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|
/* libguestfs
* Copyright (C) 2009-2012 Red Hat Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <config.h>
#define _BSD_SOURCE /* for mkdtemp, usleep */
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdint.h>
#include <inttypes.h>
#include <unistd.h>
#include <string.h>
#include <fcntl.h>
#include <time.h>
#include <sys/stat.h>
#include <sys/select.h>
#include <dirent.h>
#include <assert.h>
#include <rpc/types.h>
#include <rpc/xdr.h>
#ifdef HAVE_ERRNO_H
#include <errno.h>
#endif
#ifdef HAVE_SYS_TYPES_H
#include <sys/types.h>
#endif
#ifdef HAVE_SYS_WAIT_H
#include <sys/wait.h>
#endif
#ifdef HAVE_SYS_SOCKET_H
#include <sys/socket.h>
#endif
#ifdef HAVE_SYS_UN_H
#include <sys/un.h>
#endif
#include <arpa/inet.h>
#include <netinet/in.h>
#include "c-ctype.h"
#include "glthread/lock.h"
#include "hash.h"
#include "hash-pjw.h"
#include "ignore-value.h"
#include "guestfs.h"
#include "guestfs-internal.h"
#include "guestfs-internal-actions.h"
#include "guestfs_protocol.h"
static void default_error_cb (guestfs_h *g, void *data, const char *msg);
static void close_handles (void);
gl_lock_define_initialized (static, handles_lock);
static guestfs_h *handles = NULL;
static int atexit_handler_set = 0;
guestfs_h *
guestfs_create (void)
{
guestfs_h *g;
const char *str;
g = malloc (sizeof (*g));
if (!g) return NULL;
memset (g, 0, sizeof (*g));
g->state = CONFIG;
g->fd[0] = -1;
g->fd[1] = -1;
g->sock = -1;
g->abort_cb = abort;
g->error_cb = default_error_cb;
g->error_cb_data = NULL;
g->recovery_proc = 1;
g->autosync = 1;
str = getenv ("LIBGUESTFS_DEBUG");
g->verbose = str != NULL && STREQ (str, "1");
str = getenv ("LIBGUESTFS_TRACE");
g->trace = str != NULL && STREQ (str, "1");
str = getenv ("LIBGUESTFS_PATH");
g->path = str != NULL ? strdup (str) : strdup (GUESTFS_DEFAULT_PATH);
if (!g->path) goto error;
str = getenv ("LIBGUESTFS_QEMU");
g->qemu = str != NULL ? strdup (str) : strdup (QEMU);
if (!g->qemu) goto error;
str = getenv ("LIBGUESTFS_APPEND");
if (str) {
g->append = strdup (str);
if (!g->append) goto error;
}
/* Choose a suitable memory size. Previously we tried to choose
* a minimal memory size, but this isn't really necessary since
* recent QEMU and KVM don't do anything nasty like locking
* memory into core any more. Thus we can safely choose a
* large, generous amount of memory, and it'll just get swapped
* on smaller systems.
*/
str = getenv ("LIBGUESTFS_MEMSIZE");
if (str) {
if (sscanf (str, "%d", &g->memsize) != 1 || g->memsize < 128) {
warning (g, "non-numeric or too small value for LIBGUESTFS_MEMSIZE");
goto error;
}
} else
g->memsize = 500;
/* Start with large serial numbers so they are easy to spot
* inside the protocol.
