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ll.c
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ll.c
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/*
* Copyright (c) 2012 Dave Vasilevsky <[email protected]>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "ll.h"
#include "fuseprivate.h"
#include "stat.h"
#include "nonstd.h"
#include <errno.h>
#include <float.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <signal.h>
#include <unistd.h>
static const double SQFS_TIMEOUT = DBL_MAX;
/* See comment near alarm_tick for details of how idle timeouts are
managed. */
/* timeout, in seconds, after which we will automatically unmount */
static unsigned int idle_timeout_secs = 0;
/* last access timestamp */
static time_t last_access = 0;
/* count of files and directories currently open. drecement after
* last_access for correctness. */
static sig_atomic_t open_refcount = 0;
/* same as lib/fuse_signals.c */
static struct fuse_session *fuse_instance = NULL;
static void update_access_time(void) {
#ifdef SQFS_MULTITHREADED
/* We only need to track access time if we have an idle timeout,
* don't bother with expensive operations if idle_timeout is 0.
*/
if (idle_timeout_secs) {
time_t now = time(NULL);
__atomic_store_n(&last_access, now, __ATOMIC_RELEASE);
}
#else
last_access = time(NULL);
#endif
}
static void update_open_refcount(int delta) {
#ifdef SQFS_MULTITHREADED
__atomic_fetch_add(&open_refcount, delta, __ATOMIC_RELEASE);
#else
open_refcount += delta;
#endif
}
static inline time_t get_access_time(void) {
#ifdef SQFS_MULTITHREADED
return __atomic_load_n(&last_access, __ATOMIC_ACQUIRE);
#else
return last_access;
#endif
}
static inline sig_atomic_t get_open_refcount(void) {
#ifdef SQFS_MULTITHREADED
return __atomic_load_n(&open_refcount, __ATOMIC_ACQUIRE);
#else
return open_refcount;
#endif
}
void sqfs_ll_op_getattr(fuse_req_t req, fuse_ino_t ino,
struct fuse_file_info *fi) {
sqfs_ll_i lli;
struct stat st;
update_access_time();
if (sqfs_ll_iget(req, &lli, ino))
return;
if (sqfs_stat(&lli.ll->fs, &lli.inode, &st)) {
fuse_reply_err(req, ENOENT);
} else {
st.st_ino = ino;
fuse_reply_attr(req, &st, SQFS_TIMEOUT);
}
}
void sqfs_ll_op_opendir(fuse_req_t req, fuse_ino_t ino,
struct fuse_file_info *fi) {
sqfs_ll_i *lli;
update_access_time();
fi->fh = (intptr_t)NULL;
lli = malloc(sizeof(*lli));
if (!lli) {
fuse_reply_err(req, ENOMEM);
return;
}
if (sqfs_ll_iget(req, lli, ino) == SQFS_OK) {
if (!S_ISDIR(lli->inode.base.mode)) {
fuse_reply_err(req, ENOTDIR);
} else {
fi->fh = (intptr_t)lli;
update_open_refcount(1);
fuse_reply_open(req, fi);
return;
}
}
free(lli);
}
void sqfs_ll_op_create(fuse_req_t req, fuse_ino_t parent, const char *name,
mode_t mode, struct fuse_file_info *fi) {
update_access_time();
fuse_reply_err(req, EROFS);
}
void sqfs_ll_op_releasedir(fuse_req_t req, fuse_ino_t ino,
struct fuse_file_info *fi) {
update_access_time();
update_open_refcount(-1);
free((sqfs_ll_i*)(intptr_t)fi->fh);
fuse_reply_err(req, 0); /* yes, this is necessary */
}
size_t sqfs_ll_add_direntry(fuse_req_t req, char *buf, size_t bufsize,
const char *name, const struct stat *st, off_t off) {
#if HAVE_DECL_FUSE_ADD_DIRENTRY
return fuse_add_direntry(req, buf, bufsize, name, st, off);
#else
size_t esize = fuse_dirent_size(strlen(name));
if (bufsize >= esize)
