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sdcard.c
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sdcard.c
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/*
* Copyright (C) 2010 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_TAG "sdcard"
#include <ctype.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <limits.h>
#include <linux/fuse.h>
#include <pthread.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/inotify.h>
#include <sys/mount.h>
#include <sys/param.h>
#include <sys/resource.h>
#include <sys/stat.h>
#include <sys/statfs.h>
#include <sys/time.h>
#include <sys/uio.h>
#include <unistd.h>
#include <cutils/fs.h>
#include <cutils/hashmap.h>
#include <cutils/log.h>
#include <cutils/multiuser.h>
#include <private/android_filesystem_config.h>
/* README
*
* What is this?
*
* sdcard is a program that uses FUSE to emulate FAT-on-sdcard style
* directory permissions (all files are given fixed owner, group, and
* permissions at creation, owner, group, and permissions are not
* changeable, symlinks and hardlinks are not createable, etc.
*
* See usage() for command line options.
*
* It must be run as root, but will drop to requested UID/GID as soon as it
* mounts a filesystem. It will refuse to run if requested UID/GID are zero.
*
* Things I believe to be true:
*
* - ops that return a fuse_entry (LOOKUP, MKNOD, MKDIR, LINK, SYMLINK,
* CREAT) must bump that node's refcount
* - don't forget that FORGET can forget multiple references (req->nlookup)
* - if an op that returns a fuse_entry fails writing the reply to the
* kernel, you must rollback the refcount to reflect the reference the
* kernel did not actually acquire
*
* This daemon can also derive custom filesystem permissions based on directory
* structure when requested. These custom permissions support several features:
*
* - Apps can access their own files in /Android/data/com.example/ without
* requiring any additional GIDs.
* - Separate permissions for protecting directories like Pictures and Music.
* - Multi-user separation on the same physical device.
*/
#define FUSE_TRACE 0
#if FUSE_TRACE
#define TRACE(x...) ALOGD(x)
#else
#define TRACE(x...) do {} while (0)
#endif
#define ERROR(x...) ALOGE(x)
#define FUSE_UNKNOWN_INO 0xffffffff
/* Maximum number of bytes to write in one request. */
#define MAX_WRITE (256 * 1024)
/* Maximum number of bytes to read in one request. */
#define MAX_READ (128 * 1024)
/* Largest possible request.
* The request size is bounded by the maximum size of a FUSE_WRITE request because it has
* the largest possible data payload. */
#define MAX_REQUEST_SIZE (sizeof(struct fuse_in_header) + sizeof(struct fuse_write_in) + MAX_WRITE)
/* Pseudo-error constant used to indicate that no fuse status is needed
* or that a reply has already been written. */
#define NO_STATUS 1
/* Path to system-provided mapping of package name to appIds */
static const char* const kPackagesListFile = "/data/system/packages.list";
/* Supplementary groups to execute with */
static const gid_t kGroups[1] = { AID_PACKAGE_INFO };
/* Permission mode for a specific node. Controls how file permissions
* are derived for children nodes. */
typedef enum {
/* Nothing special; this node should just inherit from its parent. */
PERM_INHERIT,
/* This node is one level above a normal root; used for legacy layouts
* which use the first level to represent user_id. */
PERM_PRE_ROOT,
/* This node is "/" */
PERM_ROOT,
/* This node is "/Android" */
PERM_ANDROID,
/* This node is "/Android/data" */
PERM_ANDROID_DATA,
/* This node is "/Android/obb" */
PERM_ANDROID_OBB,
/* This node is "/Android/media" */
PERM_ANDROID_MEDIA,
} perm_t;
struct handle {
int fd;
};
struct dirhandle {
DIR *d;
};
struct node {
__u32 refcount;
__u64 nid;
__u64 gen;
/*
* The inode number for this FUSE node. Note that this isn't stable across
* multiple invocations of the FUSE daemon.