*/
g->msg_next_serial = 0x00123400;
/* Default is uniprocessor appliance. */
g->smp = 1;
/* Link the handles onto a global list. */
gl_lock_lock (handles_lock);
g->next = handles;
handles = g;
if (!atexit_handler_set) {
atexit (close_handles);
atexit_handler_set = 1;
}
gl_lock_unlock (handles_lock);
debug (g, "new guestfs handle %p", g);
return g;
error:
free (g->path);
free (g->qemu);
free (g->append);
free (g);
return NULL;
}
void
guestfs_close (guestfs_h *g)
{
if (g->state == NO_HANDLE) {
/* Not safe to call ANY callbacks here, so ... */
fprintf (stderr, _("guestfs_close: called twice on the same handle\n"));
return;
}
/* Remove the handle from the handles list. */
gl_lock_lock (handles_lock);
if (handles == g)
handles = g->next;
else {
guestfs_h *gg;
for (gg = handles; gg->next != g; gg = gg->next)
;
gg->next = g->next;
}
gl_lock_unlock (handles_lock);
if (g->trace) {
const char trace_msg[] = "close";
guestfs___call_callbacks_message (g, GUESTFS_EVENT_TRACE,
trace_msg, strlen (trace_msg));
}
debug (g, "closing guestfs handle %p (state %d)", g, g->state);
/* If we are valgrinding the daemon, then we *don't* want to kill
* the subprocess because we want the final valgrind messages sent
* when we close sockets below. However for normal production use,
* killing the subprocess is the right thing to do (in case the
* daemon or qemu is not responding).
*/
#ifndef VALGRIND_DAEMON
if (g->state != CONFIG)
ignore_value (guestfs_shutdown (g));
#endif
/* Run user close callbacks. */
guestfs___call_callbacks_void (g, GUESTFS_EVENT_CLOSE);
/* Remove whole temporary directory. */
guestfs___remove_tmpdir (g->tmpdir);
/* Mark the handle as dead and then free up all memory. */
g->state = NO_HANDLE;
free (g->events);
g->nr_events = 0;
g->events = NULL;
#if HAVE_FUSE
guestfs___free_fuse (g);
#endif
guestfs___free_inspect_info (g);
guestfs___free_drives (&g->drives);
if (g->cmdline) {
size_t i;
for (i = 0; i < g->cmdline_size; ++i)
free (g->cmdline[i]);
free (g->cmdline);
}
if (g->pda)
hash_free (g->pda);
free (g->tmpdir);
free (g->last_error);
free (g->path);
free (g->qemu);
free (g->append);
free (g->qemu_help);
free (g->qemu_version);
free (g->qemu_devices);
free (g);
}
/* Shutdown the backend. */
int
guestfs__shutdown (guestfs_h *g)
{
int ret = 0;
int status, sig;
if (g->state == CONFIG)
return 0;
/* Try to sync if autosync flag is set. */
if (g->autosync && g->state == READY) {
if (guestfs_internal_autosync (g) == -1)
ret = -1;
}
/* Signal qemu to shutdown cleanly, and kill the recovery process. */
if (g->pid > 0) {
debug (g, "sending SIGTERM to process %d", g->pid);
kill (g->pid, SIGTERM);
}
if (g->recoverypid > 0) kill (g->recoverypid, 9);
/* Close sockets. */
if (g->fd[0] >= 0)
close (g->fd[0]);
if (g->fd[1] >= 0)
close (g->fd[1]);
if (g->sock >= 0)
close (g->sock);
g->fd[0] = -1;
g->fd[1] = -1;
g->sock = -1;
/* Wait for subprocess(es) to exit. */
if (g->pid > 0) {
if (waitpid (g->pid, &status, 0) == -1) {
perrorf (g, "waitpid (qemu)");
ret = -1;
}
else if (WIFEXITED (status) && WEXITSTATUS (status) != 0) {
error (g, "qemu failed (status %d)", WEXITSTATUS (status));
ret = -1;
}
else if (WIFSIGNALED (status)) {
sig = WTERMSIG (status);
error (g, "qemu terminated by signal %d (%s)", sig, strsignal (sig));
ret = -1;
}
else if (WIFSTOPPED (status)) {
sig = WSTOPSIG (status);
error (g, "qemu stopped by signal %d (%s)", sig, strsignal (sig));
ret = -1;
}
}
if (g->recoverypid > 0) waitpid (g->recoverypid, NULL, 0);
g->pid = g->recoverypid = 0;
g->state = CONFIG;
return ret;
}
/* Close all open handles (called from atexit(3)). */
static void
close_handles (void)
{
while (handles) guestfs_close (handles);
}
const char *
guestfs_last_error (guestfs_h *g)
{
return g->last_error;
}
int
guestfs_last_errno (guestfs_h *g)
{
return g->last_errnum;
}
static void
set_last_error (guestfs_h *g, int errnum, const char *msg)
{
free (g->last_error);
g->last_error = strdup (msg);
g->last_errnum = errnum;
}
/* Warning are printed unconditionally. We try to make these rare.
