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|
/*
* Routines to support hard-linking.
*
* Copyright (C) 1996 Andrew Tridgell
* Copyright (C) 1996 Paul Mackerras
* Copyright (C) 2002 Martin Pool <mbp@samba.org>
* Copyright (C) 2004-2007 Wayne Davison
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 3 as
* published by the Free Software Foundation.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, visit the http://fsf.org website.
*/
#include "rsync.h"
extern int verbose;
extern int dry_run;
extern int do_xfers;
extern int link_dest;
extern int preserve_acls;
extern int make_backups;
extern int protocol_version;
extern int remove_source_files;
extern int stdout_format_has_i;
extern int maybe_ATTRS_REPORT;
extern char *basis_dir[];
extern struct file_list *cur_flist;
#ifdef ICONV_OPTION
extern int ic_ndx;
#endif
#ifdef SUPPORT_HARD_LINKS
#define HASH_LOAD_LIMIT(size) ((size)*3/4)
struct ihash_table {
int32 size;
int32 entries;
struct idev_node *buckets;
} *dev_tbl;
static struct idev_node *ihash_node(struct ihash_table *tbl, int64 key);
/* Starting with protocol 30, we use a simple hashtable on the sending side
* for hashing the st_dev and st_ino info. The receiving side gets told
* (via flags and a "group index") which items are hard-linked together, so
* we can avoid the pool of dev+inode data. */
static struct ihash_table *ihash_create(int size)
{
struct ihash_table *tbl;
/* Pick a power of 2 that can hold the requested size. */
if (size & (size-1) || size < 16) {
int req = size;
size = 16;
while (size < req)
size *= 2;
}
if (!(tbl = new(struct ihash_table))
|| !(tbl->buckets = new_array(struct idev_node, size)))
out_of_memory("ihash_create");
memset(tbl->buckets, 0, size * sizeof tbl->buckets[0]);
tbl->size = size;
tbl->entries = 0;
return tbl;
}
static void ihash_destroy(struct ihash_table *tbl)
{
free(tbl->buckets);
free(tbl);
}
void init_hard_links(void)
{
dev_tbl = ihash_create(16);
}
static void expand_ihash(struct ihash_table *tbl)
{
struct idev_node *old_buckets = tbl->buckets;
int size = tbl->size * 2;
int i;
if (!(tbl->buckets = new_array(struct idev_node, size)))
out_of_memory("ihash_create");
memset(tbl->buckets, 0, size * sizeof (struct idev_node));
tbl->size = size;
tbl->entries = 0;
for (i = size / 2; i-- > 0; ) {
int64 key = old_buckets[i].key;
if (key == 0)
continue;
ihash_node(tbl, key)->data = old_buckets[i].data;
}
free(old_buckets);
}
/* This returns the node for the indicated key, either newly created,
* or already existing. */
static struct idev_node *ihash_node(struct ihash_table *tbl, int64 key)
{
uint32 bkt;
if (tbl->entries > HASH_LOAD_LIMIT(tbl->size))
expand_ihash(tbl);
#if SIZEOF_INT64 < 8
/* Based on Jenkins One-at-a-time hash. */
{
uchar *keyp = (uchar*)&key;
int i;
for (bkt = 0, i = 0; i < SIZEOF_INT64; i++) {
bkt += keyp[i];
bkt += (bkt << 10);
bkt ^= (bkt >> 6);
}
bkt += (bkt << 3);
bkt ^= (bkt >> 11);
bkt += (bkt << 15);
}
#else
#define rot(x,k) (((x)<<(k)) ^ ((x)>>(32-(k))))
/* Based on Jenkins hashword() from lookup3.c. */
{
uint32 a, b, c;
/* Set up the internal state */
a = b = c = 0xdeadbeef + (8 << 2);
b += (uint32)(key >> 32);
a += (uint32)key;
c ^= b; c -= rot(b, 14);
a ^= c; a -= rot(c, 11);
b ^= a; b -= rot(a, 25);
c ^= b; c -= rot(b, 16);
a ^= c; a -= rot(c, 4);
b ^= a; b -= rot(a, 14);
c ^= b; c -= rot(b, 24);
bkt = c;
}
#endif
/* If it already exists, return it. */
while (1) {
bkt &= tbl->size - 1;
if (tbl->buckets[bkt].key == key)
return &tbl->buckets[bkt];
if (tbl->buckets[bkt].key == 0)
break;
bkt++;
}
/* Otherwise, take over this empty spot and then return it. */
tbl->buckets[bkt].key = key;
tbl->entries++;
return &tbl->buckets[bkt];
}
struct idev_node *idev_node(int64 dev, int64 ino)
{
static struct idev_node *dev_node = NULL;
struct ihash_table *tbl;
if (!dev_node || dev_node->key != dev) {