*/
__u32 ino;
/* State derived based on current position in hierarchy. */
perm_t perm;
userid_t userid;
uid_t uid;
bool under_android;
struct node *next; /* per-dir sibling list */
struct node *child; /* first contained file by this dir */
struct node *parent; /* containing directory */
size_t namelen;
char *name;
/* If non-null, this is the real name of the file in the underlying storage.
* This may differ from the field "name" only by case.
* strlen(actual_name) will always equal strlen(name), so it is safe to use
* namelen for both fields.
*/
char *actual_name;
/* If non-null, an exact underlying path that should be grafted into this
* position. Used to support things like OBB. */
char* graft_path;
size_t graft_pathlen;
bool deleted;
};
static int str_hash(void *key) {
return hashmapHash(key, strlen(key));
}
/** Test if two string keys are equal ignoring case */
static bool str_icase_equals(void *keyA, void *keyB) {
return strcasecmp(keyA, keyB) == 0;
}
/* Global data for all FUSE mounts */
struct fuse_global {
pthread_mutex_t lock;
uid_t uid;
gid_t gid;
bool multi_user;
char source_path[PATH_MAX];
char obb_path[PATH_MAX];
Hashmap* package_to_appid;
__u64 next_generation;
struct node root;
/* Used to allocate unique inode numbers for fuse nodes. We use
* a simple counter based scheme where inode numbers from deleted
* nodes aren't reused. Note that inode allocations are not stable
* across multiple invocation of the sdcard daemon, but that shouldn't
* be a huge problem in practice.
*
* Note that we restrict inodes to 32 bit unsigned integers to prevent
* truncation on 32 bit processes when unsigned long long stat.st_ino is
* assigned to an unsigned long ino_t type in an LP32 process.
*
* Also note that fuse_attr and fuse_dirent inode values are 64 bits wide
* on both LP32 and LP64, but the fuse kernel code doesn't squash 64 bit
* inode numbers into 32 bit values on 64 bit kernels (see fuse_squash_ino
* in fs/fuse/inode.c).
*
* Accesses must be guarded by |lock|.
*/
__u32 inode_ctr;
struct fuse* fuse_default;
struct fuse* fuse_read;
struct fuse* fuse_write;
};
/* Single FUSE mount */
struct fuse {
struct fuse_global* global;
char dest_path[PATH_MAX];
int fd;
gid_t gid;
mode_t mask;
};
/* Private data used by a single FUSE handler */
struct fuse_handler {
struct fuse* fuse;
int token;
/* To save memory, we never use the contents of the request buffer and the read
* buffer at the same time. This allows us to share the underlying storage. */
union {
__u8 request_buffer[MAX_REQUEST_SIZE];
__u8 read_buffer[MAX_READ + PAGE_SIZE];
};
};
static inline void *id_to_ptr(__u64 nid)
{
return (void *) (uintptr_t) nid;
}
static inline __u64 ptr_to_id(void *ptr)
{
return (__u64) (uintptr_t) ptr;
}
static void acquire_node_locked(struct node* node)
{
node->refcount++;
TRACE("ACQUIRE %p (%s) rc=%d\n", node, node->name, node->refcount);
}
static void remove_node_from_parent_locked(struct node* node);
static void release_node_locked(struct node* node)
{
TRACE("RELEASE %p (%s) rc=%d\n", node, node->name, node->refcount);
if (node->refcount > 0) {
node->refcount--;
if (!node->refcount) {
TRACE("DESTROY %p (%s)\n", node, node->name);
remove_node_from_parent_locked(node);
/* TODO: remove debugging - poison memory */
memset(node->name, 0xef, node->namelen);
free(node->name);
free(node->actual_name);
memset(node, 0xfc, sizeof(*node));
free(node);
}
} else {
ERROR("Zero refcnt %p\n", node);
}
}
static void add_node_to_parent_locked(struct node *node, struct node *parent) {
node->parent = parent;
node->next = parent->child;
parent->child = node;
acquire_node_locked(parent);
}
static void remove_node_from_parent_locked(struct node* node)
{
if (node->parent) {
if (node->parent->child == node) {
node->parent->child = node->parent->child->next;
} else {
struct node *node2;
node2 = node->parent->child;
while (node2->next != node)
node2 = node2->next;
node2->next = node->next;
}
release_node_locked(node->parent);
node->parent = NULL;
node->next = NULL;
}
}
/* Gets the absolute path to a node into the provided buffer.