* Generally speaking, a warning should either be an error, or if it's
* not important for end users then it should be a debug message.
*/
void
guestfs___warning (guestfs_h *g, const char *fs, ...)
{
va_list args;
char *msg, *msg2;
int len;
va_start (args, fs);
len = vasprintf (&msg, fs, args);
va_end (args);
if (len < 0) return;
len = asprintf (&msg2, _("warning: %s"), msg);
free (msg);
if (len < 0) return;
guestfs___call_callbacks_message (g, GUESTFS_EVENT_LIBRARY, msg2, len);
free (msg2);
}
/* Debug messages. */
void
guestfs___debug (guestfs_h *g, const char *fs, ...)
{
va_list args;
char *msg;
int len;
/* The cpp macro "debug" has already checked that g->verbose is true
* before calling this function, but we check it again just in case
* anyone calls this function directly.
*/
if (!g->verbose)
return;
va_start (args, fs);
len = vasprintf (&msg, fs, args);
va_end (args);
if (len < 0) return;
guestfs___call_callbacks_message (g, GUESTFS_EVENT_LIBRARY, msg, len);
free (msg);
}
/* Call trace messages. These are enabled by setting g->trace, and
* calls to this function should only happen from the generated code
* in src/actions.c
*/
void
guestfs___trace (guestfs_h *g, const char *fs, ...)
{
va_list args;
char *msg;
int len;
va_start (args, fs);
len = vasprintf (&msg, fs, args);
va_end (args);
if (len < 0) return;
guestfs___call_callbacks_message (g, GUESTFS_EVENT_TRACE, msg, len);
free (msg);
}
static void
default_error_cb (guestfs_h *g, void *data, const char *msg)
{
fprintf (stderr, _("libguestfs: error: %s\n"), msg);
}
void
guestfs_error_errno (guestfs_h *g, int errnum, const char *fs, ...)
{
va_list args;
char *msg;
va_start (args, fs);
int err = vasprintf (&msg, fs, args);
va_end (args);
if (err < 0) return;
/* set_last_error first so that the callback can access the error
* message and errno through the handle if it wishes.
*/
set_last_error (g, errnum, msg);
if (g->error_cb) g->error_cb (g, g->error_cb_data, msg);
free (msg);
}
void
guestfs_perrorf (guestfs_h *g, const char *fs, ...)
{
va_list args;
char *msg;
int errnum = errno;
va_start (args, fs);
int err = vasprintf (&msg, fs, args);
va_end (args);
if (err < 0) return;
char buf[256];
strerror_r (errnum, buf, sizeof buf);
msg = safe_realloc (g, msg, strlen (msg) + 2 + strlen (buf) + 1);
strcat (msg, ": ");
strcat (msg, buf);
/* set_last_error first so that the callback can access the error
* message and errno through the handle if it wishes.
*/
set_last_error (g, errnum, msg);
if (g->error_cb) g->error_cb (g, g->error_cb_data, msg);
free (msg);
}
void *
guestfs_safe_malloc (guestfs_h *g, size_t nbytes)
{
void *ptr = malloc (nbytes);
if (nbytes > 0 && !ptr) g->abort_cb ();
return ptr;
}
/* Return 1 if an array of N objects, each of size S, cannot exist due
to size arithmetic overflow. S must be positive and N must be
nonnegative. This is a macro, not an inline function, so that it
works correctly even when SIZE_MAX < N.
By gnulib convention, SIZE_MAX represents overflow in size
calculations, so the conservative dividend to use here is
SIZE_MAX - 1, since SIZE_MAX might represent an overflowed value.