fuse_add_dirent(buf, name, st, off);
return esize;
#endif
}
void sqfs_ll_op_readdir(fuse_req_t req, fuse_ino_t ino, size_t size,
off_t off, struct fuse_file_info *fi) {
sqfs_err sqerr;
sqfs_dir dir;
sqfs_name namebuf;
sqfs_dir_entry entry;
size_t esize;
struct stat st;
char *buf = NULL, *bufpos = NULL;
sqfs_ll_i *lli = (sqfs_ll_i*)(intptr_t)fi->fh;
int err = 0;
update_access_time();
#ifdef SQFS_BROKEN_DIR_OFFSETS
off_t dir_offset = 0;
#else
off_t dir_offset = off;
#endif
if (sqfs_dir_open(&lli->ll->fs, &lli->inode, &dir, dir_offset))
err = EINVAL;
if (!err && !(bufpos = buf = malloc(size)))
err = ENOMEM;
if (!err) {
memset(&st, 0, sizeof(st));
sqfs_dentry_init(&entry, namebuf);
while (sqfs_dir_next(&lli->ll->fs, &dir, &entry, &sqerr)) {
st.st_ino = lli->ll->ino_fuse_num(lli->ll, &entry);
st.st_mode = sqfs_dentry_mode(&entry);
esize = sqfs_ll_add_direntry(req, bufpos, size, sqfs_dentry_name(&entry),
&st, sqfs_dentry_next_offset(&entry));
#ifdef SQFS_BROKEN_DIR_OFFSETS
/* We couldn't fast-forwards earlier, so manually skip entries instead */
if (off > 0) {
off -= esize;
continue;
}
#endif
if (esize > size)
break;
bufpos += esize;
size -= esize;
}
if (sqerr)
err = EIO;
}
if (err)
fuse_reply_err(req, err);
else
fuse_reply_buf(req, buf, bufpos - buf);
free(buf);
}
void sqfs_ll_op_lookup(fuse_req_t req, fuse_ino_t parent,
const char *name) {
sqfs_ll_i lli;
sqfs_err sqerr;
sqfs_name namebuf;
sqfs_dir_entry entry;
bool found;
sqfs_inode inode;
update_access_time();
if (sqfs_ll_iget(req, &lli, parent))
return;
if (!S_ISDIR(lli.inode.base.mode)) {
fuse_reply_err(req, ENOTDIR);
return;
}
sqfs_dentry_init(&entry, namebuf);
sqerr = sqfs_dir_lookup(&lli.ll->fs, &lli.inode, name, strlen(name), &entry,
&found);
if (sqerr) {
fuse_reply_err(req, EIO);
return;
}
if (!found) {
/* Returning with zero inode indicates not found with
* timeout, i.e. future lookups of this name will not generate
* fuse requests.
*/
struct fuse_entry_param fentry;
memset(&fentry, 0, sizeof(fentry));
fentry.attr_timeout = fentry.entry_timeout = SQFS_TIMEOUT;
fentry.ino = 0;
fuse_reply_entry(req, &fentry);
return;
}
if (sqfs_inode_get(&lli.ll->fs, &inode, sqfs_dentry_inode(&entry))) {
fuse_reply_err(req, ENOENT);
} else {
struct fuse_entry_param fentry;
memset(&fentry, 0, sizeof(fentry));
if (sqfs_stat(&lli.ll->fs, &inode, &fentry.attr)) {
fuse_reply_err(req, EIO);
} else {
fentry.attr_timeout = fentry.entry_timeout = SQFS_TIMEOUT;
fentry.ino = lli.ll->ino_register(lli.ll, &entry);
fentry.attr.st_ino = fentry.ino;
fuse_reply_entry(req, &fentry);
}
}
}
void sqfs_ll_op_open(fuse_req_t req, fuse_ino_t ino,
struct fuse_file_info *fi) {
sqfs_inode *inode;
sqfs_ll *ll;
update_access_time();
if (fi->flags & (O_WRONLY | O_RDWR)) {
fuse_reply_err(req, EROFS);
return;
}
inode = malloc(sizeof(sqfs_inode));
if (!inode) {
fuse_reply_err(req, ENOMEM);
return;
}
ll = fuse_req_userdata(req);
if (sqfs_ll_inode(ll, inode, ino)) {
fuse_reply_err(req, ENOENT);
} else if (!S_ISREG(inode->base.mode)) {
fuse_reply_err(req, EISDIR);
} else {
fi->fh = (intptr_t)inode;
fi->keep_cache = 1;
update_open_refcount(1);
fuse_reply_open(req, fi);
return;
}
free(inode);
}
void sqfs_ll_op_release(fuse_req_t req, fuse_ino_t ino,
struct fuse_file_info *fi) {
free((sqfs_inode*)(intptr_t)fi->fh);
fi->fh = 0;
update_access_time();