*
* Populates 'buf' with the path and returns the length of the path on success,
* or returns -1 if the path is too long for the provided buffer.
*/
static ssize_t get_node_path_locked(struct node* node, char* buf, size_t bufsize) {
const char* name;
size_t namelen;
if (node->graft_path) {
name = node->graft_path;
namelen = node->graft_pathlen;
} else if (node->actual_name) {
name = node->actual_name;
namelen = node->namelen;
} else {
name = node->name;
namelen = node->namelen;
}
if (bufsize < namelen + 1) {
return -1;
}
ssize_t pathlen = 0;
if (node->parent && node->graft_path == NULL) {
pathlen = get_node_path_locked(node->parent, buf, bufsize - namelen - 2);
if (pathlen < 0) {
return -1;
}
buf[pathlen++] = '/';
}
memcpy(buf + pathlen, name, namelen + 1); /* include trailing \0 */
return pathlen + namelen;
}
/* Finds the absolute path of a file within a given directory.
* Performs a case-insensitive search for the file and sets the buffer to the path
* of the first matching file. If 'search' is zero or if no match is found, sets
* the buffer to the path that the file would have, assuming the name were case-sensitive.
*
* Populates 'buf' with the path and returns the actual name (within 'buf') on success,
* or returns NULL if the path is too long for the provided buffer.
*/
static char* find_file_within(const char* path, const char* name,
char* buf, size_t bufsize, int search)
{
size_t pathlen = strlen(path);
size_t namelen = strlen(name);
size_t childlen = pathlen + namelen + 1;
char* actual;
if (bufsize <= childlen) {
return NULL;
}
memcpy(buf, path, pathlen);
buf[pathlen] = '/';
actual = buf + pathlen + 1;
memcpy(actual, name, namelen + 1);
if (search && access(buf, F_OK)) {
struct dirent* entry;
DIR* dir = opendir(path);
if (!dir) {
ERROR("opendir %s failed: %s\n", path, strerror(errno));
return actual;
}
while ((entry = readdir(dir))) {
if (!strcasecmp(entry->d_name, name)) {
/* we have a match - replace the name, don't need to copy the null again */
memcpy(actual, entry->d_name, namelen);
break;
}
}
closedir(dir);
}
return actual;
}
static void attr_from_stat(struct fuse* fuse, struct fuse_attr *attr,
const struct stat *s, const struct node* node) {
attr->ino = node->ino;
attr->size = s->st_size;
attr->blocks = s->st_blocks;
attr->atime = s->st_atim.tv_sec;
attr->mtime = s->st_mtim.tv_sec;
attr->ctime = s->st_ctim.tv_sec;
attr->atimensec = s->st_atim.tv_nsec;
attr->mtimensec = s->st_mtim.tv_nsec;
attr->ctimensec = s->st_ctim.tv_nsec;
attr->mode = s->st_mode;
attr->nlink = s->st_nlink;
attr->uid = node->uid;
if (fuse->gid == AID_SDCARD_RW) {
/* As an optimization, certain trusted system components only run
* as owner but operate across all users. Since we're now handing
* out the sdcard_rw GID only to trusted apps, we're okay relaxing
* the user boundary enforcement for the default view. The UIDs
* assigned to app directories are still multiuser aware. */
attr->gid = AID_SDCARD_RW;
} else {
attr->gid = multiuser_get_uid(node->userid, fuse->gid);
}
int visible_mode = 0775 & ~fuse->mask;
if (node->perm == PERM_PRE_ROOT) {
/* Top of multi-user view should always be visible to ensure
* secondary users can traverse inside. */
visible_mode = 0711;
} else if (node->under_android) {
/* Block "other" access to Android directories, since only apps
* belonging to a specific user should be in there; we still
* leave +x open for the default view. */
if (fuse->gid == AID_SDCARD_RW) {
