1)
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for information about creating
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.I acid
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functions for examining data structures.
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.SS Language
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Symbols of the program being debugged become integer
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variables whose values are addresses.
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Contents of addresses are obtained by indirection.
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Local variables are qualified by
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function name, for example
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.BR main:argv .
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When program symbols conflict with
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.I acid
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words, distinguishing
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.B $
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signs are prefixed.
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Such renamings are reported at startup if the option
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.B -q
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is enabled.
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.PP
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Variable types
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.RI ( "integer, float, list, string" )
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and formats are inferred from assignments.
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Truth values false/true are attributed to zero/nonzero
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integers or floats and to empty/nonempty lists or strings.
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Lists are sequences of expressions surrounded by
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.BR {\^}
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and separated by commas.
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.PP
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Expressions are much as in C,
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but yield both a value and a format.
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Casts to complex types are allowed.
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Lists admit the following operators, with
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subscripts counted from 0.
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.IP
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.BI head " list
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.br
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.BI tail " list
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.br
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.BI append " list", " element
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.br
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.BI delete " list", " subscript
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.PP
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Format codes are the same as in
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.IR db (1).
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Formats may be attached to (unary) expressions with
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.BR \e ,
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e.g.
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.BR (32*7)\eD .
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There are two indirection operators,
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.B *
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to address a core image,
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.B @
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to address a text file.
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The type and format of the result are determined by the format of the operand,
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whose type must be integer.
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.PP
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Statements are
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.IP
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.BI if " expr " then " statement " "\fR[ \fPelse\fI statement \fR]
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.br
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.BI while " expr " do " statement
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.br
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.BI loop " expr" , " expr " do " statement
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.br
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.BI defn " name" ( args ") {" " statement \fP}
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.br
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.BI defn " name"
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.br
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.IB name ( args )
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.br
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.BI builtin " name" ( args )
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.br
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.BI local " name
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.br
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.BI return " expr
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.br
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.BR whatis " [ \fI name \fP]
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.PP
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The statement
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.B defn
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.I name
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clears the definition for
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.IR name .
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A
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.B defn
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may override a built-in function;
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prefixing a function call with
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.B builtin
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ignores any overriding
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.BR defn ,
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forcing the use of the built-in function.
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.PP
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Here is a partial list of functions; see the manual for a complete list.
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.TF asm(address)
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.TP
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.B stk()
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Print a stack trace for current process.
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.TP
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.B lstk()
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Print a stack trace with values of local variables.
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.TP
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.B gpr()
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Print general registers.
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Registers can also be accessed by name, for example
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.BR *R0 .
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.TP
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.B spr()
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Print special registers such as program counter and stack pointer.
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.TP
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.B fpr()
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Print floating-point registers.
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.TP
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.B regs()
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Same as
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.BR spr();gpr() .
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.TP
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.BI fmt( expr , format )
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Expression
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.I expr
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with format given by the character value of expression
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.IR format .
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.TP
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.BI src( address )
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Print 10 lines of source around the program address.
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.TP
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.BI Bsrc( address )
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Get the source line for the program address
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into a window of a running
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.IR sam (1)
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and select it.
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.TP
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.BI line( address )
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Print source line nearest to the program address.
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.TP
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.B source()
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List current source directories.
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.TP
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.BI addsrcdir( string )
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Add a source directory to the list.
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.TP
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.BI filepc( where )
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Convert a string of the form
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.IB sourcefile : linenumber
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to a machine address.
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.TP
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.BI pcfile( address )
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Convert a machine address to a source file name.
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.TP
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.BI pcline( address )
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Convert a machine address to a source line number.
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.TP
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.BI bptab()
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List breakpoints set in the current process.
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.TP
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.BI bpset( address )
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Set a breakpoint in the current process at the given address.
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.TP
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.BI bpdel( address )
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Delete a breakpoint from the current process.
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.TP
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.BI wptab()
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List watchpoints set in the current process.
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.TP
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\fLwpset(\fItype\fL,\fIaddr\fL,\fIlen\fL)
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Set a watchpoint for the \fIlen\fR bytes at the given address.
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\fItype\fR is \fL"r"\fR, \fL"w"\fR or \fL"rw"\fR to trap read accesses, write accesses or both, respectively.
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.TP
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.BI wpdel( address )
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Delete all watchpoints set for the given address.
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.TP
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.B cont()
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Continue execution of current process and wait for it to stop.
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.TP
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.B step()
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Execute a single machine instruction in the current process.
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.TP
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.B func()
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Step repeatedly until after a function return.
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.TP
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.BI stopped( pid )
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This replaceable function is called automatically when the given process
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stops.
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It normally prints the program counter and returns to the prompt.
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.TP
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.BI asm( address )
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Disassemble 30 machine instructions beginning at the given address.
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.TP
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.BI mem( address , string )
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Print a block of memory
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interpreted according to a string of format codes.
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.TP
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.BI dump( address , n , string\fP)
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Like
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.BR mem (),
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repeated for
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.I n
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consecutive blocks.
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.TP
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.BI print( expr , ... )
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Print the values of the expressions.
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.TP
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.BI newproc( arguments )
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Start a new process with arguments given as a string
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and halt at the first instruction.