update_open_refcount(-1);
fuse_reply_err(req, 0);
}
void sqfs_ll_op_read(fuse_req_t req, fuse_ino_t ino,
size_t size, off_t off, struct fuse_file_info *fi) {
sqfs_ll *ll = fuse_req_userdata(req);
sqfs_inode *inode = (sqfs_inode*)(intptr_t)fi->fh;
sqfs_err err = SQFS_OK;
off_t osize;
char *buf = malloc(size);
if (!buf) {
fuse_reply_err(req, ENOMEM);
return;
}
update_access_time();
osize = size;
err = sqfs_read_range(&ll->fs, inode, off, &osize, buf);
if (err) {
fuse_reply_err(req, EIO);
} else if (osize == 0) { /* EOF */
fuse_reply_buf(req, NULL, 0);
} else {
fuse_reply_buf(req, buf, osize);
}
free(buf);
}
void sqfs_ll_op_readlink(fuse_req_t req, fuse_ino_t ino) {
char *dst;
size_t size;
sqfs_ll_i lli;
update_access_time();
if (sqfs_ll_iget(req, &lli, ino))
return;
if (!S_ISLNK(lli.inode.base.mode)) {
fuse_reply_err(req, EINVAL);
} else if (sqfs_readlink(&lli.ll->fs, &lli.inode, NULL, &size)) {
fuse_reply_err(req, EIO);
} else if (!(dst = malloc(size + 1))) {
fuse_reply_err(req, ENOMEM);
} else if (sqfs_readlink(&lli.ll->fs, &lli.inode, dst, &size)) {
fuse_reply_err(req, EIO);
free(dst);
} else {
fuse_reply_readlink(req, dst);
free(dst);
}
}
void sqfs_ll_op_listxattr(fuse_req_t req, fuse_ino_t ino, size_t size) {
sqfs_ll_i lli;
char *buf;
int ferr;
update_access_time();
if (sqfs_ll_iget(req, &lli, ino))
return;
buf = NULL;
if (size && !(buf = malloc(size))) {
fuse_reply_err(req, ENOMEM);
return;
}
ferr = sqfs_listxattr(&lli.ll->fs, &lli.inode, buf, &size);
if (ferr) {
fuse_reply_err(req, ferr);
} else if (buf) {
fuse_reply_buf(req, buf, size);
} else {
fuse_reply_xattr(req, size);
}
free(buf);
}
void sqfs_ll_op_getxattr(fuse_req_t req, fuse_ino_t ino,
const char *name, size_t size
#ifdef FUSE_XATTR_POSITION
, uint32_t position
#endif
) {
sqfs_ll_i lli;
char *buf = NULL;
size_t real = size;
#ifdef FUSE_XATTR_POSITION
if (position != 0) { /* We don't support resource forks */
fuse_reply_err(req, EINVAL);
return;
}
#endif
update_access_time();
if (sqfs_ll_iget(req, &lli, ino))
return;
if (!(buf = malloc(size)))
fuse_reply_err(req, ENOMEM);
else if (sqfs_xattr_lookup(&lli.ll->fs, &lli.inode, name, buf, &real))
fuse_reply_err(req, EIO);
else if (real == 0)
fuse_reply_err(req, sqfs_enoattr());
else if (size == 0)
fuse_reply_xattr(req, real);
else if (size < real)
fuse_reply_err(req, ERANGE);
else
fuse_reply_buf(req, buf, real);
free(buf);
}
void sqfs_ll_op_forget(fuse_req_t req, fuse_ino_t ino,
#ifdef HAVE_FUSE_LL_FORGET_OP_64T
uint64_t nlookup
#else
unsigned long nlookup
#endif
) {
sqfs_ll_i lli;
update_access_time();
sqfs_ll_iget(req, &lli, SQFS_FUSE_INODE_NONE);
lli.ll->ino_forget(lli.ll, ino, nlookup);
fuse_reply_none(req);
}
void stfs_ll_op_statfs(fuse_req_t req, fuse_ino_t ino) {
sqfs_ll *ll;
struct statvfs st;
int err;
ll = fuse_req_userdata(req);
err = sqfs_statfs(&ll->fs, &st);
if (err == 0) {
fuse_reply_statfs(req, &st);
} else {
fuse_reply_err(req, err);
}
}
void sqfs_ll_op_init(void *userdata, struct fuse_conn_info *conn) {
sqfs_ll *ll = userdata;
notify_mount_ready_async(ll->fs.notify_pipe, NOTIFY_SUCCESS);
}
/* Helpers to abstract out FUSE 2.5 vs 3.0+ differences */
#if FUSE_USE_VERSION >= 30
sqfs_err sqfs_ll_mount(
sqfs_ll_chan *ch,
const char *mountpoint,
struct fuse_args *args,
struct fuse_lowlevel_ops *ops,
size_t ops_size,