visible_mode = visible_mode & ~0006;
} else {
visible_mode = visible_mode & ~0007;
}
}
int owner_mode = s->st_mode & 0700;
int filtered_mode = visible_mode & (owner_mode | (owner_mode >> 3) | (owner_mode >> 6));
attr->mode = (attr->mode & S_IFMT) | filtered_mode;
}
static int touch(char* path, mode_t mode) {
int fd = open(path, O_RDWR | O_CREAT | O_EXCL | O_NOFOLLOW, mode);
if (fd == -1) {
if (errno == EEXIST) {
return 0;
} else {
ERROR("Failed to open(%s): %s\n", path, strerror(errno));
return -1;
}
}
close(fd);
return 0;
}
static void derive_permissions_locked(struct fuse* fuse, struct node *parent,
struct node *node) {
appid_t appid;
/* By default, each node inherits from its parent */
node->perm = PERM_INHERIT;
node->userid = parent->userid;
node->uid = parent->uid;
node->under_android = parent->under_android;
/* Derive custom permissions based on parent and current node */
switch (parent->perm) {
case PERM_INHERIT:
/* Already inherited above */
break;
case PERM_PRE_ROOT:
/* Legacy internal layout places users at top level */
node->perm = PERM_ROOT;
node->userid = strtoul(node->name, NULL, 10);
break;
case PERM_ROOT:
/* Assume masked off by default. */
if (!strcasecmp(node->name, "Android")) {
/* App-specific directories inside; let anyone traverse */
node->perm = PERM_ANDROID;
node->under_android = true;
}
break;
case PERM_ANDROID:
if (!strcasecmp(node->name, "data")) {
/* App-specific directories inside; let anyone traverse */
node->perm = PERM_ANDROID_DATA;
} else if (!strcasecmp(node->name, "obb")) {
/* App-specific directories inside; let anyone traverse */
node->perm = PERM_ANDROID_OBB;
/* Single OBB directory is always shared */
node->graft_path = fuse->global->obb_path;
node->graft_pathlen = strlen(fuse->global->obb_path);
} else if (!strcasecmp(node->name, "media")) {
/* App-specific directories inside; let anyone traverse */
node->perm = PERM_ANDROID_MEDIA;
}
break;
case PERM_ANDROID_DATA:
case PERM_ANDROID_OBB:
case PERM_ANDROID_MEDIA:
appid = (appid_t) (uintptr_t) hashmapGet(fuse->global->package_to_appid, node->name);
if (appid != 0) {
node->uid = multiuser_get_uid(parent->userid, appid);
}
break;
}
}
/* Kernel has already enforced everything we returned through
* derive_permissions_locked(), so this is used to lock down access
* even further, such as enforcing that apps hold sdcard_rw. */
static bool check_caller_access_to_name(struct fuse* fuse,
const struct fuse_in_header *hdr, const struct node* parent_node,
const char* name, int mode) {
/* Always block security-sensitive files at root */
if (parent_node && parent_node->perm == PERM_ROOT) {
if (!strcasecmp(name, "autorun.inf")
|| !strcasecmp(name, ".android_secure")
|| !strcasecmp(name, "android_secure")) {
return false;
}
}
/* Root always has access; access for any other UIDs should always
* be controlled through packages.list. */
if (hdr->uid == 0) {
return true;
}
/* No extra permissions to enforce */
return true;
}
static bool check_caller_access_to_node(struct fuse* fuse,
const struct fuse_in_header *hdr, const struct node* node, int mode) {
return check_caller_access_to_name(fuse, hdr, node->parent, node->name, mode);
}
struct node *create_node_locked(struct fuse* fuse,
struct node *parent, const char *name, const char* actual_name)
{
struct node *node;
size_t namelen = strlen(name);
// Detect overflows in the inode counter. "4 billion nodes should be enough
// for everybody".