However, malloc (SIZE_MAX) fails on all known hosts where
sizeof (ptrdiff_t) <= sizeof (size_t), so do not bother to test for
exactly-SIZE_MAX allocations on such hosts; this avoids a test and
branch when S is known to be 1. */
# define xalloc_oversized(n, s) \
((size_t) (sizeof (ptrdiff_t) <= sizeof (size_t) ? -1 : -2) / (s) < (n))
/* Technically we should add an autoconf test for this, testing for the desired
functionality, like what's done in gnulib, but for now, this is fine. */
#if defined(__GLIBC__)
#define HAVE_GNU_CALLOC (__GLIBC__ >= 2)
#else
#define HAVE_GNU_CALLOC 0
#endif
/* Allocate zeroed memory for N elements of S bytes, with error
checking. S must be nonzero. */
void *
guestfs_safe_calloc (guestfs_h *g, size_t n, size_t s)
{
/* From gnulib's calloc function in xmalloc.c. */
void *p;
/* Test for overflow, since some calloc implementations don't have
proper overflow checks. But omit overflow and size-zero tests if
HAVE_GNU_CALLOC, since GNU calloc catches overflow and never
returns NULL if successful. */
if ((! HAVE_GNU_CALLOC && xalloc_oversized (n, s))
|| (! (p = calloc (n, s)) && (HAVE_GNU_CALLOC || n != 0)))
g->abort_cb ();
return p;
}
void *
guestfs_safe_realloc (guestfs_h *g, void *ptr, size_t nbytes)
{
void *p = realloc (ptr, nbytes);
if (nbytes > 0 && !p) g->abort_cb ();
return p;
}
char *
guestfs_safe_strdup (guestfs_h *g, const char *str)
{
char *s = strdup (str);
if (!s) g->abort_cb ();
return s;
}
char *
guestfs_safe_strndup (guestfs_h *g, const char *str, size_t n)
{
char *s = strndup (str, n);
if (!s) g->abort_cb ();
return s;
}
void *
guestfs_safe_memdup (guestfs_h *g, void *ptr, size_t size)
{
void *p = malloc (size);
if (!p) g->abort_cb ();
memcpy (p, ptr, size);
return p;
}
char *
guestfs_safe_asprintf (guestfs_h *g, const char *fs, ...)
{
va_list args;
char *msg;
va_start (args, fs);
int err = vasprintf (&msg, fs, args);
va_end (args);
if (err == -1)
g->abort_cb ();
return msg;
}
void
guestfs_set_out_of_memory_handler (guestfs_h *g, guestfs_abort_cb cb)
{
g->abort_cb = cb;
}
guestfs_abort_cb
guestfs_get_out_of_memory_handler (guestfs_h *g)
{
return g->abort_cb;
}
void
guestfs_set_error_handler (guestfs_h *g, guestfs_error_handler_cb cb, void *data)
{
g->error_cb = cb;
g->error_cb_data = data;
}
guestfs_error_handler_cb
guestfs_get_error_handler (guestfs_h *g, void **data_rtn)
{
if (data_rtn) *data_rtn = g->error_cb_data;
return g->error_cb;
}
void
guestfs_user_cancel (guestfs_h *g)
{
g->user_cancel = 1;
}
int
guestfs__set_verbose (guestfs_h *g, int v)
{
g->verbose = !!v;
return 0;
}
int
guestfs__get_verbose (guestfs_h *g)
{
return g->verbose;
}
int
guestfs__set_autosync (guestfs_h *g, int a)
{
g->autosync = !!a;
return 0;
}
int
guestfs__get_autosync (guestfs_h *g)
{
return g->autosync;
}
int
guestfs__set_path (guestfs_h *g, const char *path)
{
free (g->path);
g->path = NULL;
g->path =
path == NULL ?
