#include <hashtbl.h>
#include <mutex.h>
#include <string.h>
#include <debug.h>
#include <nullfs.h>
#include <pager.h>
// nullfs driver
static bool nullfs_fs_make(fs_handle_t *source, const char* opts, fs_t *d);
// nullfs fs_t
static void nullfs_fs_shutdown(fs_ptr fs);
// nullfs directory node
static bool nullfs_d_open(fs_node_ptr n, int mode);
static bool nullfs_d_stat(fs_node_ptr n, stat_t *st);
static bool nullfs_d_walk(fs_node_t *n, const char* file, struct fs_node *node_d);
static bool nullfs_d_delete(fs_node_ptr n, const char* file);
static bool nullfs_d_move(fs_node_ptr n, const char* old_name, fs_node_t *new_parent, const char *new_name);
static bool nullfs_d_create(fs_node_ptr n, const char* file, int type);
static void nullfs_d_dispose(fs_node_t *n);
static bool nullfs_d_readdir(fs_handle_t *f, size_t ent_no, dirent_t *d);
static void nullfs_d_close(fs_handle_t *f);
// nullfs ram file node
static bool nullfs_f_open(fs_node_ptr n, int mode);
static bool nullfs_f_stat(fs_node_ptr n, stat_t *st);
static void nullfs_f_dispose(fs_node_t *n);
static size_t nullfs_f_read(fs_handle_t *f, size_t offset, size_t len, char* buf);
static size_t nullfs_f_write(fs_handle_t *f, size_t offset, size_t len, const char* buf);
static void nullfs_f_close(fs_handle_t *f);
// VTables that go with it
static fs_driver_ops_t nullfs_driver_ops = {
.make = nullfs_fs_make,
};
static fs_ops_t nullfs_ops = {
.shutdown = nullfs_fs_shutdown,
.add_source = 0,
};
static fs_node_ops_t nullfs_d_ops = {
.open = nullfs_d_open,
.stat = nullfs_d_stat,
.walk = nullfs_d_walk,
.delete = nullfs_d_delete,
.move = nullfs_d_move,
.create = nullfs_d_create,
.dispose = nullfs_d_dispose,
.readdir = nullfs_d_readdir,
.close = nullfs_d_close,
.read = 0,
.write = 0,
.ioctl = 0,
.poll = 0,
};
static fs_node_ops_t nullfs_f_ops = {
.open = nullfs_f_open,
.stat = nullfs_f_stat,
.dispose = nullfs_f_dispose,
.walk = 0,
.create = 0,
.delete = 0,
.move = 0,
.read = fs_read_from_pager,
.write = fs_write_to_pager,
.close = nullfs_f_close,
.readdir = 0,
.ioctl =0,
.poll = 0,
};
// ====================== //
// NULLFS DATA STRUCTURES //
// ====================== //
typedef struct {
bool can_create, can_move, can_delete;
} nullfs_t;
typedef struct nullfs_item {
char* name;
fs_node_ptr data;
fs_node_ops_t *ops;
pager_t *pager;
struct nullfs_item *next;
} nullfs_item_t;
typedef struct {
nullfs_item_t *items_list;
hashtbl_t *items_idx;
mutex_t lock;
nullfs_t *fs;
fs_node_t *vfs_node;
} nullfs_dir_t;
typedef struct {
pager_t *pager;
int ok_modes;
mutex_t lock; // locked on open
fs_node_t *vfs_node;
} nullfs_file_t;
// No nullfs_file_handle_t struct, we don't need it. The handle's data
// pointer is simply a pointer to the file node.