if (fuse->global->inode_ctr == 0) {
ERROR("No more inode numbers available");
return NULL;
}
node = calloc(1, sizeof(struct node));
if (!node) {
return NULL;
}
node->name = malloc(namelen + 1);
if (!node->name) {
free(node);
return NULL;
}
memcpy(node->name, name, namelen + 1);
if (strcmp(name, actual_name)) {
node->actual_name = malloc(namelen + 1);
if (!node->actual_name) {
free(node->name);
free(node);
return NULL;
}
memcpy(node->actual_name, actual_name, namelen + 1);
}
node->namelen = namelen;
node->nid = ptr_to_id(node);
node->ino = fuse->global->inode_ctr++;
node->gen = fuse->global->next_generation++;
node->deleted = false;
derive_permissions_locked(fuse, parent, node);
acquire_node_locked(node);
add_node_to_parent_locked(node, parent);
return node;
}
static int rename_node_locked(struct node *node, const char *name,
const char* actual_name)
{
size_t namelen = strlen(name);
int need_actual_name = strcmp(name, actual_name);
/* make the storage bigger without actually changing the name
* in case an error occurs part way */
if (namelen > node->namelen) {
char* new_name = realloc(node->name, namelen + 1);
if (!new_name) {
return -ENOMEM;
}
node->name = new_name;
if (need_actual_name && node->actual_name) {
char* new_actual_name = realloc(node->actual_name, namelen + 1);
if (!new_actual_name) {
return -ENOMEM;
}
node->actual_name = new_actual_name;
}
}
/* update the name, taking care to allocate storage before overwriting the old name */
if (need_actual_name) {
if (!node->actual_name) {
node->actual_name = malloc(namelen + 1);
if (!node->actual_name) {
return -ENOMEM;
}
}
memcpy(node->actual_name, actual_name, namelen + 1);
} else {
free(node->actual_name);
node->actual_name = NULL;
}
memcpy(node->name, name, namelen + 1);
node->namelen = namelen;
return 0;
}
static struct node *lookup_node_by_id_locked(struct fuse *fuse, __u64 nid)
{
if (nid == FUSE_ROOT_ID) {
return &fuse->global->root;
} else {
return id_to_ptr(nid);
}
}
static struct node* lookup_node_and_path_by_id_locked(struct fuse* fuse, __u64 nid,
char* buf, size_t bufsize)
{
struct node* node = lookup_node_by_id_locked(fuse, nid);
if (node && get_node_path_locked(node, buf, bufsize) < 0) {
node = NULL;
}
return node;
}
static struct node *lookup_child_by_name_locked(struct node *node, const char *name)
{
for (node = node->child; node; node = node->next) {
/* use exact string comparison, nodes that differ by case
* must be considered distinct even if they refer to the same
* underlying file as otherwise operations such as "mv x x"
* will not work because the source and target nodes are the same. */
if (!strcmp(name, node->name) && !node->deleted) {
return node;
}
}
return 0;
}
static struct node* acquire_or_create_child_locked(
struct fuse* fuse, struct node* parent,
const char* name, const char* actual_name)
{
struct node* child = lookup_child_by_name_locked(parent, name);
