/* * Copyright (c) 2006-2020, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2020/08/21 ShaoJinchun first version */ #include #include #include #include #include #include #include "dfs_cromfs.h" #include #include "zlib.h" /**********************************/ #define CROMFS_PATITION_HEAD_SIZE 256 #define CROMFS_DIRENT_CACHE_SIZE 8 #define CROMFS_MAGIC "CROMFSMG" #define CROMFS_CT_ASSERT(name, x) \ struct assert_##name {char ary[2 * (x) - 1];} #define CROMFS_POS_ROOT (0x0UL) #define CROMFS_POS_ERROR (0x1UL) typedef struct { uint8_t magic[8]; /* CROMFS_MAGIC */ uint32_t version; uint32_t partition_attr; /* expand, now reserved 0 */ uint32_t partition_size; /* with partition head */ uint32_t root_dir_pos; /* root dir pos */ uint32_t root_dir_size; } partition_head_data; typedef struct { partition_head_data head; uint8_t padding[CROMFS_PATITION_HEAD_SIZE - sizeof(partition_head_data)]; } partition_head; #define CROMFS_DIRENT_ATTR_DIR 0x1UL #define CROMFS_DIRENT_ATTR_FILE 0x0UL typedef struct { uint16_t attr; /* dir or file add other */ uint16_t name_size; /* name real size */ uint32_t file_size; /* file data size */ uint32_t file_origin_size; /* file size before compress */ uint32_t parition_pos; /* offset of data */ uint8_t name[0]; /* name data */ } cromfs_dirent; #define CROMFS_ALIGN_SIZE_BIT 4 #define CROMFS_ALIGN_SIZE (1UL << CROMFS_ALIGN_SIZE_BIT) /* must be same as sizeof cromfs_dirent */ #define CROMFS_ALIGN_SIZE_MASK (CROMFS_ALIGN_SIZE - 1) CROMFS_CT_ASSERT(align_size, CROMFS_ALIGN_SIZE == sizeof(cromfs_dirent)); typedef union { cromfs_dirent dirent; uint8_t name[CROMFS_ALIGN_SIZE]; } cromfs_dirent_item; /**********************************/ typedef struct { rt_list_t list; uint32_t partition_pos; uint32_t size; uint8_t *buff; } cromfs_dirent_cache; typedef struct st_cromfs_info { rt_device_t device; uint32_t partition_size; uint32_t bytes_per_sector; uint32_t (*read_bytes)(struct st_cromfs_info *ci, uint32_t pos, void *buf, uint32_t size); partition_head_data part_info; struct rt_mutex lock; struct cromfs_avl_struct *cromfs_avl_root; rt_list_t cromfs_dirent_cache_head; int cromfs_dirent_cache_nr; const void *data; } cromfs_info; typedef struct { uint32_t ref; uint32_t partition_pos; cromfs_info *ci; uint32_t size; uint8_t *buff; uint32_t partition_size; int data_valid; } file_info; /**********************************/ #define avl_key_t uint32_t #define AVL_EMPTY (struct cromfs_avl_struct *)0 #define avl_maxheight 32 #define heightof(tree) ((tree) == AVL_EMPTY ? 0 : (tree)->avl_height) struct cromfs_avl_struct { struct cromfs_avl_struct *avl_left; struct cromfs_avl_struct *avl_right; int avl_height; avl_key_t avl_key; file_info *fi; }; static void cromfs_avl_remove(struct cromfs_avl_struct *node_to_delete, struct cromfs_avl_struct **ptree); static void cromfs_avl_insert(struct cromfs_avl_struct *new_node, struct cromfs_avl_struct **ptree); static struct cromfs_avl_struct* cromfs_avl_find(avl_key_t key, struct cromfs_avl_struct *ptree); static void cromfs_avl_rebalance(struct cromfs_avl_struct ***nodeplaces_ptr, int count) { for (;count > 0; count--) { struct cromfs_avl_struct **nodeplace = *--nodeplaces_ptr; struct cromfs_avl_struct *node = *nodeplace; struct cromfs_avl_struct *nodeleft = node->avl_left; struct cromfs_avl_struct *noderight = node->avl_right; int heightleft = heightof(nodeleft); int heightright = heightof(noderight); if (heightright + 1 < heightleft) { struct cromfs_avl_struct * nodeleftleft = nodeleft->avl_left; struct cromfs_avl_struct * nodeleftright = nodeleft->avl_right; int heightleftright = heightof(nodeleftright); if (heightof(nodeleftleft) >= heightleftright) { node->avl_left = nodeleftright; nodeleft->avl_right = node; nodeleft->avl_height = 1 + (node->avl_height = 1 + heightleftright); *nodeplace = nodeleft; } else { nodeleft->avl_right = nodeleftright->avl_left; node->avl_left = nodeleftright->avl_right; nodeleftright->avl_left = nodeleft; nodeleftright->avl_right = node; nodeleft->avl_height = node->avl_height = heightleftright; nodeleftright->avl_height = heightleft; *nodeplace = nodeleftright; } } else if (heightleft + 1 < heightright) { struct cromfs_avl_struct *noderightright = noderight->avl_right; struct cromfs_avl_struct *noderightleft = noderight->avl_left; int heightrightleft = heightof(noderightleft); if (heightof(noderightright) >= heightrightleft) { node->avl_right = noderightleft; noderight->avl_left = node; noderight->avl_height = 1 + (node->avl_height = 1 + heightrightleft); *nodeplace = noderight; } else { noderight->avl_left = noderightleft->avl_right; node->avl_right = noderightleft->avl_left; noderightleft->avl_right = noderight; noderightleft->avl_left = node; noderight->avl_height = node->avl_height = heightrightleft; noderightleft->avl_height = heightright; *nodeplace = noderightleft; } } else { int height = (heightleftavl_height) { break; } node->avl_height = height; } } } static void cromfs_avl_remove(struct cromfs_avl_struct *node_to_delete, struct cromfs_avl_struct **ptree) { avl_key_t key = node_to_delete->avl_key; struct cromfs_avl_struct **nodeplace = ptree; struct cromfs_avl_struct **stack[avl_maxheight]; uint32_t stack_count = 0; struct cromfs_avl_struct ***stack_ptr = &stack[0]; /* = &stack[stackcount] */ struct cromfs_avl_struct **nodeplace_to_delete; for (;;) { struct cromfs_avl_struct *node = *nodeplace; if (node == AVL_EMPTY) { return; } *stack_ptr++ = nodeplace; stack_count++; if (key == node->avl_key) { break; } if (key < node->avl_key) { nodeplace = &node->avl_left; } else { nodeplace = &node->avl_right; } } nodeplace_to_delete = nodeplace; if (node_to_delete->avl_left == AVL_EMPTY) { *nodeplace_to_delete = node_to_delete->avl_right; stack_ptr--; stack_count--; } else { struct cromfs_avl_struct *** stack_ptr_to_delete = stack_ptr; struct cromfs_avl_struct ** nodeplace = &node_to_delete->avl_left; struct cromfs_avl_struct * node; for (;;) { node = *nodeplace; if (node->avl_right == AVL_EMPTY) { break; } *stack_ptr++ = nodeplace; stack_count++; nodeplace = &node->avl_right; } *nodeplace = node->avl_left; node->avl_left = node_to_delete->avl_left; node->avl_right = node_to_delete->avl_right; node->avl_height = node_to_delete->avl_height; *nodeplace_to_delete = node; *stack_ptr_to_delete = &node->avl_left; } cromfs_avl_rebalance(stack_ptr,stack_count); } static void cromfs_avl_insert(struct cromfs_avl_struct *new_node, struct cromfs_avl_struct **ptree) { avl_key_t key = new_node->avl_key; struct cromfs_avl_struct **nodeplace = ptree; struct cromfs_avl_struct **stack[avl_maxheight]; int stack_count = 0; struct cromfs_avl_struct ***stack_ptr = &stack[0]; /* = &stack[stackcount] */ for (;;) { struct cromfs_avl_struct * node = *nodeplace; if (node == AVL_EMPTY) { break; } *stack_ptr++ = nodeplace; stack_count++; if (key < node->avl_key) { nodeplace = &node->avl_left; } else { nodeplace = &node->avl_right; } } new_node->avl_left = AVL_EMPTY; new_node->avl_right = AVL_EMPTY; new_node->avl_height = 1; *nodeplace = new_node; cromfs_avl_rebalance(stack_ptr,stack_count); } static struct cromfs_avl_struct* cromfs_avl_find(avl_key_t key, struct cromfs_avl_struct* ptree) { for (;;) { if (ptree == AVL_EMPTY) { return (struct cromfs_avl_struct *)0; } if (key == ptree->avl_key) { break; } if (key < ptree->avl_key) { ptree = ptree->avl_left; } else { ptree = ptree->avl_right; } } return ptree; } /**********************************/ static uint32_t cromfs_read_bytes(cromfs_info *ci, uint32_t pos, void *buf, uint32_t size) { if (pos >= ci->partition_size || pos + size > ci->partition_size) { return 0; } return ci->read_bytes(ci, pos, buf, size); } static uint32_t cromfs_noblk_read_bytes(cromfs_info *ci, uint32_t pos, void *buf, uint32_t size) { uint32_t ret = 0; ret = rt_device_read(ci->device, pos, buf, size); if (ret != size) { return 0; } else { return ret; } } static uint32_t cromfs_data_read_bytes(cromfs_info *ci, uint32_t pos, void *buf, uint32_t size) { uint32_t ret = 0; uint8_t *data = (uint8_t *)ci->data; if (data) { memcpy(buf, data + pos, size); ret = size; } return ret; } static uint32_t cromfs_blk_read_bytes(cromfs_info *ci, uint32_t pos, void *buf, uint32_t size) { uint32_t ret = 0; uint32_t size_bak = size; uint32_t start_blk = 0; uint32_t end_blk = 0; uint32_t off_s = 0; uint32_t sector_nr = 0; uint8_t *block_buff = NULL; uint32_t ret_len = 0; if (!size || !buf) { return 0; } block_buff = (uint8_t *)malloc(2 * ci->bytes_per_sector); if (!block_buff) { return 0; } start_blk = pos / ci->bytes_per_sector; off_s = pos % ci->bytes_per_sector; end_blk = (pos + size - 1) / ci->bytes_per_sector; sector_nr = end_blk - start_blk; if (sector_nr < 2) { ret_len = rt_device_read(ci->device, start_blk, block_buff, sector_nr + 1); if (ret_len != sector_nr + 1) { goto end; } memcpy(buf, block_buff + off_s, size); } else { ret_len = rt_device_read(ci->device, start_blk, block_buff, 1); if (ret_len != 1) { goto end; } memcpy(buf, block_buff + off_s, ci->bytes_per_sector - off_s); off_s = (ci->bytes_per_sector - off_s); size -= off_s; sector_nr--; start_blk++; if (sector_nr) { ret_len = rt_device_read(ci->device, start_blk, (char*)buf + off_s, sector_nr); if (ret_len != sector_nr) { goto end; } start_blk += sector_nr; off_s += (sector_nr * ci->bytes_per_sector); size -= (sector_nr * ci->bytes_per_sector); } ret_len = rt_device_read(ci->device, start_blk, block_buff, 1); if (ret_len != 1) { goto end; } memcpy((char*)buf + off_s, block_buff, size); } ret = size_bak; end: free(block_buff); return ret; } /**********************************/ static uint8_t *cromfs_dirent_cache_get(cromfs_info *ci, uint32_t pos, uint32_t size) { rt_list_t *l = NULL; cromfs_dirent_cache *dir = NULL; uint32_t len = 0; /* find */ for (l = ci->cromfs_dirent_cache_head.next; l != &ci->cromfs_dirent_cache_head; l = l->next) { dir = (cromfs_dirent_cache *)l; if (dir->partition_pos == pos) { RT_ASSERT(dir->size == size); rt_list_remove(l); rt_list_insert_after(&ci->cromfs_dirent_cache_head, l); return dir->buff; } } /* not found */ if (ci->cromfs_dirent_cache_nr >= CROMFS_DIRENT_CACHE_SIZE) { l = ci->cromfs_dirent_cache_head.prev; dir = (cromfs_dirent_cache *)l; rt_list_remove(l); free(dir->buff); free(dir); ci->cromfs_dirent_cache_nr--; } dir = (cromfs_dirent_cache *)malloc(sizeof *dir); if (!dir) { return NULL; } dir->buff = (uint8_t *)malloc(size); if (!dir->buff) { free(dir); return NULL; } len = cromfs_read_bytes(ci, pos, dir->buff, size); if (len != size) { free(dir->buff); free(dir); return NULL; } rt_list_insert_after(&ci->cromfs_dirent_cache_head, (rt_list_t *)dir); ci->cromfs_dirent_cache_nr++; dir->partition_pos = pos; dir->size = size; return dir->buff; } static void cromfs_dirent_cache_destroy(cromfs_info *ci) { rt_list_t *l = NULL; cromfs_dirent_cache *dir = NULL; while ((l = ci->cromfs_dirent_cache_head.next) != &ci->cromfs_dirent_cache_head) { rt_list_remove(l); dir = (cromfs_dirent_cache *)l; free(dir->buff); free(dir); ci->cromfs_dirent_cache_nr--; } } /**********************************/ static int dfs_cromfs_mount(struct dfs_mnt *mnt, unsigned long rwflag, const void *data) { struct rt_device_blk_geometry geometry; uint32_t len = 0; cromfs_info *ci = NULL; ci = (cromfs_info *)malloc(sizeof *ci); if (!ci) { return -ENOMEM; } memset(ci, 0, sizeof *ci); ci->device = mnt->dev_id; ci->partition_size = UINT32_MAX; if (ci->device) { rt_err_t ret = rt_device_open(ci->device, RT_DEVICE_OFLAG_RDONLY); if (ret != RT_EOK) { free(ci); return ret; } if (ci->device->type == RT_Device_Class_Block) { rt_device_control(ci->device, RT_DEVICE_CTRL_BLK_GETGEOME, &geometry); ci->bytes_per_sector = geometry.bytes_per_sector; ci->read_bytes = cromfs_blk_read_bytes; } else { ci->read_bytes = cromfs_noblk_read_bytes; } } else if (data) { ci->data = data; ci->read_bytes = cromfs_data_read_bytes; } else { free(ci); return -RT_EIO; } len = cromfs_read_bytes(ci, 0, &ci->part_info, sizeof ci->part_info); if (len != sizeof ci->part_info || memcmp(ci->part_info.magic, CROMFS_MAGIC, sizeof ci->part_info.magic) != 0) { free(ci); return -RT_ERROR; } ci->partition_size = ci->part_info.partition_size; mnt->data = ci; rt_mutex_init(&ci->lock, "crom", RT_IPC_FLAG_FIFO); ci->cromfs_avl_root = NULL; rt_list_init(&ci->cromfs_dirent_cache_head); ci->cromfs_dirent_cache_nr = 0; return RT_EOK; } static int dfs_cromfs_unmount(struct dfs_mnt *mnt) { rt_err_t result = RT_EOK; cromfs_info *ci = NULL; ci = (cromfs_info *)mnt->data; result = rt_mutex_take(&ci->lock, RT_WAITING_FOREVER); if (result != RT_EOK) { return -RT_ERROR; } cromfs_dirent_cache_destroy(ci); while (ci->cromfs_avl_root) { struct cromfs_avl_struct *node; file_info *fi = NULL; node = ci->cromfs_avl_root; fi = node->fi; cromfs_avl_remove(node, &ci->cromfs_avl_root); free(node); if (fi->buff) { free(fi->buff); } free(fi); } if (ci->device) { rt_device_close(ci->device); } rt_mutex_detach(&ci->lock); free(ci); return RT_EOK; } static uint32_t cromfs_lookup(cromfs_info *ci, const char *path, int* is_dir, uint32_t *size, uint32_t *osize) { uint32_t cur_size = 0, cur_pos = 0, cur_osize = 0; const char *subpath = NULL, *subpath_end = NULL; void *di_mem = NULL; int isdir = 0; if (path[0] == '\0') { return CROMFS_POS_ERROR; } cur_size = ci->part_info.root_dir_size; cur_osize = 0; cur_pos = ci->part_info.root_dir_pos; isdir = 1; subpath_end = path; while (1) { cromfs_dirent_item *di_iter = NULL; int found = 0; /* skip /// */ while (*subpath_end && *subpath_end == '/') { subpath_end++; } subpath = subpath_end; while ((*subpath_end != '/') && *subpath_end) { subpath_end++; } if (*subpath == '\0') { break; } /* if not dir or empty dir, error */ if (!isdir || !cur_size) { return CROMFS_POS_ERROR; } /* find subpath */ di_mem = cromfs_dirent_cache_get(ci, cur_pos, cur_size); if (!di_mem) { return CROMFS_POS_ERROR; } found = 0; di_iter = (cromfs_dirent_item *)di_mem; while (1) { uint32_t name_len = subpath_end - subpath; uint32_t name_block = 0; if (di_iter->dirent.name_size == name_len) { if (memcmp(di_iter->dirent.name, subpath, name_len) == 0) { found = 1; cur_size = di_iter->dirent.file_size; cur_osize = di_iter->dirent.file_origin_size; cur_pos = di_iter->dirent.parition_pos; if (di_iter->dirent.attr == CROMFS_DIRENT_ATTR_DIR) { isdir = 1; } else { isdir = 0; } break; } } name_block = (di_iter->dirent.name_size + CROMFS_ALIGN_SIZE_MASK) >> CROMFS_ALIGN_SIZE_BIT; di_iter += (1 + name_block); if ((uint32_t)(intptr_t)di_iter - (uint32_t)(intptr_t)di_mem >= cur_size) { break; } } if (!found) { return CROMFS_POS_ERROR; } } *size = cur_size; *osize = cur_osize; *is_dir = isdir; return cur_pos; } static uint32_t __dfs_cromfs_lookup(cromfs_info *ci, const char *path, int* is_dir, uint32_t *size, uint32_t *osize) { rt_err_t result = RT_EOK; uint32_t ret = 0; result = rt_mutex_take(&ci->lock, RT_WAITING_FOREVER); if (result != RT_EOK) { return CROMFS_POS_ERROR; } ret = cromfs_lookup(ci, path, is_dir, size, osize); rt_mutex_release(&ci->lock); return ret; } static int fill_file_data(file_info *fi) { int ret = -1; cromfs_info *ci = NULL; void *compressed_file_buff = NULL; uint32_t size = 0, osize = 0; if (!fi->data_valid) { RT_ASSERT(fi->buff != NULL); ci = fi->ci; osize = fi->size; size = fi->partition_size; compressed_file_buff = (void *)malloc(size); if (!compressed_file_buff) { goto end; } if (cromfs_read_bytes(ci, fi->partition_pos, compressed_file_buff, size) != size) { goto end; } if (uncompress((uint8_t *)fi->buff, (uLongf *)&osize, (uint8_t *)compressed_file_buff, size) != Z_OK) { goto end; } fi->data_valid = 1; } ret = 0; end: if (compressed_file_buff) { free(compressed_file_buff); } return ret; } static ssize_t dfs_cromfs_read(struct dfs_file *file, void *buf, size_t count, off_t *pos) { rt_err_t result = RT_EOK; file_info *fi = NULL; cromfs_info *ci = NULL; uint32_t length = 0; ci = (cromfs_info *)file->dentry->mnt->data; fi = (file_info *)file->vnode->data; if (count < file->vnode->size - *pos) { length = count; } else { length = file->vnode->size - *pos; } if (length > 0) { RT_ASSERT(fi->size != 0); if (fi->buff) { int fill_ret = 0; result = rt_mutex_take(&ci->lock, RT_WAITING_FOREVER); if (result != RT_EOK) { return 0; } fill_ret = fill_file_data(fi); rt_mutex_release(&ci->lock); if (fill_ret < 0) { return 0; } memcpy(buf, fi->buff + *pos, length); } else { void *di_mem = NULL; result = rt_mutex_take(&ci->lock, RT_WAITING_FOREVER); if (result != RT_EOK) { return 0; } di_mem = cromfs_dirent_cache_get(ci, fi->partition_pos, fi->size); if (di_mem) { memcpy(buf, (char*)di_mem + *pos, length); } rt_mutex_release(&ci->lock); if (!di_mem) { return 0; } } /* update file current position */ *pos += length; } return length; } static file_info *get_file_info(cromfs_info *ci, uint32_t partition_pos, int inc_ref) { struct cromfs_avl_struct* node = cromfs_avl_find(partition_pos, ci->cromfs_avl_root); if (node) { if (inc_ref) { node->fi->ref++; } return node->fi; } return NULL; } static file_info *inset_file_info(cromfs_info *ci, uint32_t partition_pos, int is_dir, uint32_t size, uint32_t osize) { file_info *fi = NULL; void *file_buff = NULL; struct cromfs_avl_struct *node = NULL; fi = (file_info *)malloc(sizeof *fi); if (!fi) { goto err; } fi->partition_pos = partition_pos; fi->ci = ci; if (is_dir) { fi->size = size; } else { fi->size = osize; fi->partition_size = size; fi->data_valid = 0; if (osize) { file_buff = (void *)malloc(osize); if (!file_buff) { goto err; } } } fi->buff = file_buff; fi->ref = 1; node = (struct cromfs_avl_struct *)malloc(sizeof *node); if (!node) { goto err; } node->avl_key = partition_pos; node->fi = fi; cromfs_avl_insert(node, &ci->cromfs_avl_root); return fi; err: if (file_buff) { free(file_buff); } if (fi) { free(fi); } return NULL; } static void deref_file_info(cromfs_info *ci, uint32_t partition_pos) { struct cromfs_avl_struct* node = cromfs_avl_find(partition_pos, ci->cromfs_avl_root); file_info *fi = NULL; if (node) { node->fi->ref--; if (node->fi->ref == 0) { fi = node->fi; cromfs_avl_remove(node, &ci->cromfs_avl_root); free(node); if (fi->buff) { free(fi->buff); } free(fi); } } } static int dfs_cromfs_close(struct dfs_file *file) { file_info *fi = NULL; cromfs_info *ci = NULL; rt_err_t result = 0; RT_ASSERT(file->vnode->ref_count > 0); if (file->vnode->ref_count > 1) { return 0; } fi = (file_info *)file->vnode->data; ci = (cromfs_info *)file->dentry->mnt->data; result = rt_mutex_take(&ci->lock, RT_WAITING_FOREVER); if (result != RT_EOK) { return -RT_ERROR; } deref_file_info(ci, fi->partition_pos); rt_mutex_release(&ci->lock); file->vnode->data = NULL; return RT_EOK; } static int dfs_cromfs_open(struct dfs_file *file) { int ret = 0; file_info *fi = NULL; cromfs_info *ci = NULL; uint32_t file_pos = 0; uint32_t size = 0, osize = 0; int is_dir = 0; rt_err_t result = RT_EOK; if (file->flags & (O_CREAT | O_WRONLY | O_APPEND | O_TRUNC | O_RDWR)) { return -EINVAL; } RT_ASSERT(file->vnode->ref_count > 0); if (file->vnode->ref_count > 1) { if (file->vnode->type == FT_DIRECTORY && !(file->flags & O_DIRECTORY)) { return -ENOENT; } file->fpos = 0; return 0; } ci = (cromfs_info *)file->dentry->mnt->data; file_pos = __dfs_cromfs_lookup(ci, file->dentry->pathname, &is_dir, &size, &osize); if (file_pos == CROMFS_POS_ERROR) { ret = -ENOENT; goto end; } /* entry is a directory file type */ if (is_dir) { if (!(file->flags & O_DIRECTORY)) { ret = -ENOENT; goto end; } file->vnode->type = FT_DIRECTORY; } else { /* entry is a file, but open it as a directory */ if (file->flags & O_DIRECTORY) { ret = -ENOENT; goto end; } file->vnode->type = FT_REGULAR; } result = rt_mutex_take(&ci->lock, RT_WAITING_FOREVER); if (result != RT_EOK) { ret = -EINTR; goto end; } fi = get_file_info(ci, file_pos, 1); if (!fi) { fi = inset_file_info(ci, file_pos, is_dir, size, osize); } rt_mutex_release(&ci->lock); if (!fi) { ret = -ENOENT; goto end; } file->vnode->data = fi; if (is_dir) { file->vnode->size = size; } else { file->vnode->size = osize; } file->fpos = 0; ret = RT_EOK; end: return ret; } static int dfs_cromfs_stat(struct dfs_dentry *dentry, struct stat *st) { uint32_t size = 0, osize = 0; int is_dir = 0; cromfs_info *ci = NULL; uint32_t file_pos = 0; ci = (cromfs_info *)dentry->mnt->data; file_pos = __dfs_cromfs_lookup(ci, dentry->pathname, &is_dir, &size, &osize); if (file_pos == CROMFS_POS_ERROR) { return -ENOENT; } st->st_dev = 