// ===================== //
// NULLFS IMPLEMENTATION //
// ===================== //
void register_nullfs_driver() {
register_fs_driver("nullfs", &nullfs_driver_ops);
}
bool nullfs_fs_make(fs_handle_t *source, const char* opts, fs_t *fs_s) {
if (source != 0) return false;
nullfs_t *fs = (nullfs_t*)malloc(sizeof(nullfs_t));
if (fs == 0) return false;
fs->can_create = (strchr(opts, 'c') != 0);
fs->can_move = (strchr(opts, 'm') != 0);
fs->can_delete = (strchr(opts, 'd') != 0);
nullfs_dir_t *root = (nullfs_dir_t*)malloc(sizeof(nullfs_dir_t));
if (root == 0) {
free(fs);
return false;
}
root->fs = fs;
root->items_list = 0;
root->lock = MUTEX_UNLOCKED;
root->items_idx = create_hashtbl(str_key_eq_fun, str_hash_fun, 0);
if (root->items_idx == 0) {
free(root);
free(fs);
return false;
}
fs_s->ops = &nullfs_ops;
fs_s->data = fs;
fs_s->root->ops = &nullfs_d_ops;
fs_s->root->data = root;
return true;
}
void nullfs_fs_shutdown(fs_ptr fs) {
dbg_printf("Not implemented: nullfs_fs_shutdown. Memory is leaking.\n");
// TODO free all
}
bool nullfs_add_node(fs_t *fs, const char* name, fs_node_ptr data, fs_node_ops_t *ops, pager_t *pager) {
char file_name[DIR_MAX];
fs_node_t *n = fs_walk_path_except_last(fs->root, name, file_name);
if (n == 0) return false;
if (n->ops != &nullfs_d_ops) return false;
nullfs_dir_t *d = (nullfs_dir_t*)n->data;
mutex_lock(&d->lock);
nullfs_item_t *i = (nullfs_item_t*)malloc(sizeof(nullfs_item_t));
if (i == 0) goto error;
i->name = strdup(file_name);
if (i->name == 0) goto error;
i->data = data;
i->ops = ops;
i->pager = pager;
bool add_ok = hashtbl_add(d->items_idx, i->name, i);
if (!add_ok) goto error;
i->next = d->items_list;
d->items_list = i;
mutex_unlock(&d->lock);
return true;
error:
if (i && i->name) free(i->name);
if (i) free(i);
mutex_unlock(&d->lock);
return false;
}
bool nullfs_add_ram_file(fs_t *fs, const char* name, const char* data, size_t init_sz, int ok_modes) {
pager_t *p = 0;
nullfs_file_t *f = (nullfs_file_t*)malloc(sizeof(nullfs_file_t));
if (f == 0) return false;
p = new_swap_pager(init_sz, true);
if (p == 0) goto error;
f->ok_modes = ok_modes & (FM_MMAP | FM_TRUNC | FM_READ | FM_WRITE);
f->lock = MUTEX_UNLOCKED;
f->pager = p;
bool add_ok = nullfs_add_node(fs, name, f, &nullfs_f_ops, p);
if (!add_ok) goto error;
pager_write(p, 0, init_sz, data);
return true;
error:
if (p) delete_pager(p);
if (f) free(f);
return false;
}
// -- Directory node --
bool nullfs_d_open(fs_node_ptr n, int mode) {
if (mode != FM_READDIR) return false;
return true;
}
bool nullfs_d_stat(fs_node_ptr n, stat_t *st) {
nullfs_dir_t* d = (nullfs_dir_t*)n;
mutex_lock(&d->lock);
st->type = FT_DIR;
st->access = FM_READDIR
| (d->fs->can_create ? FM_DCREATE : 0)
| (d->fs->can_move ? FM_DMOVE : 0)
| (d->fs->can_delete ? FM_DDELETE : 0);
st->size = hashtbl_count(d->items_idx);
mutex_unlock(&d->lock);
return true;
}
bool nullfs_d_walk(fs_node_t *n, const char* file, struct fs_node *node_d) {
nullfs_dir_t* d = (nullfs_dir_t*)n->data;
mutex_lock(&d->lock);
nullfs_item_t* x = (nullfs_item_t*)hashtbl_find(d->items_idx, file);
if (x == 0) {
mutex_unlock(&d->lock);
return false;
}
node_d->ops = x->ops;
node_d->data = x->data;
node_d->pager = x->pager;
mutex_unlock(&d->lock);
return true;
}
bool nullfs_d_delete(fs_node_ptr n, const char* file) {
nullfs_dir_t* d = (nullfs_dir_t*)n;
mutex_lock(&d->lock);
if (!d->fs->can_delete) goto error;
nullfs_item_t *i = hashtbl_find(d->items_idx, file);
if (i == 0) goto error;
if (i->ops == &nullfs_d_ops) {
// if it is a subdirectory, check it is empty
nullfs_dir_t* sd = (nullfs_dir_t*)i->data;
if (!mutex_try_lock(&sd->lock)) goto error; // in use
if (sd->items_list != 0) goto error; // cannot delete non-empty directory
delete_hashtbl(sd->items_idx);
free(sd);
} else if (i->ops == &nullfs_f_ops) {
nullfs_file_t* f = (nullfs_file_t*)i->data;