if (child) {
acquire_node_locked(child);
} else {
child = create_node_locked(fuse, parent, name, actual_name);
}
return child;
}
static void fuse_status(struct fuse *fuse, __u64 unique, int err)
{
struct fuse_out_header hdr;
hdr.len = sizeof(hdr);
hdr.error = err;
hdr.unique = unique;
write(fuse->fd, &hdr, sizeof(hdr));
}
static void fuse_reply(struct fuse *fuse, __u64 unique, void *data, int len)
{
struct fuse_out_header hdr;
struct iovec vec[2];
int res;
hdr.len = len + sizeof(hdr);
hdr.error = 0;
hdr.unique = unique;
vec[0].iov_base = &hdr;
vec[0].iov_len = sizeof(hdr);
vec[1].iov_base = data;
vec[1].iov_len = len;
res = writev(fuse->fd, vec, 2);
if (res < 0) {
ERROR("*** REPLY FAILED *** %d\n", errno);
}
}
static int fuse_reply_entry(struct fuse* fuse, __u64 unique,
struct node* parent, const char* name, const char* actual_name,
const char* path)
{
struct node* node;
struct fuse_entry_out out;
struct stat s;
if (lstat(path, &s) < 0) {
return -errno;
}
pthread_mutex_lock(&fuse->global->lock);
node = acquire_or_create_child_locked(fuse, parent, name, actual_name);
if (!node) {
pthread_mutex_unlock(&fuse->global->lock);
return -ENOMEM;
}
memset(&out, 0, sizeof(out));
attr_from_stat(fuse, &out.attr, &s, node);
out.attr_valid = 10;
out.entry_valid = 10;
out.nodeid = node->nid;
out.generation = node->gen;
pthread_mutex_unlock(&fuse->global->lock);
fuse_reply(fuse, unique, &out, sizeof(out));
return NO_STATUS;
}
static int fuse_reply_attr(struct fuse* fuse, __u64 unique, const struct node* node,
const char* path)
{
struct fuse_attr_out out;
struct stat s;
if (lstat(path, &s) < 0) {
return -errno;
}
memset(&out, 0, sizeof(out));
attr_from_stat(fuse, &out.attr, &s, node);
out.attr_valid = 10;
fuse_reply(fuse, unique, &out, sizeof(out));
return NO_STATUS;
}
static void fuse_notify_delete(struct fuse* fuse, const __u64 parent,
const __u64 child, const char* name) {
struct fuse_out_header hdr;
struct fuse_notify_delete_out data;
struct iovec vec[3];
size_t namelen = strlen(name);
int res;
hdr.len = sizeof(hdr) + sizeof(data) + namelen + 1;
hdr.error = FUSE_NOTIFY_DELETE;
hdr.unique = 0;
data.parent = parent;
data.child = child;
data.namelen = namelen;
data.padding = 0;
vec[0].iov_base = &hdr;
vec[0].iov_len = sizeof(hdr);
vec[1].iov_base = &data;
vec[1].iov_len = sizeof(data);
vec[2].iov_base = (void*) name;
vec[2].iov_len = namelen + 1;
res = writev(fuse->fd, vec, 3);
/* Ignore ENOENT, since other views may not have seen the entry */
if (res < 0 && errno != ENOENT) {
ERROR("*** NOTIFY FAILED *** %d\n", errno);
}
}
static int handle_lookup(struct fuse* fuse, struct fuse_handler* handler,
const struct fuse_in_header *hdr, const char* name)
{
struct node* parent_node;
char parent_path[PATH_MAX];
char child_path[PATH_MAX];
const char* actual_name;
pthread_mutex_lock(&fuse->global->lock);
parent_node = lookup_node_and_path_by_id_locked(fuse, hdr->nodeid,