safe_strdup (g, GUESTFS_DEFAULT_PATH) : safe_strdup (g, path);
return 0;
}
const char *
guestfs__get_path (guestfs_h *g)
{
return g->path;
}
int
guestfs__set_qemu (guestfs_h *g, const char *qemu)
{
free (g->qemu);
g->qemu = NULL;
g->qemu = qemu == NULL ? safe_strdup (g, QEMU) : safe_strdup (g, qemu);
return 0;
}
const char *
guestfs__get_qemu (guestfs_h *g)
{
return g->qemu;
}
int
guestfs__set_append (guestfs_h *g, const char *append)
{
free (g->append);
g->append = NULL;
g->append = append ? safe_strdup (g, append) : NULL;
return 0;
}
const char *
guestfs__get_append (guestfs_h *g)
{
return g->append;
}
int
guestfs__set_memsize (guestfs_h *g, int memsize)
{
g->memsize = memsize;
return 0;
}
int
guestfs__get_memsize (guestfs_h *g)
{
return g->memsize;
}
int
guestfs__set_selinux (guestfs_h *g, int selinux)
{
g->selinux = selinux;
return 0;
}
int
guestfs__get_selinux (guestfs_h *g)
{
return g->selinux;
}
int
guestfs__get_pid (guestfs_h *g)
{
if (g->pid > 0)
return g->pid;
else {
error (g, "get_pid: no qemu subprocess");
return -1;
}
}
struct guestfs_version *
guestfs__version (guestfs_h *g)
{
struct guestfs_version *r;
r = safe_malloc (g, sizeof *r);
r->major = PACKAGE_VERSION_MAJOR;
r->minor = PACKAGE_VERSION_MINOR;
r->release = PACKAGE_VERSION_RELEASE;
r->extra = safe_strdup (g, PACKAGE_VERSION_EXTRA);
return r;
}
int
guestfs__set_trace (guestfs_h *g, int t)
{
g->trace = !!t;
return 0;
}
int
guestfs__get_trace (guestfs_h *g)
{
return g->trace;
}
int
guestfs__set_direct (guestfs_h *g, int d)
{
g->direct = !!d;
return 0;
}
int
guestfs__get_direct (guestfs_h *g)
{
return g->direct;
}
int
guestfs__set_recovery_proc (guestfs_h *g, int f)
{
g->recovery_proc = !!f;
return 0;
}
int
guestfs__get_recovery_proc (guestfs_h *g)
{
return g->recovery_proc;
}
int
guestfs__set_network (guestfs_h *g, int v)
{
g->enable_network = !!v;
return 0;
}
int
guestfs__get_network (guestfs_h *g)
{
return g->enable_network;
}
int
guestfs__set_attach_method (guestfs_h *g, const char *method)
{
if (STREQ (method, "appliance")) {
g->attach_method = ATTACH_METHOD_APPLIANCE;
free (g->attach_method_arg);
g->attach_method_arg = NULL;
}
else if (STRPREFIX (method, "unix:") && strlen (method) > 5) {
g->attach_method = ATTACH_METHOD_UNIX;
free (g->attach_method_arg);
g->attach_method_arg = safe_strdup (g, method + 5);
/* Note that we don't check the path exists until launch is called. */
}
else {
error (g, "invalid attach method: %s", method);
return -1;
}
return 0;
}
char *
guestfs__get_attach_method (guestfs_h *g)
{
char *ret;
switch (g->attach_method) {
case ATTACH_METHOD_APPLIANCE:
ret = safe_strdup (g, "appliance");
break;
case ATTACH_METHOD_UNIX:
ret = safe_malloc (g, strlen (g->attach_method_arg) + 5 + 1);
strcpy (ret, "unix:");
strcat (ret, g->attach_method_arg);
break;
default: /* keep GCC happy - this is not reached */
abort ();
}
return ret;
}
int
guestfs__set_pgroup (guestfs_h *g, int v)
{
g->pgroup = !!v;
return 0;
}
int
guestfs__get_pgroup (guestfs_h *g)
{
return g->pgroup;
}
int
guestfs__set_smp (guestfs_h *g, int v)
{
if (v > 255) {
error (g, "unsupported number of smp vcpus: %d", v);
return -1;
} else if (v >= 1) {
g->smp = v;
return 0;
} else {
error (g, "invalid smp parameter: %d", v);
return -1;
}
}
int
guestfs__get_smp (guestfs_h *g)
{
return g->smp;
}
/* Note the private data area is allocated lazily, since the vast
* majority of callers will never use it. This means g->pda is
* likely to be NULL.
