2011-03-30 13:49:47 +00:00
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.TH DEBUGGER 2
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.SH NAME
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cisctrace, risctrace, ciscframe, riscframe, localaddr, symoff,
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fpformat, beieee80ftos, beieeesftos, beieeedftos, leieee80ftos,
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leieeesftos, leieeedftos, ieeesftos, ieeedftos \- machine-independent debugger functions
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.SH SYNOPSIS
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.B #include <u.h>
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.br
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.B #include <libc.h>
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.br
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.B #include <bio.h>
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.br
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.B #include <mach.h>
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.PP
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.ta \w'\fLmachines 'u
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.nf
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.B
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2013-04-24 22:13:19 +00:00
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int cisctrace(Map *map, uvlong pc, uvlong sp, uvlong link,
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2011-03-30 13:49:47 +00:00
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.B
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Tracer trace)
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.PP
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.nf
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.B
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2013-04-24 22:13:19 +00:00
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int risctrace(Map *map, uvlong pc, uvlong sp, uvlong link,
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2011-03-30 13:49:47 +00:00
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.B
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Tracer trace)
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.PP
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.nf
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.B
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2013-04-24 22:13:19 +00:00
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uvlong ciscframe(Map *map, uvlong addr, uvlong pc, uvlong sp,
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2011-03-30 13:49:47 +00:00
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.B
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2013-04-24 22:13:19 +00:00
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uvlong link)
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2011-03-30 13:49:47 +00:00
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.PP
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.nf
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.B
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2013-04-24 22:13:19 +00:00
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uvlong riscframe(Map *map, uvlong addr, uvlong pc, uvlong sp,
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2011-03-30 13:49:47 +00:00
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.B
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2013-04-24 22:13:19 +00:00
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uvlong link)
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2011-03-30 13:49:47 +00:00
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.PP
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.nf
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.B
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2013-04-24 22:13:19 +00:00
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int localaddr(Map *map, char *fn, char *var, uvlong *ret,
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2011-03-30 13:49:47 +00:00
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.B
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Rgetter rget)
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.PP
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.B
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2013-04-24 22:13:19 +00:00
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int symoff(char *buf, int n, uvlong addr, int type)
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2011-03-30 13:49:47 +00:00
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.PP
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.B
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int fpformat(Map *map, Reglist *rp, char *buf, int n, int code)
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.PP
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.B
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int beieee80ftos(char *buf, int n, void *fp)
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.PP
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.B
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int beieeesftos(char *buf, int n, void *fp)
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.PP
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.B
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int beieeedftos(char *buf, int n, void *fp)
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.PP
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.B
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int leieee80ftos(char *buf, int n, void *fp)
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.PP
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.B
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int leieeesftos(char *buf, int n, void *fp)
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.PP
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.B
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int leieeedftos(char *buf, int n, void *fp)
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.PP
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.B
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int ieeesftos(char *buf, int n, ulong f)
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.PP
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.B
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int ieeedftos(char *buf, int n, ulong high, ulong low)
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.PP
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.B
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extern Machdata *machdata;
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.SH DESCRIPTION
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These functions provide machine-independent implementations
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of common debugger functions.
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Many of the functions assume that global variables
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.I mach
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and
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.I machdata
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point to the
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.I Mach
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and
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.I Machdata
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data structures describing the target architecture.
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The former contains machine parameters and a description of
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the register set; it is usually
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set by invoking
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.I crackhdr
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(see
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.IR mach (2))
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to interpret the header of an executable.
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The
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.I Machdata
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structure
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is primarily a jump table specifying
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functions appropriate for processing an
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executable image for a given architecture.
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Each application is responsible for setting
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.I machdata
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to the address of the
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.I Machdata
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structure for the target architecture.
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Many of the functions described here are not
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called directly; instead, they are invoked
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indirectly through the
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.I Machdata
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jump table.
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.PP
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These functions must retrieve data and register contents
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from an executing image. The
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.I Map
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(see
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.IR mach (2))
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data structure
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supports the consistent retrieval of data, but
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no uniform access mechanism exists for registers.
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The application passes the address of a register
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retrieval function as an argument to those functions
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requiring register values.
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This function, called an
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.IR Rgetter ,
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is of the form
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.PP
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.RS
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.B "ulong rget(Map *map, char *name);
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.RE
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.PP
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It returns the contents of a register when given
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the address of a
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.I Map
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associated with an executing image and the name of the register.
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.PP
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.I Cisctrace
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and
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.I risctrace
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unwind the stack for up to 40 levels or until the frame for
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.I main
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is found. They return the
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count of the number of levels unwound. These functions
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process stacks conforming to the generic compiler model for
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.SM RISC
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and
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.SM CISC
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architectures, respectively.
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.I Map
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is the address of a
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.I Map
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data structure associated with the image
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of an executing process.
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.IR Sp ,
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.I pc
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and
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.I link
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are starting values for the stack pointer, program counter, and
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link register from which the unwinding is to take place. Normally, they are
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the current contents of the appropriate
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registers but they can be any values defining a legitimate
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process context, for example, an alternate stack in a
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multi-threaded process.