parent_path, sizeof(parent_path));
TRACE("[%d] LOOKUP %s @ %"PRIx64" (%s)\n", handler->token, name, hdr->nodeid,
parent_node ? parent_node->name : "?");
pthread_mutex_unlock(&fuse->global->lock);
if (!parent_node || !(actual_name = find_file_within(parent_path, name,
child_path, sizeof(child_path), 1))) {
return -ENOENT;
}
if (!check_caller_access_to_name(fuse, hdr, parent_node, name, R_OK)) {
return -EACCES;
}
return fuse_reply_entry(fuse, hdr->unique, parent_node, name, actual_name, child_path);
}
static int handle_forget(struct fuse* fuse, struct fuse_handler* handler,
const struct fuse_in_header *hdr, const struct fuse_forget_in *req)
{
struct node* node;
pthread_mutex_lock(&fuse->global->lock);
node = lookup_node_by_id_locked(fuse, hdr->nodeid);
TRACE("[%d] FORGET #%"PRIu64" @ %"PRIx64" (%s)\n", handler->token, req->nlookup,
hdr->nodeid, node ? node->name : "?");
if (node) {
__u64 n = req->nlookup;
while (n--) {
release_node_locked(node);
}
}
pthread_mutex_unlock(&fuse->global->lock);
return NO_STATUS; /* no reply */
}
static int handle_getattr(struct fuse* fuse, struct fuse_handler* handler,
const struct fuse_in_header *hdr, const struct fuse_getattr_in *req)
{
struct node* node;
char path[PATH_MAX];
pthread_mutex_lock(&fuse->global->lock);
node = lookup_node_and_path_by_id_locked(fuse, hdr->nodeid, path, sizeof(path));
TRACE("[%d] GETATTR flags=%x fh=%"PRIx64" @ %"PRIx64" (%s)\n", handler->token,
req->getattr_flags, req->fh, hdr->nodeid, node ? node->name : "?");
pthread_mutex_unlock(&fuse->global->lock);
if (!node) {
return -ENOENT;
}
if (!check_caller_access_to_node(fuse, hdr, node, R_OK)) {
return -EACCES;
}
return fuse_reply_attr(fuse, hdr->unique, node, path);
}
static int handle_setattr(struct fuse* fuse, struct fuse_handler* handler,
const struct fuse_in_header *hdr, const struct fuse_setattr_in *req)
{
struct node* node;
char path[PATH_MAX];
struct timespec times[2];
pthread_mutex_lock(&fuse->global->lock);
node = lookup_node_and_path_by_id_locked(fuse, hdr->nodeid, path, sizeof(path));
TRACE("[%d] SETATTR fh=%"PRIx64" valid=%x @ %"PRIx64" (%s)\n", handler->token,
req->fh, req->valid, hdr->nodeid, node ? node->name : "?");
pthread_mutex_unlock(&fuse->global->lock);
if (!node) {
return -ENOENT;
}
if (!(req->valid & FATTR_FH) &&
!check_caller_access_to_node(fuse, hdr, node, W_OK)) {
return -EACCES;
}
/* XXX: incomplete implementation on purpose.
* chmod/chown should NEVER be implemented.*/
if ((req->valid & FATTR_SIZE) && truncate64(path, req->size) < 0) {
return -errno;
}
/* Handle changing atime and mtime. If FATTR_ATIME_and FATTR_ATIME_NOW
* are both set, then set it to the current time. Else, set it to the
* time specified in the request. Same goes for mtime. Use utimensat(2)
* as it allows ATIME and MTIME to be changed independently, and has
* nanosecond resolution which fuse also has.