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.TP
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.B new()
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Like
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.IR newproc (),
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but take arguments (except
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.BR argv[0] )
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from string variable
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.BR progargs .
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.TP
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.B win()
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Like
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.IR new (),
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but run the process in a separate window.
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.TP
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.BI start( pid )
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Start a stopped process.
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.TP
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.BI kill( pid )
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Kill the given process.
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.TP
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.BI setproc( pid )
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Make the given process current.
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.TP
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.BI rc( string )
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Escape to the shell,
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.IR rc (1),
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to execute the command string.
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.SS Libraries
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There are a number of
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.I acid
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`libraries' that provide higher-level debugging facilities. Two notable
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examples are
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.I truss
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and
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.IR trump ,
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which use
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.I acid
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to trace system calls
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.RI ( truss )
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and memory allocation
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.RI ( trump ).
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Both require starting
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.I acid
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on the program, either by attaching to a running process or by
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executing
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.B new()
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on a binary (perhaps after setting
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.BR progargs ),
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stopping the process, and then running
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.B truss()
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or
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.B trump()
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to execute the program under the scaffolding.
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The output will be a trace of the system calls
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.RI ( truss )
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or memory allocation and free calls
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.RI ( trump )
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executed by the program.
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When finished tracing, stop the process and execute
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.B untruss()
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or
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.B untrump()
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followed by
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.B cont()
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to resume execution.
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.SH EXAMPLES
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Start to debug
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.BR /bin/ls ;
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set some breakpoints; run up to the first one:
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.IP
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.EX
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% acid /bin/ls
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/bin/ls: mips plan 9 executable
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/sys/lib/acid/port
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/sys/lib/acid/mips
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acid: new()
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70094: system call _main ADD $-0x14,R29
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70094: breakpoint main+0x4 MOVW R31,0x0(R29)
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acid: pid
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70094
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acid: argv0 = **main:argv\es
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acid: whatis argv0
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integer variable format s
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acid: *argv0
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/bin/ls
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acid: bpset(ls)
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acid: cont()
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70094: breakpoint ls ADD $-0x16c8,R29
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acid:
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.EE
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.PP
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Display elements of a linked list of structures:
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.IP
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.EX
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complex Str { 'D' 0 val; 'X' 4 next; };
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complex Str s;
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s = *headstr;
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while s != 0 do{
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print(s.val, "\en");
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s = s.next;
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}
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.EE
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.PP
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Note the use of the
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.B .
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operator instead of
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.BR -> .
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.PP
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Display an array of bytes declared in C as
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.BR "char array[]" .
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.IP
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.EX
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*(array\es)
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.EE
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.PP
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This example gives
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.B array
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string format, then prints the string beginning at the address (in
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.I acid
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notation)
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.BR *array .
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.PP
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Trace the system calls executed by
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.IR ls (1):
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.IP
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.EX
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% acid -l truss /bin/ls
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/bin/ls:386 plan 9 executable
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/sys/lib/acid/port
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/sys/lib/acid/kernel
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/sys/lib/acid/truss
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/sys/lib/acid/386
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acid: progargs = "-l lib/profile"
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acid: new()
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acid: truss()
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open("#c/pid", 0)
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return value: 3
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pread(3, 0x7fffeeac, 20, -1)
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return value: 12
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data: " 166 "
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\&...
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stat("lib/profile", 0x0000f8cc, 113)
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return value: 65
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open("/env/timezone", 0)
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return value: 3
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pread(3, 0x7fffd7c4, 1680, -1)
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return value: 1518
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data: "EST -18000 EDT -14400
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9943200 25664400 41392800 57718800 73447200 89168400
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104896800 ..."
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close(3)
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return value: 0
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pwrite(1, "--rw-rw-r-- M 9 rob rob 2519 Mar 22 10:29 lib/profile
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", 54, -1)
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--rw-rw-r-- M 9 rob rob 2519 Mar 22 10:29 lib/profile
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return value: 54
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\&...
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166: breakpoint _exits+0x5 INTB $0x40
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acid: cont()
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.EE
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.SH FILES
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.B /proc/*/text
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.br
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.B /proc/*/mem
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.br
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.B /proc/*/ctl
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.br
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.B /proc/*/note
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.br
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.B /sys/lib/acid/$objtype
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.br
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.B /sys/lib/acid/port
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.br
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.B /sys/lib/acid/kernel
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.br
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.B /sys/lib/acid/trump
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.br
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.B /sys/lib/acid/truss
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.br
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.B $home/lib/acid
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.SH SOURCE
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.B /sys/src/cmd/acid
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.SH "SEE ALSO"
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.IR 2a (1),
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.IR 2c (1),
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.IR 2l (1),
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.IR mk (1),
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.IR db (1)
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.br
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Phil Winterbottom,
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``Acid Manual''.
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.SH DIAGNOSTICS
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At termination, kill commands are proposed
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for processes that are still active.
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.SH BUGS
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There is no way to redirect the standard input and standard output
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of a new process.
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.br
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Source line selection near the beginning of a file may pick
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an adjacent file.
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.br
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With the extant stepping commands, one cannot step through instructions
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outside the text segment and it is hard to debug across process forks.
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