/* We keep a separate hash table of inodes for every device. */
dev_node = ihash_node(dev_tbl, dev);
if (!(tbl = dev_node->data))
tbl = dev_node->data = ihash_create(512);
} else
tbl = dev_node->data;
return ihash_node(tbl, ino);
}
void idev_destroy(void)
{
int i;
for (i = 0; i < dev_tbl->size; i++) {
if (dev_tbl->buckets[i].data)
ihash_destroy(dev_tbl->buckets[i].data);
}
ihash_destroy(dev_tbl);
}
static int hlink_compare_gnum(int *int1, int *int2)
{
struct file_struct *f1 = cur_flist->sorted[*int1];
struct file_struct *f2 = cur_flist->sorted[*int2];
int32 gnum1 = F_HL_GNUM(f1);
int32 gnum2 = F_HL_GNUM(f2);
if (gnum1 != gnum2)
return gnum1 > gnum2 ? 1 : -1;
return *int1 > *int2 ? 1 : -1;
}
static void match_gnums(int32 *ndx_list, int ndx_count)
{
int32 from, prev;
struct file_struct *file, *file_next;
int32 gnum, gnum_next;
qsort(ndx_list, ndx_count, sizeof ndx_list[0],
(int (*)()) hlink_compare_gnum);
for (from = 0; from < ndx_count; from++) {
for (file = cur_flist->sorted[ndx_list[from]], gnum = F_HL_GNUM(file), prev = -1;
from < ndx_count-1;
file = file_next, gnum = gnum_next, from++) /*SHARED ITERATOR*/
{
file_next = cur_flist->sorted[ndx_list[from+1]];
gnum_next = F_HL_GNUM(file_next);
if (gnum != gnum_next)
break;
if (prev < 0)
file->flags |= FLAG_HLINK_FIRST;
F_HL_PREV(file) = prev;
/* The linked list must use raw ndx values. */
#ifdef ICONV_OPTION
if (ic_ndx)
prev = F_NDX(file);
else
#endif
prev = ndx_list[from];
}
if (prev < 0)
file->flags &= ~FLAG_HLINKED;
else {
file->flags |= FLAG_HLINK_LAST;
F_HL_PREV(file) = prev;
}
}
}
/* Analyze the hard-links in the file-list by creating a list of all the
* items that have hlink data, sorting them, and matching up identical
* values into clusters. These will be a single linked list from last
* to first when we're done. */
void match_hard_links(void)
{
int i, ndx_count = 0;
int32 *ndx_list;
if (!(ndx_list = new_array(int32, cur_flist->used)))
out_of_memory("match_hard_links");
for (i = 0; i < cur_flist->used; i++) {
if (F_IS_HLINKED(cur_flist->sorted[i]))
ndx_list[ndx_count++] = i;
}
if (ndx_count)
match_gnums(ndx_list, ndx_count);
free(ndx_list);
if (protocol_version < 30)
idev_destroy();
}
static int maybe_hard_link(struct file_struct *file, int ndx,
const char *fname, int statret, statx *sxp,
const char *oldname, STRUCT_STAT *old_stp,
const char *realname, int itemizing, enum logcode code)
{
if (statret == 0) {
if (sxp->st.st_dev == old_stp->st_dev
&& sxp->st.st_ino == old_stp->st_ino) {
if (itemizing) {
itemize(fname, file, ndx, statret, sxp,
ITEM_LOCAL_CHANGE | ITEM_XNAME_FOLLOWS,
0, "");
}
if (verbose > 1 && maybe_ATTRS_REPORT)
rprintf(FCLIENT, "%s is uptodate\n", fname);
file->flags |= FLAG_HLINK_DONE;
return 0;
}
if (make_backups > 0) {
if (!make_backup(fname))
return -1;
} else if (robust_unlink(fname)) {
rsyserr(FERROR, errno, "unlink %s failed",
full_fname(fname));
return -1;
}
}
if (hard_link_one(file, fname, oldname, 0)) {
if (itemizing) {
itemize(fname, file, ndx, statret, sxp,
ITEM_LOCAL_CHANGE | ITEM_XNAME_FOLLOWS, 0,
realname);
}
if (code != FNONE && verbose)
rprintf(code, "%s => %s\n", fname, realname);
return 0;
}
return -1;
}
/* Only called if FLAG_HLINKED is set and FLAG_HLINK_FIRST is not. Returns:
* 0 = process the file, 1 = skip the file, -1 = error occurred. */
int hard_link_check(struct file_struct *file, int ndx, const char *fname,
int statret, statx *sxp, int itemizing,
enum logcode code)
{
STRUCT_STAT prev_st;
char prev_name[MAXPATHLEN], altbuf[MAXPATHLEN], *realname;
int alt_dest, prev_ndx = F_HL_PREV(file);
struct file_struct *prev_file = cur_flist->files[prev_ndx];
/* Is the previous link is not complete yet? */
if (!(prev_file->flags & FLAG_HLINK_DONE)) {
/* Is the previous link being transferred? */
if (prev_file->flags & FLAG_FILE_SENT) {
/* Add ourselves to the list of files that will be
* updated when the transfer completes, and mark
