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