*/
if (req->valid & (FATTR_ATIME | FATTR_MTIME)) {
times[0].tv_nsec = UTIME_OMIT;
times[1].tv_nsec = UTIME_OMIT;
if (req->valid & FATTR_ATIME) {
if (req->valid & FATTR_ATIME_NOW) {
times[0].tv_nsec = UTIME_NOW;
} else {
times[0].tv_sec = req->atime;
times[0].tv_nsec = req->atimensec;
}
}
if (req->valid & FATTR_MTIME) {
if (req->valid & FATTR_MTIME_NOW) {
times[1].tv_nsec = UTIME_NOW;
} else {
times[1].tv_sec = req->mtime;
times[1].tv_nsec = req->mtimensec;
}
}
TRACE("[%d] Calling utimensat on %s with atime %ld, mtime=%ld\n",
handler->token, path, times[0].tv_sec, times[1].tv_sec);
if (utimensat(-1, path, times, 0) < 0) {
return -errno;
}
}
return fuse_reply_attr(fuse, hdr->unique, node, path);
}
static int handle_mknod(struct fuse* fuse, struct fuse_handler* handler,
const struct fuse_in_header* hdr, const struct fuse_mknod_in* req, const char* name)
{
struct node* parent_node;
char parent_path[PATH_MAX];
char child_path[PATH_MAX];
const char* actual_name;
pthread_mutex_lock(&fuse->global->lock);
parent_node = lookup_node_and_path_by_id_locked(fuse, hdr->nodeid,
parent_path, sizeof(parent_path));
TRACE("[%d] MKNOD %s 0%o @ %"PRIx64" (%s)\n", handler->token,
name, req->mode, hdr->nodeid, parent_node ? parent_node->name : "?");
pthread_mutex_unlock(&fuse->global->lock);
if (!parent_node || !(actual_name = find_file_within(parent_path, name,
child_path, sizeof(child_path), 1))) {
return -ENOENT;
}
if (!check_caller_access_to_name(fuse, hdr, parent_node, name, W_OK)) {
return -EACCES;
}
__u32 mode = (req->mode & (~0777)) | 0664;
if (mknod(child_path, mode, req->rdev) < 0) {
return -errno;
}
return fuse_reply_entry(fuse, hdr->unique, parent_node, name, actual_name, child_path);
}
static int handle_mkdir(struct fuse* fuse, struct fuse_handler* handler,
const struct fuse_in_header* hdr, const struct fuse_mkdir_in* req, const char* name)
{
struct node* parent_node;
char parent_path[PATH_MAX];
char child_path[PATH_MAX];
const char* actual_name;
pthread_mutex_lock(&fuse->global->lock);
parent_node = lookup_node_and_path_by_id_locked(fuse, hdr->nodeid,
parent_path, sizeof(parent_path));
TRACE("[%d] MKDIR %s 0%o @ %"PRIx64" (%s)\n", handler->token,
name, req->mode, hdr->nodeid, parent_node ? parent_node->name : "?");
pthread_mutex_unlock(&fuse->global->lock);
if (!parent_node || !(actual_name = find_file_within(parent_path, name,
child_path, sizeof(child_path), 1))) {
return -ENOENT;
}
if (!check_caller_access_to_name(fuse, hdr, parent_node, name, W_OK)) {
return -EACCES;
}
__u32 mode = (req->mode & (~0777)) | 0775;
if (mkdir(child_path, mode) < 0) {
return -errno;
}
/* When creating /Android/data and /Android/obb, mark them as .nomedia */
if (parent_node->perm == PERM_ANDROID && !strcasecmp(name, "data")) {
char nomedia[PATH_MAX];
snprintf(nomedia, PATH_MAX, "%s/.nomedia", child_path);
if (touch(nomedia, 0664) != 0) {
ERROR("Failed to touch(%s): %s\n", nomedia, strerror(errno));
return -ENOENT;
}
}
if (parent_node->perm == PERM_ANDROID && !strcasecmp(name, "obb")) {
char nomedia[PATH_MAX];
snprintf(nomedia, PATH_MAX, "%s/.nomedia", fuse->global->obb_path);
if (touch(nomedia, 0664) != 0) {
ERROR("Failed to touch(%s): %s\n", nomedia, strerror(errno));
return -ENOENT;
}
}
return fuse_reply_entry(fuse, hdr->unique, parent_node, name, actual_name, child_path);
}
static int handle_unlink(struct fuse* fuse, struct fuse_handler* handler,
const struct fuse_in_header* hdr, const char* name)
{
struct node* parent_node;
struct node* child_node;
char parent_path[PATH_MAX];
char child_path[PATH_MAX];
pthread_mutex_lock(&fuse->global->lock);
parent_node = lookup_node_and_path_by_id_locked(fuse, hdr->nodeid,
parent_path, sizeof(parent_path));
TRACE("[%d] UNLINK %s @ %"PRIx64" (%s)\n", handler->token,
name, hdr->nodeid, parent_node ? parent_node->name : "?");
pthread_mutex_unlock(&fuse->global->lock);
if (!parent_node || !find_file_within(parent_path, name,