void *userdata) {
ch->session = fuse_session_new(args, ops, ops_size, userdata);
if (!ch->session) {
return SQFS_ERR;
}
if (fuse_session_mount(ch->session, mountpoint)) {
fuse_session_destroy(ch->session);
ch->session = NULL;
return SQFS_ERR;
}
return SQFS_OK;
}
void sqfs_ll_unmount(sqfs_ll_chan *ch, const char *mountpoint) {
fuse_session_unmount(ch->session);
fuse_session_destroy(ch->session);
ch->session = NULL;
}
#else /* FUSE_USE_VERSION >= 30 */
void sqfs_ll_unmount(sqfs_ll_chan *ch, const char *mountpoint) {
if (ch->session) {
#if HAVE_DECL_FUSE_SESSION_REMOVE_CHAN
fuse_session_remove_chan(ch->ch);
#endif
fuse_session_destroy(ch->session);
}
#ifdef HAVE_NEW_FUSE_UNMOUNT
fuse_unmount(mountpoint, ch->ch);
#else
close(ch->fd);
fuse_unmount(mountpoint);
#endif
}
sqfs_err sqfs_ll_mount(
sqfs_ll_chan *ch,
const char *mountpoint,
struct fuse_args *args,
struct fuse_lowlevel_ops *ops,
size_t ops_size,
void *userdata) {
#ifdef HAVE_NEW_FUSE_UNMOUNT
ch->ch = fuse_mount(mountpoint, args);
if (!ch->ch) {
return SQFS_ERR;
}
#else
ch->fd = fuse_mount(mountpoint, args);
if (ch->fd == -1)
return SQFS_ERR;
ch->ch = fuse_kern_chan_new(ch->fd);
if (!ch->ch) {
close(ch->fd);
return SQFS_ERR;
}
#endif
ch->session = fuse_lowlevel_new(args,
ops, sizeof(*ops), userdata);
if (!ch->session) {
sqfs_ll_unmount(ch, mountpoint);
return SQFS_ERR;
}
fuse_session_add_chan(ch->session, ch->ch);
return SQFS_OK;
}
#endif /* FUSE_USE_VERSION >= 30 */
/* Idle unmount timeout management is based on signal handling from
fuse (see set_one_signal_handler and exit_handler in libfuse's
lib/fuse_signals.c.
When an idle timeout is set, we use a one second alarm to check if
no activity has taken place within the idle window, as tracked by
last_access. We also maintain an open/opendir refcount so that
directories and files can be held open and unaccessed without
triggering the idle timeout.
*/
void alarm_tick(int sig) {
if (!fuse_instance || idle_timeout_secs == 0) {
return;
}
if (get_open_refcount() == 0 &&
time(NULL) - get_access_time() > idle_timeout_secs) {
/* Safely shutting down fuse in a cross-platform way is a dark art!
But just about any platform should stop on SIGINT, so do that */
kill(getpid(), SIGINT);
return;
}
alarm(1); /* always reset our alarm */
}
void setup_idle_timeout(struct fuse_session *se, unsigned int timeout_secs) {
idle_timeout_secs = timeout_secs;
update_access_time();
struct sigaction sa;
memset(&sa, 0, sizeof(struct sigaction));
sa.sa_handler = alarm_tick;
sigemptyset(&(sa.sa_mask));
sa.sa_flags = 0;
fuse_instance = se;
if (sigaction(SIGALRM, &sa, NULL) == -1) {
perror("fuse: cannot get old signal handler");
return;
}
alarm(1);
}
void teardown_idle_timeout() {
alarm(0);
fuse_instance = NULL;
}
sqfs_ll *sqfs_ll_open_with_subdir(const char *path, size_t offset, const char *subdir) {
sqfs_ll *ll;
ll = malloc(sizeof(*ll));
if (!ll) {
perror("Can't allocate memory");
} else {
memset(ll, 0, sizeof(*ll));
ll->fs.offset = offset;
if (sqfs_open_image_with_subdir(&ll->fs, path, offset, subdir) == SQFS_OK) {
if (sqfs_ll_init(ll))
fprintf(stderr, "Can't initialize this filesystem!\n");
else
return ll;
sqfs_destroy(&ll->fs);
}
free(ll);
}
return NULL;
}
sqfs_ll *sqfs_ll_open(const char *path, size_t offset) {
return sqfs_ll_open_with_subdir(path, offset, NULL);
}