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.I Trace
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is the address of an application-supplied function to be called
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on each iteration as the frame unwinds. The prototype of this
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function is:
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.PP
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.RS
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.B "void tracer(Map *map, ulong pc, ulong fp, Symbol *s);
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.RE
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.PP
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where
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.I Map
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is the
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.I Map
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pointer passed to
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.I cisctrace
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or
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.I risctrace
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and
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.I pc
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and
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.I fp
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are the program counter and frame pointer.
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.I S
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is the address of a
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.I Symbol
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structure, as defined in
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.IR symbol (2),
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containing the symbol table information for the
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function owning the frame (i.e., the function that
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caused the frame to be instantiated).
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.PP
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.I Ciscframe
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and
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.I riscframe
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calculate the frame pointer associated with
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a function. They are suitable for
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programs conforming to the
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.SM CISC
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and
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.SM RISC
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stack models.
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.I Map
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is the address of a
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.I Map
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associated with the memory image of an executing
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process.
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.I Addr
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is the entry point of the desired function.
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.IR Pc ,
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.I sp
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and
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.I link
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are the program counter, stack pointer and link register of
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an execution context. As with the stack trace
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functions, these can be the current values of the
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registers or any legitimate execution context.
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The value of the frame pointer is returned. A return
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value of zero indicates an error.
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.PP
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.I Localaddr
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fills the location
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pointed to by
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.I ret
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with the address of a local variable.
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.I Map
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is the address of a
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.I Map
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associated with an executing memory image.
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.I Fn
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and
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.I var
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are pointers to the names of the function and variable of interest.
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.I Rget
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is the address of a register retrieval function.
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If both
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.I fn
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and
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.I var
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are non-zero, the frame for function
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.I fn
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is calculated and the address of the automatic or
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argument named
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.I var
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in that frame is returned.
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If
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.I var
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is zero, the address of the
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frame for function
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.I fn
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is returned.
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In all cases, the frame for the function named
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.I fn
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must be instantiated somewhere on the current stack.
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If there are multiple frames for the function (that is, if
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it is recursive), the most recent frame is used.
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The search starts from the context defined by the
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current value of the program counter and stack pointer.
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If a valid address is found,
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.I localaddr
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returns 1. A negative return indicates an error in
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resolving the address.
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.PP
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.I Symoff
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converts a virtual address to a symbolic reference. The
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string containing that reference is of
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the form `name+offset', where `name' is the name of the
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nearest symbol with an address less than
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or equal to the target address and `offset' is the hexadecimal offset
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beyond that symbol. If `offset' is zero, only the name of
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the symbol is printed. If no symbol is found within 4,096
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bytes of the address, the address is formatted as a hexadecimal
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address.
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.I Buf
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is the address of a buffer of
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.I n
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characters to receive the formatted string.
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.I Addr
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is the address to be converted.
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.I Type
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is the type code of the search space:
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.BR CTEXT ,
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.BR CDATA ,
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or
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.BR CANY .
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.I Symoff
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returns the length of the formatted string contained in
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.IR buf .
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.PP
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.I Fpformat
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converts the contents of a floating point register to a
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string.
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.I Map
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is the address of a
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.I Map
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associated with an executing process.
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.I Rp
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is the address of a
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.I Reglist
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data structure describing the desired register.
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.I Buf
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is the address of a buffer of
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.I n
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characters to hold the resulting string.
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.I Code
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must be either
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.B F
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or
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.BR f,
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selecting double
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or single precision, respectively. If
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.I code
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is
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.BR F ,
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the contents of the specified register and
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the following register
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are interpreted as a double precision floating point
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number; this
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is only meaningful for architectures that implement
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double precision floats by combining adjacent
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single precision registers.
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For
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.I code
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.BR f ,
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the specified register is formatted
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as a single precision float.
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.I Fpformat
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returns 1 if the number is successfully converted or \-1
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in the case of an error.
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.PP
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.IR Beieee80ftos ,
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.I beieeesftos
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and
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.I beieeedftos
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convert big-endian 80-bit extended, 32-bit single precision,
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and 64-bit double precision floating point values to
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a string.
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.IR Leieee80ftos ,
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.IR leieeesftos ,
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and
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.I leieeedftos
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are the little-endian counterparts.
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.I Buf
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is the address of a buffer of
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.I n
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characters to receive the formatted string.
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.I Fp
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is the address of the floating point value to be
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converted. These functions return the length of
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the resulting string.
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.PP
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.I Ieeesftos
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converts the 32-bit single precision floating point value
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.IR f ,
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to a string in
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.IR buf ,
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a buffer of
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.I n
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bytes. It returns the length of the resulting string.
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.PP
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.I Ieeedftos
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converts a 64-bit double precision floating point value
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to a character string.
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.I Buf
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is the address of a buffer of
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.I n
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characters to hold the resulting string.
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.I High
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and
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.I low
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contain the most and least significant 32 bits of
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the floating point value, respectively.
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.I Ieeedftos
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returns the number of characters in the resulting string.
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.SH SOURCE
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.B /sys/src/libmach
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.SH "SEE ALSO"
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.IR mach (2),
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.IR symbol (2),
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.IR errstr (2)
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.SH DIAGNOSTICS
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Set
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.IR errstr .
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