if (!mutex_try_lock(&f->lock)) goto error; // in use
delete_pager(f->pager);
free(f);
} else {
goto error; // special nodes (devices, ...) may not be deleted
}
hashtbl_remove(d->items_idx, i->name);
if (d->items_list == i) {
d->items_list = i->next;
} else {
for (nullfs_item_t* it = d->items_list; it != 0; it++) {
if (it->next == i) {
it->next = i->next;
break;
}
}
}
free(i->name);
free(i);
mutex_unlock(&d->lock);
return true;
error:
mutex_unlock(&d->lock);
return false;
}
bool nullfs_d_move(fs_node_ptr n, const char* old_name, fs_node_t *new_parent, const char *new_name) {
dbg_printf("Not implemented: move in nullfs. Failing potentially valid move request.\n");
return false; //TODO
}
bool nullfs_d_create(fs_node_ptr n, const char* file, int type) {
nullfs_dir_t *d = (nullfs_dir_t*)n;
nullfs_item_t *i = 0;
if (type == FT_REGULAR) {
mutex_lock(&d->lock);
pager_t *p = 0;
nullfs_file_t *f = (nullfs_file_t*)malloc(sizeof(nullfs_file_t));
if (f == 0) goto f_error;
p = new_swap_pager(0, true);
if (p == 0) goto f_error;
f->ok_modes = FM_READ | FM_WRITE | FM_TRUNC | FM_APPEND;
f->pager = p;
f->lock = MUTEX_UNLOCKED;
i = (nullfs_item_t*)malloc(sizeof(nullfs_item_t));
if (i == 0) goto f_error;
i->name = strdup(file);
if (i->name == 0) goto f_error;
i->ops = &nullfs_f_ops;
i->data = f;
i->pager = p;
bool add_ok = hashtbl_add(d->items_idx, i->name, i);
if (!add_ok) goto f_error;
i->next = d->items_list;
d->items_list = i;
mutex_unlock(&d->lock);
return true;
f_error:
if (i != 0 && i->name != 0) free(i->name);
if (i != 0) free(i);
if (f != 0) free(f);
if (p != 0) delete_pager(p);
mutex_unlock(&d->lock);
return false;
} else if (type == FT_DIR) {
mutex_lock(&d->lock);
nullfs_dir_t *x = (nullfs_dir_t*)malloc(sizeof(nullfs_dir_t));
if (x == 0) goto d_error;
x->items_idx = create_hashtbl(str_key_eq_fun, str_hash_fun, 0);
if (x->items_idx == 0) goto d_error;
x->items_list = 0;
x->lock = MUTEX_UNLOCKED;
x->fs = d->fs;
i = (nullfs_item_t*)malloc(sizeof(nullfs_item_t));
if (i == 0) goto d_error;
i->name = strdup(file);
if (i->name == 0) goto d_error;
i->ops = &nullfs_d_ops;
i->data = x;
bool add_ok = hashtbl_add(d->items_idx, i->name, i);
if (!add_ok) goto d_error;
i->next = d->items_list;
d->items_list = i;
mutex_unlock(&d->lock);
return true;
d_error:
if (i != 0 && i->name != 0) free(i->name);
if (i != 0) free(i);
if (x != 0 && x->items_idx != 0) delete_hashtbl(x->items_idx);
if (x != 0) free(x);
mutex_unlock(&d->lock);
return false;
} else {
return false;
}
}
void nullfs_d_dispose(fs_node_t *n) {
// nothing to do
}
bool nullfs_d_readdir(fs_handle_t *f, size_t ent_no, dirent_t *d) {
// Very nonefficient !!
nullfs_dir_t *h = (nullfs_dir_t*)f->node->data;
mutex_lock(&h->lock);
bool ok = false;
size_t idx = 0;
for (nullfs_item_t *i = h->items_list; i != 0; i = i->next) {
if (idx == ent_no) {
ok = true;
strncpy(d->name, i->name, DIR_MAX);
d->name[DIR_MAX-1] = 0;
if (i->ops->stat) {
i->ops->stat(i->data, &d->st);
} else {
// no stat operation : should we do something else ?
memset(&d->st, 0, sizeof(stat_t));
}
break;
}
idx++;
}
mutex_unlock(&h->lock);
return ok;
}
void nullfs_d_close(fs_handle_t *f) {
// Nothing to do
}
// -- File node --
bool nullfs_f_open(fs_node_ptr n, int mode) {
nullfs_file_t *f = (nullfs_file_t*)n;
if (mode & ~f->ok_modes) return false;
if (mode & FM_TRUNC) {
// truncate file
mutex_lock(&f->lock);
pager_resize(f->pager, 0);
mutex_unlock(&f->lock);
}
return true;
}
bool nullfs_f_stat(fs_node_ptr n, stat_t *st) {
nullfs_file_t *f = (nullfs_file_t*)n;
mutex_lock(&f->lock);
st->type = FT_REGULAR;
st->access = f->ok_modes;
st->size = f->pager->size;
mutex_unlock(&f->lock);
return true;
}
void nullfs_f_dispose(fs_node_t *n) {
// nothing to do
}
// -- File handle --
static void nullfs_f_close(fs_handle_t *h) {
// nothing to do
}
/* vim: set ts=4 sw=4 tw=0 noet :*/