path: root/src/kernel/user/nullfs.c

#include <hashtbl.h>
#include <string.h>

#include <nullfs.h>

static bool nullfs_i_make(fs_handle_t *source, char* opts, fs_t *d);

static bool nullfs_i_open(void* fs, const char* file, int mode, fs_handle_t *s);
static bool nullfs_i_delete(void* fs, const char* file);
static void nullfs_i_shutdown(void* fs);

static size_t nullfs_i_read(void* f, size_t offset, size_t len, char* buf);
static size_t nullfs_i_write(void* f, size_t offset, size_t len, const char* buf);
static void nullfs_i_close(void* f);

static fs_driver_ops_t nullfs_driver_ops = {
	.make = nullfs_i_make,
	.detect = 0,
};

static fs_ops_t nullfs_ops = {
	.open = nullfs_i_open,
	.delete = nullfs_i_delete,
	.rename = 0,
	.stat = 0,
	.ioctl = 0,
	.add_source = 0,
	.shutdown = nullfs_i_shutdown
};

static fs_handle_ops_t nullfs_h_ops = {
	.read = nullfs_i_read,
	.write = nullfs_i_write,
	.close = nullfs_i_close
};

// Internal nullfs structures

typedef struct {
	void* data;
	nullfs_node_ops_t *ops;
} nullfs_item_t;

typedef struct {
	nullfs_item_t *item;
	void* data;
} nullfs_handle_t;

typedef struct nullfs {
	hashtbl_t *items;
	bool can_delete;
	bool can_create;
} nullfs_t;

// Nullfs management

void register_nullfs_driver() {
	register_fs_driver("nullfs", &nullfs_driver_ops);
}

nullfs_t *as_nullfs(fs_t *it) {
	if (it->ops != &nullfs_ops) return 0;
	return (nullfs_t*)it->data;
}

bool nullfs_i_make(fs_handle_t *source, char* opts, fs_t *d) {
	nullfs_t *fs = (nullfs_t*)malloc(sizeof(nullfs_t));
	if (fs == 0) return false;

	fs->items = create_hashtbl(str_key_eq_fun, str_hash_fun, free, 0);
	if (fs->items == 0) {
		free(fs);
		return false;
	}

	fs->can_delete = (strchr(opts, 'd') != 0);
	fs->can_create = (strchr(opts, 'c') != 0);

	d->data = fs;
	d->ops = &nullfs_ops;

	return true;
}

bool nullfs_add(nullfs_t *f, const char* name, void* data, nullfs_node_ops_t *ops) {
	nullfs_item_t *i = (nullfs_item_t*)malloc(sizeof(nullfs_item_t));
	if (i == 0) return false;

	char* n = strdup(name);
	if (n == 0) {
		free(i);
		return false;
	}

	i->data = data;
	i->ops = ops;
	if (!hashtbl_add(f->items, n, i)) {
		free(n);
		free(i);
		return false;
	}

	return true;
}

static void nullfs_i_free_item(void* x) {
	nullfs_item_t *i = (nullfs_item_t*)x;
	if (i->ops->dispose) i->ops->dispose(i->data);
	free(i);
}

void nullfs_i_shutdown(void* fs) {
	nullfs_t *f = (nullfs_t*)fs;

	delete_hashtbl(f->items, nullfs_i_free_item);
	free(f);
}

bool nullfs_add_ram_file(nullfs_t *f, const char* name, void* data, size_t init_sz, bool copy, int ok_modes) {
	// TODO
	return false;
}

// Nullfs operations

bool nullfs_i_open(void* fs, const char* file, int mode, fs_handle_t *s) {
	nullfs_t *f = (nullfs_t*)fs;

	nullfs_item_t *x = (nullfs_item_t*)(hashtbl_find(f->items, file));
	if (x == 0) return false;
	// TODO : if null and can_create, then create.

	nullfs_handle_t *h = (nullfs_handle_t*)malloc(sizeof(nullfs_handle_t));
	if (h == 0) return false;

	h->item = x;
	h->data = x->ops->open(x->data, mode, s);
	if (h->data == 0) {
		free(h);
		return false;
	}

	s->data = h;
	s->ops = &nullfs_h_ops;
	return true;
}

bool nullfs_i_delete(void* fs, const char* file) {
	nullfs_t *f = (nullfs_t*)fs;

	if (!f->can_delete) return false;
	// TODO
	return false;
}

size_t nullfs_i_read(void* f, size_t offset, size_t len, char* buf) {
	nullfs_handle_t *h = (nullfs_handle_t*)f;
	if (!h->item->ops->read) return 0;
	return h->item->ops->read(h->data, offset, len, buf);
}

size_t nullfs_i_write(void* f, size_t offset, size_t len, const char* buf) {
	nullfs_handle_t *h = (nullfs_handle_t*)f;
	if (!h->item->ops->write) return 0;
	return h->item->ops->write(h->data, offset, len, buf);
}

void nullfs_i_close(void* f) {
	nullfs_handle_t *h = (nullfs_handle_t*)f;
	if (h->item->ops->close) h->item->ops->close(h->data);
	free(h);
}

/* vim: set ts=4 sw=4 tw=0 noet :*/