NAME
kvm_open,
kvm_openfiles, kvm_close
— initialize kernel virtual
memory access
LIBRARY
library “libkvm”
SYNOPSIS
#include <fcntl.h>
#include <kvm.h>
kvm_t *
kvm_open(const
char *execfile, const
char *corefile, char
*swapfile, int
flags, const char
*errstr);
kvm_t *
kvm_openfiles(const
char *execfile, const
char *corefile, char
*swapfile, int
flags, char
*errbuf);
int
kvm_close(kvm_t
*kd);
DESCRIPTION
The functionskvm_open()
and kvm_openfiles() return a descriptor used to access
kernel virtual memory via the
kvm(3)
library routines. Both active kernels and crash dumps are accessible through
this interface.
execfile is the executable image of the
kernel being examined. This file must contain a symbol table. If this
argument is NULL, the currently running system is
assumed; in this case, the functions will attempt to use the
ksyms(4) device indicated by _PATH_KSYMS in
<paths.h>; if that fails,
then they will use the file indicated by the
sysctl(3) variable machdep.booted_kernel, or
(if the sysctl information is not available) the default kernel path
indicated by _PATH_UNIX in
<paths.h>.
corefile is the kernel memory device file.
It can be either /dev/mem or a crash dump core
generated by
savecore(8). If corefile is
NULL, the default indicated by
_PATH_MEM from
<paths.h> is used.
swapfile should indicate the swap device. If
NULL, _PATH_DRUM from
<paths.h> is used.
The flags argument indicates read/write
access as in open(2) and applies only to the core file. The only permitted
flags from open(2) are O_RDONLY,
O_WRONLY, and O_RDWR.
As a special case, a flags argument of
KVM_NO_FILES will initialize the
kvm(3) library for use on active kernels only using
sysctl(3) for retrieving kernel data and ignores the
execfile, corefile and
swapfile arguments. Only a small subset of the
kvm(3) library functions are available using this method. These are
currently
kvm_getproc2(3),
kvm_getargv2(3) and
kvm_getenvv2(3).
There are two open routines which differ only with respect to the error mechanism. One provides backward compatibility with the SunOS kvm library, while the other provides an improved error reporting framework.
The
kvm_open()
function is the Sun kvm compatible open call. Here, the
errstr argument indicates how errors should be
handled. If it is NULL, no errors are reported and
the application cannot know the specific nature of the failed kvm call. If
it is not NULL, errors are printed to stderr with
errstr prepended to the message, as in
perror(3). Normally, the name of the program is used here. The string
is assumed to persist at least until the corresponding
kvm_close()
call.
The
kvm_openfiles()
function provides BSD style error reporting. Here,
error messages are not printed out by the library. Instead, the application
obtains the error message corresponding to the most recent kvm library call
using
kvm_geterr()
(see kvm_geterr(3)). The results are undefined if the most recent
kvm call did not produce an error. Since
kvm_geterr() requires a kvm descriptor, but the open
routines return NULL on failure,
kvm_geterr() cannot be used to get the error message
if open fails. Thus, kvm_openfiles() will place any
error message in the errbuf argument. This buffer
should be _POSIX2_LINE_MAX characters large (from
<limits.h>).
RETURN VALUES
The kvm_open() and
kvm_openfiles() functions both return a descriptor
to be used in all subsequent kvm library calls. The library is fully
re-entrant. On failure, NULL is returned, in which
case kvm_openfiles() writes the error message into
errbuf.
The kvm_close() function returns 0 on
success and -1 on failure.
SEE ALSO
open(2), kvm(3), kvm_getargv(3), kvm_getenvv(3), kvm_geterr(3), kvm_getkernelname(3), kvm_getprocs(3), kvm_nlist(3), kvm_read(3), kvm_write(3)
BUGS
There should not be two open calls. The ill-defined error semantics of the Sun library and the desire to have a backward-compatible library for BSD left little choice.