*/
struct pda_entry {
char *key; /* key */
void *data; /* opaque user data pointer */
};
static size_t
hasher (void const *x, size_t table_size)
{
struct pda_entry const *p = x;
return hash_pjw (p->key, table_size);
}
static bool
comparator (void const *x, void const *y)
{
struct pda_entry const *a = x;
struct pda_entry const *b = y;
return STREQ (a->key, b->key);
}
static void
freer (void *x)
{
if (x) {
struct pda_entry *p = x;
free (p->key);
free (p);
}
}
void
guestfs_set_private (guestfs_h *g, const char *key, void *data)
{
if (g->pda == NULL) {
g->pda = hash_initialize (16, NULL, hasher, comparator, freer);
if (g->pda == NULL)
g->abort_cb ();
}
struct pda_entry *new_entry = safe_malloc (g, sizeof *new_entry);
new_entry->key = safe_strdup (g, key);
new_entry->data = data;
struct pda_entry *old_entry = hash_delete (g->pda, new_entry);
freer (old_entry);
struct pda_entry *entry = hash_insert (g->pda, new_entry);
if (entry == NULL)
g->abort_cb ();
assert (entry == new_entry);
}
static inline char *
bad_cast (char const *s)
{
return (char *) s;
}
void *
guestfs_get_private (guestfs_h *g, const char *key)
{
if (g->pda == NULL)
return NULL; /* no keys have been set */
const struct pda_entry k = { .key = bad_cast (key) };
struct pda_entry *entry = hash_lookup (g->pda, &k);
if (entry)
return entry->data;
else
return NULL;
}
/* Iterator. */
void *
guestfs_first_private (guestfs_h *g, const char **key_rtn)
{
if (g->pda == NULL)
return NULL;
g->pda_next = hash_get_first (g->pda);
/* Ignore any keys with NULL data pointers. */
while (g->pda_next && g->pda_next->data == NULL)
g->pda_next = hash_get_next (g->pda, g->pda_next);
if (g->pda_next == NULL)
return NULL;
*key_rtn = g->pda_next->key;
return g->pda_next->data;
}
void *
guestfs_next_private (guestfs_h *g, const char **key_rtn)
{
if (g->pda == NULL)
return NULL;
if (g->pda_next == NULL)
return NULL;
/* Walk to the next key with a non-NULL data pointer. */
do {
g->pda_next = hash_get_next (g->pda, g->pda_next);
} while (g->pda_next && g->pda_next->data == NULL);
if (g->pda_next == NULL)
return NULL;
*key_rtn = g->pda_next->key;
return g->pda_next->data;
}
/* When tracing, be careful how we print BufferIn parameters which
* usually contain large amounts of binary data (RHBZ#646822).
*/
void
guestfs___print_BufferIn (FILE *out, const char *buf, size_t buf_size)
{
size_t i;
size_t orig_size = buf_size;
if (buf_size > 256)
buf_size = 256;
fputc ('"', out);
for (i = 0; i < buf_size; ++i) {
if (c_isprint (buf[i]))
fputc (buf[i], out);
else
fprintf (out, "\\x%02x", (unsigned char) buf[i]);
}
fputc ('"', out);
if (orig_size > buf_size)
fprintf (out,
_("<truncated, original size %zu bytes>"), orig_size);
}
void
guestfs___print_BufferOut (FILE *out, const char *buf, size_t buf_size)
{
guestfs___print_BufferIn (out, buf, buf_size);
}
void
guestfs___free_string_list (char **argv)
{
size_t i;
for (i = 0; argv[i] != NULL; ++i)
free (argv[i]);
free (argv);
}
void
guestfs___free_drives (struct drive **drives)
{
struct drive *i = *drives;
*drives = NULL;
while (i != NULL) {
struct drive *next = i->next;
free (i->path);
free (i->format);
free (i->iface);
free (i->name);
free (i);
i = next;
}
}
char *
guestfs__canonical_device_name (guestfs_h *g, const char *device)
{
char *ret;
if (STRPREFIX (device, "/dev/hd") ||
STRPREFIX (device, "/dev/vd")) {
ret = safe_strdup (g, device);
ret[5] = 's';
}
else if (STRPREFIX (device, "/dev/mapper/") ||
STRPREFIX (device, "/dev/dm-")) {
/* XXX hide errors */
ret = guestfs_lvm_canonical_lv_name (g, device);
if (ret == NULL)
ret = safe_strdup (g, device);
}
else
ret = safe_strdup (g, device);
return ret; /* caller frees */
}
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