paccess(S-osr5)
paccess --
used in conjunction with ptrace for tracing a child process
Syntax
cc . . . -lc
#include <sys/paccess.h>
int paccess (pid, cmd, offset, count, ptr)
int pid, cmd, offset, count;
char *ptr;
Description
paccess(S-osr5)
provides an
extended interface for accessing the address space, register
save areas and local descriptor table of a child
process that is being traced using
ptrace(S-osr5).
paccess also provides
information about the u-area layout so that applications
can determine this at runtime. This allows the developer
to avoid hard coding kernel dependencies into the application.
The primary use of paccess is
in the implementation of debuggers such as
adb(CP)
and
sdb(CP).
Parameters
Except for P_RUOFFS, all paccess commands
transfer information between
the calling process and a child process designated by pid. The parent
and child processes must coordinate tracing using the facilities described
by ptrace. Each command selects a particular class of data such as
data address space or floating point register save area, and is used by
the parent process to read or write the child process's context.
offset is a byte granularity
logical offset from the base of the particular data area (determined by
paccess relative to cmd).
count is the size in
bytes of the requested transfer. count may be sized down
by paccess if
offset plus count would exceed
the size of the particular data area.
count may not exceed
MAXIPCDATA.
ptr designates a buffer in the caller's address space.
Note
paccess will transfer a maximum of count bytes
between a buffer designated
by ptr and a point offset bytes into
a region of the child process's context designated by cmd.
P_RUOFFS is an exception as indicated below.
Commands
The first four commands are used to read or write data in the data, text
or stack regions of a process:
P_RDUSER-
Reads a child process's D address space.
offset is a 32 byte virtual address in the child's address
space.
P_RIUSER-
Reads a child process's I address space.
offset is a 32 byte virtual address in the child's address
space.
P_WDUSER-
Writes to a child process's D address space.
offset is a 32 byte virtual address in the child's address
space.
P_WIUSER-
Writes to a child process's I address space.
offset is a 32 byte virtual address in the child's address
space.
P_RUREGS-
Reads the child process's register save area in the uarea.
offset is a logical offset from the base of the register save
area in the uarea. This may be used to read a particular register
or a subset of the entire save area. Note that the ordering of registers
in the save area is highly machine dependent.
The offsets of the registers are defined in <sys/reg.h>.
P_WUREGS-
Writes to the child process's register save area in the uarea.
offset is a logical offset from the base of the register save
area in the uarea. This may be used to read a particular register
or a subset of the entire save area.
Note that the ordering of registers in the save
area is highly machine dependent.
The offsets of the registers are defined in <sys/reg.h>.
The kernel stack pointer [KESP] will remain unchanged
after any instance
of P_WUREGS. Certain flags in the flags register
[EFL] will remain
unchanged after any instance of P_WUREGS. The flags are:
-
PS_T
-
PS_IE
-
PS_IOPL
-
PS_NT
-
PS_RF
-
PS_VM
See the file <sys/tss.h> for a definition of these flags.
P_RUFREGS-
Reads the child process floating point register save area in the
uarea. offset is a logical offset from the base of
the register save area in the uarea. This may be used to read
a particular register or a subset of the entire save area.
P_WUFREGS-
Writes to the child process floating point register save area in the
uarea.
offset is a logical offset from the base of the register save
area in the uarea. This may be used to read a particular register
or a subset of the entire save area.
For the above two commands
paccess selects the appropriate save area
relative to whether the process is using an Intel 87 series
or Weitek co-processor chip
and whether or not the hardware is present or is being emulated in
software. Note that data is not currently transformed in any way
and is highly chip and/or emulator dependent.
The ordering of registers in the save area is highly machine dependent.
The offsets of the registers are defined in <sys/reg.h>.
P_RULDT-
Read the child processor's local descriptor table. This command
has no write capability.
offset is a logical byte offset from the base of the
local descriptor table.
paccess may have to be invoked several times to read the entire
local descriptor table.
The following commands provide read and write access
to the 80386 debug register save area.
P_RUDREGS-
Reads the 386 debug register save area.
offset is a logical offset from the base of the register save
area in the uarea. This command may be used to read a particular register
or a subset of the entire save area.
P_WUDREGS-
Writes to the 386 debug register save area.
offset is a logical offset from the base of the register save
area in the uarea. This command may be used to read a particular register
or a subset of the entire save area.
The 80386 debug register set may be used to implement text and
data breakpoints. The layout and format of the debug register
save area is highly chip dependent. The offsets of the registers
are defined in <sys/reg.h>.
Certain fields, such as global bits, in the status register
remains unaffected by any instance of P_WUDREGS. See
/usr/include/sys/debugreg.h for the definition of any flags.
The file /usr/include/sys/paccess.h includes a structure template for
reading and writing the debug register save area:
struct debugregs
This may be used in conjuction with /usr/include/sys/debugreg.h for
convenient handling of bitwise operations.
P_RUOFFS-
This command is used to obtain a list
of kernel dependent uarea offsets typically
used by debuggers such as adb and sdb.
This allows an application developer
to avoid using hard coded values and thereby gain greater independence
from specific kernel versions.
pid and offset are ignored by this command.
The command returns the first count bytes
of the offsets structure defined in
paccess.h. That structure is defined as follows:
typedef long uoff;
/* 3.2 uarea offsets */
struct uoffsets {
uoff u_info; /* version */
uoff u_uaddr; /* kernel virtual address of uarea */
uoff u_ar0; /* user register save area pointer */
uoff u_fps; /* floating point save area */
uoff u_fpemul; /* separate emulator save area */
uoff u_fpvalid; /* if floating point save is valid */
uoff u_weitek; /* per proc weitek flag */
uoff u_weitek_reg; /* weitek save area */
uoff u_debugreg; /* debug register save area */
uoff u_ldt; /* offset of ldt */
uoff u_ldtlimit; /* size of ldt */
uoff u_tss; /* 3.2 adb */
uoff u_sztss; /* 3.2 adb */
uoff u_sigreturn; /* user signal return */
uoff u_signal;
uoff u_sdata; /* u_exdata.ux_datorg */
uoff u_dsize; /* data size */
uoff u_ssize; /* stack size */
uoff u_tsize; /* text size */
uoff u_sub; /* stack upper bound */
uoff uvstack; /* virtual address of stack top */
uoff uvtext; /* virtual address of text */
};
Errors
paccess fails if one or more of the following is true:
[EFAULT]-
ptr points outside the allocated address space.
[EINVAL]-
1. cmd is invalid.
2. offset is less than 0 or beyond the size
of the relevant structure.
[EIO]-
An error was encountered when attempting to access data in the child's
address space.
[ESRCH]-
pid identifies a child that does not exist or has not executed a
ptrace with request 0.
Return value
Upon successful completion, paccess returns the number of
bytes successfully transferred to or from the child
process. Otherwise, a value of -1 is returned and errno is set to
indicate the error.
Files
/usr/include/sys/paccess.h
See also
access(S-osr5),
ptrace(S-osr5)
Standards conformance
paccess is an extension of AT&T System V provided by the
Santa Cruz Operation.
© 2005 The SCO Group, Inc. All rights reserved.
SCO OpenServer Release 6.0.0 -- 02 June 2005