0; st->st_mode = S_IFREG | S_IRUSR | S_IRGRP | S_IROTH | S_IWUSR | S_IWGRP | S_IWOTH; if (is_dir) { st->st_mode &= ~S_IFREG; st->st_mode |= S_IFDIR | S_IXUSR | S_IXGRP | S_IXOTH; st->st_size = size; } else { st->st_size = osize; } st->st_mtime = 0; return RT_EOK; } static int dfs_cromfs_getdents(struct dfs_file *file, struct dirent *dirp, uint32_t count) { uint32_t index = 0; uint8_t *name = NULL; struct dirent *d = NULL; file_info *fi = NULL; cromfs_info *ci = NULL; cromfs_dirent_item *dirent = NULL, *sub_dirent = NULL; void *di_mem = NULL; rt_err_t result = RT_EOK; fi = (file_info *)file->vnode->data; ci = fi->ci; RT_ASSERT(fi->buff == NULL); if (!fi->size) { return -EINVAL; } dirent = (cromfs_dirent_item *)malloc(fi->size); if (!dirent) { return -ENOMEM; } result = rt_mutex_take(&ci->lock, RT_WAITING_FOREVER); if (result != RT_EOK) { free(dirent); return -EINTR; } di_mem = cromfs_dirent_cache_get(ci, fi->partition_pos, fi->size); if (di_mem) { memcpy(dirent, di_mem, fi->size); } rt_mutex_release(&ci->lock); if (!di_mem) { free(dirent); return -ENOMEM; } /* make integer count */ count = (count / sizeof(struct dirent)); if (count == 0) { free(dirent); return -EINVAL; } for (index = 0; index < count && file->fpos < file->vnode->size; index++) { uint32_t name_size = 0; d = dirp + index; sub_dirent = &dirent[file->fpos >> CROMFS_ALIGN_SIZE_BIT]; name = sub_dirent->dirent.name; /* fill dirent */ if (sub_dirent->dirent.attr == CROMFS_DIRENT_ATTR_DIR) { d->d_type = DT_DIR; } else { d->d_type = DT_REG; } d->d_namlen = sub_dirent->dirent.name_size; d->d_reclen = (rt_uint16_t)sizeof(struct dirent); memcpy(d->d_name, (char *)name, sub_dirent->dirent.name_size); d->d_name[sub_dirent->dirent.name_size] = '\0'; name_size = (sub_dirent->dirent.name_size + CROMFS_ALIGN_SIZE_MASK) & ~CROMFS_ALIGN_SIZE_MASK; /* move to next position */ file->fpos += (name_size + sizeof *sub_dirent); } free(dirent); return index * sizeof(struct dirent); } static struct dfs_vnode *dfs_cromfs_lookup (struct dfs_dentry *dentry) { struct dfs_vnode *vnode = RT_NULL; cromfs_info *ci = NULL; RT_ASSERT(dentry != RT_NULL); RT_ASSERT(dentry->mnt != RT_NULL); ci = (cromfs_info *)dentry->mnt->data; if (ci) { uint32_t size = 0, osize = 0; int is_dir = 0; uint32_t file_pos = __dfs_cromfs_lookup(ci, dentry->pathname, &is_dir, &size, &osize); if (file_pos != CROMFS_POS_ERROR) { vnode = dfs_vnode_create(); if (vnode) { vnode->nlink = 1; if (is_dir) { vnode->mode = S_IFDIR | (0555); vnode->type = FT_DIRECTORY; vnode->size = size; } else { vnode->mode = S_IFREG | (0555); vnode->type = FT_REGULAR; vnode->size = osize; } vnode->mnt = dentry->mnt; } } } return vnode; } static int dfs_cromfs_free_vnode(struct dfs_vnode *vnode) { return 0; } static const struct dfs_file_ops _crom_fops = { .open = dfs_cromfs_open, .close = dfs_cromfs_close, .lseek = generic_dfs_lseek, .read = dfs_cromfs_read, .getdents = dfs_cromfs_getdents, }; static const struct dfs_filesystem_ops _cromfs_ops = { .name = "crom", .flags = 0, .default_fops = &_crom_fops, .mount = dfs_cromfs_mount, .umount = dfs_cromfs_unmount, .stat = dfs_cromfs_stat, .lookup = dfs_cromfs_lookup, .free_vnode = dfs_cromfs_free_vnode }; static struct dfs_filesystem_type _cromfs = { .fs_ops = &_cromfs_ops, }; int dfs_cromfs_init(void) { /* register crom file system */ dfs_register(&_cromfs); return 0; } INIT_COMPONENT_EXPORT(dfs_cromfs_init);