* ourself as waiting for the transfer. */
F_HL_PREV(file) = F_HL_PREV(prev_file);
F_HL_PREV(prev_file) = ndx;
file->flags |= FLAG_FILE_SENT;
return 1;
}
return 0;
}
/* There is a finished file to link with! */
if (!(prev_file->flags & FLAG_HLINK_FIRST)) {
/* The previous previous will be marked with FIRST. */
prev_ndx = F_HL_PREV(prev_file);
prev_file = cur_flist->files[prev_ndx];
/* Update our previous pointer to point to the first. */
F_HL_PREV(file) = prev_ndx;
}
alt_dest = F_HL_PREV(prev_file); /* alternate value when DONE && FIRST */
if (alt_dest >= 0 && dry_run) {
pathjoin(prev_name, MAXPATHLEN, basis_dir[alt_dest],
f_name(prev_file, NULL));
f_name(prev_file, altbuf);
realname = altbuf;
} else {
f_name(prev_file, prev_name);
realname = prev_name;
}
if (link_stat(prev_name, &prev_st, 0) < 0) {
rsyserr(FERROR, errno, "stat %s failed",
full_fname(prev_name));
return -1;
}
if (statret < 0 && basis_dir[0] != NULL) {
/* If we match an alt-dest item, we don't output this as a change. */
char cmpbuf[MAXPATHLEN];
statx alt_sx;
int j = 0;
#ifdef SUPPORT_ACLS
alt_sx.acc_acl = alt_sx.def_acl = NULL;
#endif
do {
pathjoin(cmpbuf, MAXPATHLEN, basis_dir[j], fname);
if (link_stat(cmpbuf, &alt_sx.st, 0) < 0)
continue;
if (link_dest) {
if (prev_st.st_dev != alt_sx.st.st_dev
|| prev_st.st_ino != alt_sx.st.st_ino)
continue;
statret = 1;
if (verbose < 2 || !stdout_format_has_i) {
itemizing = 0;
code = FNONE;
if (verbose > 1 && maybe_ATTRS_REPORT)
rprintf(FCLIENT, "%s is uptodate\n", fname);
}
break;
}
if (!unchanged_file(cmpbuf, file, &alt_sx.st))
continue;
statret = 1;
if (unchanged_attrs(cmpbuf, file, &alt_sx))
break;
} while (basis_dir[++j] != NULL);
if (statret == 1) {
sxp->st = alt_sx.st;
#ifdef SUPPORT_ACLS
if (preserve_acls && !S_ISLNK(file->mode)) {
if (!ACL_READY(*sxp))
get_acl(cmpbuf, sxp);
else {
sxp->acc_acl = alt_sx.acc_acl;
sxp->def_acl = alt_sx.def_acl;
}
}
#endif
}
#ifdef SUPPORT_ACLS
else if (preserve_acls)
free_acl(&alt_sx);
#endif
}
if (maybe_hard_link(file, ndx, fname, statret, sxp, prev_name, &prev_st,
realname, itemizing, code) < 0)
return -1;
if (remove_source_files == 1 && do_xfers)
send_msg_int(MSG_SUCCESS, ndx);
return 1;
}
int hard_link_one(struct file_struct *file, const char *fname,
const char *oldname, int terse)
{
if (do_link(oldname, fname) < 0) {
enum logcode code;
if (terse) {
if (!verbose)
return -1;
code = FINFO;
} else
code = FERROR;
rsyserr(code, errno, "link %s => %s failed",
full_fname(fname), oldname);
return 0;
}
file->flags |= FLAG_HLINK_DONE;
return 1;
}
void finish_hard_link(struct file_struct *file, const char *fname,
STRUCT_STAT *stp, int itemizing, enum logcode code,
int alt_dest)
{
statx prev_sx;
STRUCT_STAT st;
char alt_name[MAXPATHLEN], *prev_name;
const char *our_name;
int prev_statret, ndx, prev_ndx = F_HL_PREV(file);
if (stp == NULL && prev_ndx >= 0) {
if (link_stat(fname, &st, 0) < 0) {
rsyserr(FERROR, errno, "stat %s failed",
full_fname(fname));
return;
}
stp = &st;
}
/* FIRST combined with DONE means we were the first to get done. */
file->flags |= FLAG_HLINK_FIRST | FLAG_HLINK_DONE;
F_HL_PREV(file) = alt_dest;
if (alt_dest >= 0 && dry_run) {
pathjoin(alt_name, MAXPATHLEN, basis_dir[alt_dest],
f_name(file, NULL));
our_name = alt_name;
} else
our_name = fname;
#ifdef SUPPORT_ACLS
prev_sx.acc_acl = prev_sx.def_acl = NULL;
#endif
while ((ndx = prev_ndx) >= 0) {
int val;
file = cur_flist->files[ndx];
file->flags = (file->flags & ~FLAG_HLINK_FIRST) | FLAG_HLINK_DONE;
prev_ndx = F_HL_PREV(file);
prev_name = f_name(file, NULL);
prev_statret = link_stat(prev_name, &prev_sx.st, 0);
val = maybe_hard_link(file, ndx, prev_name, prev_statret, &prev_sx,
our_name, stp, fname, itemizing, code);
#ifdef SUPPORT_ACLS
if (preserve_acls)
free_acl(&prev_sx);
#endif
if (val < 0)
continue;
if (remove_source_files == 1 && do_xfers)
send_msg_int(MSG_SUCCESS, ndx);
}
}
#endif
|
